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2016 Football Division 3 Tournament Northern Region is the 1st season of the League competition since its establishment in 2016. It is in the fourth tier of the Thai football league system. Venue Stadium and locations (2016) Section 1,2,3 All matches played in Maejo University San Sai District, Chiang Mai Section 4 All matches played in Chiang Mai University Chiang Mai Member clubs Format Group stage: A total 13 clubs will be divided into four groups of three clubs except group 4 which has four clubs to play round-robin matches at a neutral venue. The best two clubs of each group will qualify to the knock-out stage. Knock-out stage: A total of 8 clubs which has qualified from the group stage will play single-elimination stage until there are only two finalists of the tournament. Result First round Group A Group B Group C Group D Quarter-finals Round Semi-finals Round Final round Winner See also 2016 Thai Division 3 Tournament North Eastern Region 2016 Thai Division 3 Tournament Eastern Region 2016 Thai Division 3 Tournament Central Region 2016 Thai Division 3 Tournament Southern Region References External links http://www.thailandsusu.com/webboard/index.php?topic=375896.0 https://web.archive.org/web/20160922134240/http://fathailand.org/archives/9792 https://web.archive.org/web/20161221232904/http://fathailand.org/archives/15489 http://www.thailandsusu.com/webboard/index.php?topic=378874.0 ฟุตบอลดิวิชัน 3 ฤดูกาล 2559 Nor 2016 in Thai football leagues
Laura Martínez de Carvajal (1869–1941) was the first female doctor in Cuba. She was the oldest daughter of a rich Spanish family, and learned to read and write at age four and finished high school at age thirteen. Because she was a woman, when she studied medicine she was not able to dissect corpses at the same time as her male classmates, but had to do so by herself on Saturday and Sunday. She graduated in medicine at age 19 in 1889, at the University of Havana. She also married in July 1889. She worked as an ophthalmologist; her husband, Dr. Enrique López Veitía, also worked as such and she became his chief assistant and cared for his patients when he could not. She also collaborated with him on many papers and three volumes of "Clinical Ophthalmology". She had seven children. Her husband died of tuberculosis in 1910 and she died of tuberculosis in 1941. Early life and education Childhood Laura Martínez de Carvajal was born on 27 August 1869 in Havana, Cuba. She was the oldest daughter of a wealthy Spanish family who's social status brought about connections which enabled her parents to provide a good education to her and her siblings. She was taught the social codes of high society while being reminded of always valuing human values. Her family also made sure to give to others by starting with the people living in their neighborhood. She distinguished herself very earlier on for being a precarious child. At the age of 4 she could read and write, and at the age of 10 enrolled into high school. Education She enrolled in the College of San Francisco de Paula, Cuba, where she earned her bachelor and graduated at the age of 13. One year later, after insisting that she should study alongside her brother, her father enrolled her into the University of Havana, in the faculty of physical-mathematical sciences and medicine. Laura out-shadowed her all male peers. The professors who taught physiology and dissection at the San Felipe and Santiago Hospital in Havana, Cuba, did not allow her to dissect with her peers because women were conventionally excluded from taking part in such activity. As an alternative, she worked on her own on the weekends which turned out to be an advantage. She graduated as medical in 15 January 1889 and became the first female physician and ophthalmologist of Cuba. Personal Her father insisted that she finished school before getting married. She married cuban ophthalmologist Dr. Enrique López Veitía (well known ophthalmologist and initiator of the Medical Congresses in Cuba) in 20 January 1889, 5 days after graduating. Together, they had 7 children which she cared for all while practicing her profession. Career She started practicing in a medical clinic, Policlínica de Especialidades, which she funded with her husband. She contributed in the preparation of her husbands manual Oftalmologia clinica which appeared in three volumes in 1891, 1895 and 1906. Her other collaborations included in Notas fisiológicas, and Ocular leprosy. End of Life Near the end of her life she funded a public school for the kids who lived in her residence. Laura Martínez de Carvajal died at the age of 75 on January 24, 1941, in the municipal of San Pedro del Cotorro, Havana, Cuba from tuberculosis. References Further reading Laura Martinez de Carvajal y del Camino: primera graduada de medicina en Cuba, by María Julia de Lara Mena, published by Consejo Cientifica, Ministerio de Salud Pública, in 1964 1869 births 1941 deaths Cuban ophthalmologists Cuban women physicians 19th-century women physicians People from Spanish Cuba
Pterygota macrocarpa is a species of flowering plant in the family Malvaceae. It is found in Cameroon, Ivory Coast, Ghana, Nigeria, and Sierra Leone. It is threatened by habitat loss. References Sterculioideae Vulnerable plants Taxonomy articles created by Polbot
Estradiol 17β-sulfate is an estrogen conjugate which is produced from estradiol by sulfation of the C17β hydroxyl group by estrogen sulfotransferases. See also Estradiol 3-sulfate References Estradiol esters Human metabolites Phenols Sulfate esters
Emperor is a 2020 American Western historical drama film directed by Mark Amin (in his directorial debut) and written by Amin and Pat Charles. The film stars Dayo Okeniyi, James Cromwell, Kat Graham, and Bruce Dern. It is based on the true story of Shields Green, an African American slave nicknamed "Emperor", who escaped to freedom and participated in abolitionist John Brown's raid on Harpers Ferry. Plot In 1859, after the plantation on which Shields "Emperor" Green works in Charleston, South Carolina, is gambled away by his master, a cruel new overseer tortures Shields and whips his son Tommy. In retaliation, Shields kills the overseer and flees. Shields' wife Sarah is killed during his escape. Shields evades capture on his way north and learns that a bounty has been placed on his head. His master and neighboring plantation owners hire bounty hunter Luke McCabe to catch him. Shields is found by Truesdale, who gives him refuge in his house despite his wife Delores' objection; however, the next day, Truesdale turns on him and forces Shields to lock himself in a cage, revealing his intention to wait for the bounty hunters to capture Shields for the reward money. Delores kills Truesdale and frees Shields, who takes the responsibility for the latter's murder. Shields meets up with a young bank robber, Rufus Kelly. McCabe and his men pursue them and almost catch them, and Rufus dies from the injuries in the process. Shields takes his gun and looted money and meets up with Levi Coffin (a real Quaker abolitionist) at his cabin. There, he gives him the money to buy his son's freedom. After McCabe appears, Shields heads to Maryland where meets John Brown and Frederick Douglass, who is preparing the raid at Harpers Ferry. Shields agrees to join them to fight for the end of slavery. Shields, Brown and his men take over Harpers Ferry. United States Army Colonel Robert E. Lee and his forces retake it and most of Brown's men suffer casualties. As Shields rides away on a horse, McCabe shoots and wounds him. Shields takes refuge at a church, but McCabe and his men track him down. During a gun battle. Shields climbs to the spire, pursued by McCabe, and blows it up as he leaps into a river to make his escape. Coffin buys Tommy's freedom and takes him to Shields. In 1890, his son writes a book about him and takes it to a publisher. Cast Dayo Okeniyi as Shields Green Naturi Naughton as Sarah Green Trayce Malachi as Tommy Green Keean Johnson as Rufus Kelly Ben Robson as Luke McCabe Bruce Dern as Levi Coffin James Cromwell as John Brown Harry Lennix as Frederick Douglass James Le Gros as Robert E. Lee Paul Scheer as Duvane Henderson M. C. Gainey as Randolph Stevens Nicholas Logan as Gunther Bowman Kat Graham as Delores Mykelti Williamson as Truesdale Brad Carter as Grady Samuel Lee Fudge as Henry Mark Ashworth as Reverend Nubel Feliz Yan as Esclavo Production Emperor is the directorial debut of producer Mark Amin. Filming began on June 18, 2018, in Savannah, Georgia, and lasted for 28 days. Locations used included Fort James Jackson (as Harpers Ferry) and the Wormsloe Historic Site. Release In January 2020, Briarcliff Entertainment acquired the film's U.S. distribution rights, and planned to release it in theaters on March 27, 2020. This release was canceled due to the COVID-19 pandemic, and the film was instead released on DVD, digital and video on demand on August 18, 2020, by Universal Pictures Home Entertainment. Reception Emperor received mixed reviews. , of the reviews compiled by Rotten Tomatoes are positive, with an average rating of . Glenn Kenny of The New York Times gave a mixed review, praising the lead Okeniyi's acting while finding the plot to be "unimaginative" and the dialogue "tired". Martin Thomas of Double Toasted put the film as his #1 worst film of 2020, describing it as poorly written, historically inaccurate. On RogerEbert.com, Simon Abrams gave it one star, calling it toothless, insulting, inert, tacky, lousy, and mediocre. "It re-presents a dark period in American history without being inspired or insightful enough to be worth your curiosity or emotional investment." Historical accuracy Shields Green had broken speech and was hard to understand; he may have had a speech defect. Douglass described him as "a man of few words". Shields Green actually met both Douglass and John Brown at the former's home in Rochester, New York, where John was visiting and working on his project. What Green was doing as a slave in South Carolina is unknown, but that he managed a plantation is very unlikely. In Rochester, living in Douglass's house, he worked as a barber and launderer. Green did not escape from the raid on Harper's Ferry. He was captured, tried, and convicted along with Brown for treason against Virginia, murder, and inciting a slave insurrection, and hanged two weeks after Brown. There is no evidence that Green saw his son again after he left South Carolina, nor that his son wrote a book about him. While the fact that he had a son is documented, that he had "sons" is not. The names of his wife and son are unknown. See also List of films featuring slavery References External links 2020 directorial debut films 2020 drama films 2020 films 2020 Western (genre) films 2020s American films 2020s English-language films 2020s historical drama films African-American Western (genre) films American films based on actual events American historical drama films Cultural depictions of John Brown (abolitionist) Cultural depictions of Frederick Douglass Drama films based on actual events Films about American slavery Films not released in theaters due to the COVID-19 pandemic Films scored by Javier Navarrete Films set in 1859 Films set in 1890 Films set in Charleston, South Carolina Films set in Maryland Films set in Virginia Films shot in Savannah, Georgia Western (genre) films based on actual events
Dundas House is a Neoclassical building in Edinburgh, Scotland. It is located at 36 St Andrew Square, in the city's first New Town. The building was completed in 1774 as a private town house for Sir Lawrence Dundas by the architect Sir William Chambers. Much altered internally and extended over the years, today it is the registered office of the Royal Bank of Scotland and its parent, NatWest Group and is protected as a category A listed building. Background The site was previously occupied by a rural tavern known as "Peace and Plenty". This stood on the road from Edinburgh to Stockbridge, later called Gabriels Road, and still extant at its extremities. When the town council made plans for a New Town drawn up by James Craig in 1767, the site of Dundas House was shown as a proposed church, St. Andrew's (hence the name of the square), acting as a counterpart to St. George's Church on what became Charlotte Square (originally to be called George Square but another scheme to the south of the Old Town had taken that name first). The two were separated by the New Town itself laid out on a formal grid centred on George Street along which the two churches were to face each other. Sir Lawrence Dundas saw the layout and decided the church site would make a good location for a prestigious town mansion, and in 1768 he acquired the land. Initially, he invited designs from the architects John Carr and James Byres, but their proposals were not adopted. Dundas then turned to Sir William Chambers who drew up plans for the mansion in early 1771. The designs were agreed, and soon afterwards construction began on the house. The building was completed by January 1774. In 1780 Hugo Arnot described the building as "incomparably the handsomest townhouse we ever saw". The proposed St Andrew's Church was subsequently built at a less prominent site at 13 George Street. Commercial use Lord Dundas died in 1781 and his son Sir Thomas Dundas, 2nd Baronet inherited the house. Having no great desire to live here (then the site was in the midst of a huge building site as the New Town construction began) he sold the house to the government in 1794 who converted it to the Excise House, which opened in 1795. At this stage it gained the royal coat of arms of the British Customs and Excise in its pediment. Dundas House was acquired by the Royal Bank of Scotland in 1825 for £35,300. The interior was altered in 1825 and 1828 by Archibald Elliot the Younger, and in 1836 by William Burn. Much of these alterations were removed by John Dick Peddie in 1857 when a banking hall with a distinctive pierced dome was added to the rear of the existing house. In 1834, a statue of John Hope, 4th Earl of Hopetoun, who had served as Governor of the Bank 1820–23, was placed in the garden in front of Dundas House. The statue was originally commissioned in 1824 by a group of high ranking persons in Edinburgh, led by James Gibson Craig, from the sculptor Thomas Campbell. Campbell created it in Rome and it was shipped to Britain in 1828. The current position was agreed by the architect in January 1830, and an appropriate plinth was designed to respect the frontage of Dundas House. Although several sources state that the statue was designed for Charlotte Square, there is no evidence of any plans for locating on that site, and Hope's link to the Royal Bank make Dundas House a more obvious first choice. In 1972 the 19th-century banking screens and counters were removed and replaced by white marble counters. Architecture Dundas House is a free-standing house designed in the Palladian style. It was modelled on Roger Morris's 1729 Palladian villa Marble Hill House in Twickenham, London but is much grander. The house is built of cream sandstone ashlar, weathered to light grey, from Ravelston Quarry some three miles to the west. It is fronted with a set of Corinthian pilasters supporting a large central pediment. The house is faced with ashlar with a rusticated ground floor. The large, opulent banking hall, added by Peddie in 1857, is covered by a large circular blue dome which is pierced by 5 tiers of star-shaped gold-rimmed coffered skylights radiating out from the central oculus which diminish in size towards the centre, representing the firmament. An illustration of this star pattern featured on Royal Bank of Scotland's "Islay" series of banknotes which were in circulation 1987–2016. Future use In plans unveiled by the International Music and Performing Arts Charitable Trust Scotland (IMPACT Scotland) in 2017, a new concert hall called the Impact Centre will be built behind Dundas House, replacing a block of banking offices that was built in the 1960s. Dundas House will be retained as a bank branch, accessible to the public. See also Banknotes of Scotland (featured on design) References External links Edinburgh Bank — BBC Nationwide (BBC Archive, 1974) Category A listed buildings in Edinburgh Royal Bank of Scotland Listed houses in Scotland New Town, Edinburgh William Chambers buildings Houses completed in 1774 1774 establishments in Scotland Palladian architecture Domes Bank buildings in the United Kingdom House
The 2nd Central American and Caribbean Junior Championships was held in Xalapa, Mexico, on 26–29 August 1976. The city was already the host of the inaugural CAC senior championships in May, 1967. Although one website states:"Under 17 events were first included on the programme of the biennial Central American and Caribbean Junior Championships in 1978," another website displays also results for under-17 events in 1976. Event summary In the junior (U-20) category, Cuba won most gold medals (11), while host country Mexico was the overall leader in total medals (30). In the under-20 men category, both Luis Alex Misiniak and David Giralt from Cuba won 3 golds (110m hurdles, 400m hurdles, 4 × 100 m relay) and (Long jump, Triple jump, 4 × 100 m relay), respectively. Another Cuban fellow, Juan Martínez and Bahamian Rickey Moxey won two golds each (Shot put, Discus Throw) and (100m, 200m) respectively. In the under-20 women category, Ileana Hocking from Puerto Rico, who won already a gold (1500m) and a silver medal (800m) at the 1974 championships in Maracaibo, Venezuela, gained a total of 5 medals, 4 golds (800m, 1500m, 4 × 100 m relay, 4 × 400 m relay) and one bronze (400m). Ann Adams from Trinidad and Tobago gained 3 golds (100m, 200m, 100m hurdles), whereas Esther Vega from Puerto Rico won two golds (4 × 100 m relay, 4 × 400 m relay) and two silvers (400m, 100m hurdles), and Jennifer Swanston from Barbados won two golds (Long jump, Pentathlon). Ernesto Canto from Mexico, future gold medallist in the men's 20 kilometre walk event at the 1984 Summer Olympics held in Los Angeles, California, defended his title and gained the gold medal in the 10,000 metres track walk event. And María Caridad Colón from Cuba, future gold medallist in Javelin Throw at the 1980 Summer Olympics held in Moscow, Soviet Union, won gold in Javelin Throw and bronze in the Shot Put event. Medal summary Medal winners are published by category: Junior A, Male, and Junior A, Female. Male Junior A (under 20) Female Junior A (under 20) Boys under 17 (Youth) Girls under 17 (Youth) Medal table (unofficial) Participation (unofficial) Detailed result lists can be found on the World Junior Athletics History website. An unofficial count yields the number of about 127 athletes from about 11 countries: (8) (4) (2) (11) (3) (2) México (50) Panamá (1) (26) (11) (9) References External links Official CACAC Website World Junior Athletics History Central American and Caribbean Junior Championships in Athletics International athletics competitions hosted by Mexico 1976 in Mexican sports Central American and Caribbean Junior Championships 1976 in youth sport
Hisamodien Mohamed (2 January 1965 – 24 August 2020) was a South African politician and advocate who served as a Member of the National Assembly of South Africa for the African National Congress from May 2019 until August 2020. Prior to serving in Parliament, Mohamed was the provincial head of the Department of Justice and Constitutional Development. Early life and education Mohamed was born on 2 January 1965 in Lotus River in Cape Town and attended Wittebome High School. He joined the United Democratic Front as a high school student in 1985. He went on to study law at the University of Western Cape and obtained three degrees. Mohamed also completed a senior executive management course at Harvard Business School in 2001. Career In 1990, Mohamed was appointed as a temporary attorney at the Athlone Magistrate's Court. Between 1993 and 1994, he was a public prosecutor at the Mitchells Plain Magistrate's Court. He was admitted as an advocate in the office of the family advocate in 1995. Mohamed was the provincial head of the Department of Justice and Constitutional Development between 1997 and 2019. He was the first chairperson of the African National Congress in the southern suburbs of Cape Town. From 1995 to 2018, he served on the provincial executive committee of the party. Parliamentary career In May 2019, Mohamed was elected to the National Assembly of South Africa as a member of the ANC. His constituency area was Grassy Park. He served as a party whip on the Portfolio Committee on Justice and Correctional Services. Death Mohamed died of a heart attack on 24 August 2020 in his home in Pinelands, Cape Town. He was 55 years old and had a wife and three children. The Portfolio Committee on Justice and Correctional Services and the ANC sent their condolences. References External links Adv. Hishaam Mohamed at University of the Western Cape 1965 births 2020 deaths People from Cape Town Coloured South African people University of the Western Cape alumni African National Congress politicians Members of the National Assembly of South Africa 20th-century South African politicians 21st-century South African politicians
Stibadocera is a genus of crane fly in the family Cylindrotomidae. Stibadocera are unusual for crane flies in that the males have very long antenna, sometimes as long as the body. Most species are very small (6–10 mm). Biology The larvae of the genus Stibadocera live on mosses. Adults are to be found in damp tropical habitats. Distribution Sumatra, Papua New Guinea, Malaysia, Java, Irian Jaya, India & Philippines Species S. bullans Enderlein, 1912 S. daymanensis Alexander, 1960 S. fasciata Edwards, 1926 S. luteipennis Alexander, 1962 S. metallica Alexander, 1915 S. nana Alexander, 1961 S. nigronitida Alexander, 1972 S. opalizans Alexander, 1931 S. papuana Alexander, 1948 S. perangusta Alexander, 1961 S. pumila Alexander, 1930 S. quadricellula (Brunetti, 1911) References Cylindrotomidae Diptera of Asia Diptera of Australasia
Barton Heights is a streetcar suburb neighborhood and former town in the Northside area of Richmond, Virginia. The area was primarily developed between 1890 and the 1920s. History Begun as an area of development in Henrico County, Virginia in 1890 by James H. Barton, Barton Heights rapidly developed as the result of being linked via streetcar in 1894 across the deep ravine of the Bacon's Quarter branch of Shockoe Creek, which flows into the Shockoe Valley. The area incorporated as a town in 1896, and was annexed by the city of Richmond in 1914. The Town of Barton Heights Historic District encompasses 367 contributing buildings (305 main buildings and 62 outbuildings). They are primarily spacious wood-frame houses, most built in the first quarter of the 20th century, and sited on 50-foot-wide lots. The houses are largely built in the Queen Anne or Colonial Revival style. References External links Neighborhoods - Richmond (VA) website Houses on the National Register of Historic Places in Virginia Historic districts on the National Register of Historic Places in Virginia Victorian architecture in Virginia Houses completed in 1890 Neighborhoods in Richmond, Virginia Streetcar suburbs National Register of Historic Places in Richmond, Virginia Houses in Richmond, Virginia
A franchise tax is a government levy (tax) charged by some US states to certain business organizations such as corporations and partnerships with a nexus in the state. A franchise tax is not based on income. Rather, the typical franchise tax calculation is based on the net worth of or capital held by the entity. The franchise tax effectively charges corporations for the privilege of doing business in the state. Nexus Whether or not a business must pay a franchise tax to a state in which it does business can cause some confusion. Some states report using both the economic and physical presence tests, and in some states, there are no written, public interpretations of their test at all. Physical presence test The physical presence test is based on Quill Corp. v. North Dakota, ( 504 U.S. 298 (1992)), a United States Supreme Court ruling concerning use tax. Quill Corporation is an office supply retailer. Quill had no physical presence in North Dakota (neither a sales force, nor a retail outlet), but it had a licensed computer software program that some of its North Dakota customers used for checking Quill's current inventories and placing orders directly. North Dakota attempted to impose a use tax on Quill, which was struck down by the Supreme Court, because Quill had no physical presence in North Dakota. The Quill physical presence test is used by some states to determine whether or not a company must pay franchise tax. Delaware, Hawaii, Massachusetts, Pennsylvania, and Texas report using the physical presence test. Economic presence test Many states apply an "economic presence" test to determine whether a business will be subject to state sales or franchise tax. This test, which seems to contradict Quill, implied that States have the right to tax or "nexus" solely on the basis that a company has sales or otherwise derives an economic benefit from activities within their borders. Amount , about half the U.S. states do not impose a franchise tax. For states that have a franchise tax, the amount is often either a flat fee or based on the size of the business's total holdings. Relationship to corporate tax States with higher corporate income taxes usually have low or no franchise taxes and vice versa. Delaware The state of Delaware has a significant franchise tax. Other states have either nominal taxes or none at all. See also California Franchise Tax Board References External links Delaware Corporate Franchise Tax Calculator Texas Franchise Tax Louisiana Corporation Franchise Tax Delaware Franchise Tax Corporate taxation in the United States State taxation in the United States Business taxes
Stenberg is a surname that was the 11,945th most common last name in the United States as of the 2000 census. One origin nationality for the surname is Swedish, though it was not uncommon for Swedish immigrants to the United States to change this surname to Stoneberg. According to the "Dictionary of American Family Names", this is a Swedish ornamental surname meaning "stone mountain" (or "stone hill" in Danish or Norwegian). 19th Century Lisette Stenberg (1770–1847), Swedish actress and musician Ulla Stenberg (1792–1858), Swedish damask maker 20th Century Birgitta Stenberg (1932–2014), Swedish author, translator and illustrator Brigitta Stenberg, American actress Dick Stenberg (1921–2004), Swedish Air Force lieutenant general Don Stenberg (b. 1948), American politician Eira Stenberg (b. 1943), Finnish playwright and poet Gaby Stenberg (1923–2011), Swedish actress Georgii Stenberg (1900–1933), Russian artist and designer Hans Stenberg (b. 1953), Swedish politician Henry Wuorila-Stenberg (b. 1949), Finnish expressionist and surrealist artist Jan Stenberg, Swedish businessman Johnny Stenberg (1925–1990), Norwegian politician Karin Stenberg (1884–1969), Swedish Sami activist and teacher Kurt Stenberg (1888–1936), Finnish Olympic gymnast Leif Stenberg (b. 1969), Swedish Muslim scholar Logan Stenberg (b. 1997), American football player Ragnar Stenberg (1887–1954), Finnish athlete Scott Stenberg (b. 1958), American aerospace engineer/executive, businessman, U.S. Patent holder Sirið Stenberg (b. 1968), Faroese politician Trine Stenberg (b. 1969), former Norwegian footballer Vladimir Stenberg (1899–1982), Soviet artist and designer 21st Century Amandla Stenberg (b. 1998), American actress Jeremy Stenberg (b. 1981), American freestyle Motocross rider Lennart Stenberg, Swedish author of Den nya nordiska floran Lillo-Stenberg Lars Lillo-Stenberg (b. 1962), Norwegian musician Per Lillo-Stenberg (1928–2014), Norwegian actor See also Stenberg v. Carhart, a Supreme Court case that ruled laws against partial birth abortions to be illegal Stenborg Notes
Radyo Negrense 100.3 (100.3 FM) is a radio station owned and operated by the Provincial Government of Negros Occidental. The station's studio and transmitter are located along Aguinaldo St., Bacolod. References Radio stations in Bacolod Radio stations established in 2022
Philippine Research Institute may refer to: Philippine Rice Research Institute Philippine Nuclear Research Institute
"My Romance" is a popular jazz song, with music by Richard Rodgers and lyrics by Lorenz Hart, written for Billy Rose's musical, Jumbo (1935). Gloria Grafton and Donald Novis introduced the song in that musical. In the 1962 movie version of Jumbo, Doris Day performed the song. The song's lyrics describe a romantic attraction between two people, often by listing elements that are not needed to make this attraction work. In turn, the singer states that the romance does not need a certain setting ("a moon in the sky"), location ("a blue lagoon"), or stereotypical dating accompaniment ("soft guitars"), due to the strong attraction to the person. Other versions Dave Brubeck – The Dave Brubeck Quartet (1952) Bill Evans – The Complete Village Vanguard (1961) Doris Day – 1962 Johnny Smith – The Man with the Blue Guitar (1962) Ben Webster with Hank Jones – Ben and Sweets (1962) Art Blakey with Keith Jarrett – Buttercorn Lady (1966) Hampton Hawes - 1968 Jessica Williams – Portraits (1977) Warne Marsh – A Ballad Album (1983) Tuck & Patti – Tears of Joy (1988) Carly Simon – My Romance (1990) Chris Botti – When I Fall in Love (2004) Aaron Tveit – The Radio in My Head: Live at 54 Below (2013) Debbie Gravitte Mario Lanza Ben Taylor James Taylor Sammy Davis Jr. Roberta Flack Cybill Shepherd See also List of 1930s jazz standards References 1935 songs 1930s jazz standards Songs with music by Richard Rodgers Songs with lyrics by Lorenz Hart Songs from Rodgers and Hart musicals
Narsang Tekri is one of the important areas in Porbandar district in the Indian state of Gujarat. Narsang Tekri has three parts. Two belong to two municipalities of Porbandar Tehsil and one belongs to Dharampur Village in Ranavav Tehsil. Narsang Tekri, the telephone exchange, Modhanagar etc.m belong to Porbandar Municipality. Sudama Parotha House Society area and Saibaba Temple Society Area belong to Chhaya Municipality. Rajiv Nagar Area belongs to Dharampur village in Ranavav Tehsil. Porbandar
```assembly ; This file is generated from a similarly-named Perl script in the BoringSSL ; source tree. Do not edit by hand. %ifidn __OUTPUT_FORMAT__, win64 default rel %define XMMWORD %define YMMWORD %define ZMMWORD %define _CET_ENDBR %ifdef BORINGSSL_PREFIX %include "boringssl_prefix_symbols_nasm.inc" %endif section .text code align=64 global sha1_block_data_order_nohw ALIGN 16 sha1_block_data_order_nohw: mov QWORD[8+rsp],rdi ;WIN64 prologue mov QWORD[16+rsp],rsi mov rax,rsp $L$SEH_begin_sha1_block_data_order_nohw: mov rdi,rcx mov rsi,rdx mov rdx,r8 _CET_ENDBR mov rax,rsp push rbx push rbp push r12 push r13 push r14 mov r8,rdi sub rsp,72 mov r9,rsi and rsp,-64 mov r10,rdx mov QWORD[64+rsp],rax $L$prologue: mov esi,DWORD[r8] mov edi,DWORD[4+r8] mov r11d,DWORD[8+r8] mov r12d,DWORD[12+r8] mov r13d,DWORD[16+r8] jmp NEAR $L$loop ALIGN 16 $L$loop: mov edx,DWORD[r9] bswap edx mov ebp,DWORD[4+r9] mov eax,r12d mov DWORD[rsp],edx mov ecx,esi bswap ebp xor eax,r11d rol ecx,5 and eax,edi lea r13d,[1518500249+r131+rdx] add r13d,ecx xor eax,r12d rol edi,30 add r13d,eax mov r14d,DWORD[8+r9] mov eax,r11d mov DWORD[4+rsp],ebp mov ecx,r13d bswap r14d xor eax,edi rol ecx,5 and eax,esi lea r12d,[1518500249+r121+rbp] add r12d,ecx xor eax,r11d rol esi,30 add r12d,eax mov edx,DWORD[12+r9] mov eax,edi mov DWORD[8+rsp],r14d mov ecx,r12d bswap edx xor eax,esi rol ecx,5 and eax,r13d lea r11d,[1518500249+r111+r14] add r11d,ecx xor eax,edi rol r13d,30 add r11d,eax mov ebp,DWORD[16+r9] mov eax,esi mov DWORD[12+rsp],edx mov ecx,r11d bswap ebp xor eax,r13d rol ecx,5 and eax,r12d lea edi,[1518500249+rdi1+rdx] add edi,ecx xor eax,esi rol r12d,30 add edi,eax mov r14d,DWORD[20+r9] mov eax,r13d mov DWORD[16+rsp],ebp mov ecx,edi bswap r14d xor eax,r12d rol ecx,5 and eax,r11d lea esi,[1518500249+rsi1+rbp] add esi,ecx xor eax,r13d rol r11d,30 add esi,eax mov edx,DWORD[24+r9] mov eax,r12d mov DWORD[20+rsp],r14d mov ecx,esi bswap edx xor eax,r11d rol ecx,5 and eax,edi lea r13d,[1518500249+r131+r14] add r13d,ecx xor eax,r12d rol edi,30 add r13d,eax mov ebp,DWORD[28+r9] mov eax,r11d mov DWORD[24+rsp],edx mov ecx,r13d bswap ebp xor eax,edi rol ecx,5 and eax,esi lea r12d,[1518500249+r121+rdx] add r12d,ecx xor eax,r11d rol esi,30 add r12d,eax mov r14d,DWORD[32+r9] mov eax,edi mov DWORD[28+rsp],ebp mov ecx,r12d bswap r14d xor eax,esi rol ecx,5 and eax,r13d lea r11d,[1518500249+r111+rbp] add r11d,ecx xor eax,edi rol r13d,30 add r11d,eax mov edx,DWORD[36+r9] mov eax,esi mov DWORD[32+rsp],r14d mov ecx,r11d bswap edx xor eax,r13d rol ecx,5 and eax,r12d lea edi,[1518500249+rdi1+r14] add edi,ecx xor eax,esi rol r12d,30 add edi,eax mov ebp,DWORD[40+r9] mov eax,r13d mov DWORD[36+rsp],edx mov ecx,edi bswap ebp xor eax,r12d rol ecx,5 and eax,r11d lea esi,[1518500249+rsi1+rdx] add esi,ecx xor eax,r13d rol r11d,30 add esi,eax mov r14d,DWORD[44+r9] mov eax,r12d mov DWORD[40+rsp],ebp mov ecx,esi bswap r14d xor eax,r11d rol ecx,5 and eax,edi lea r13d,[1518500249+r131+rbp] add r13d,ecx xor eax,r12d rol edi,30 add r13d,eax mov edx,DWORD[48+r9] mov eax,r11d mov DWORD[44+rsp],r14d mov ecx,r13d bswap edx xor eax,edi rol ecx,5 and eax,esi lea r12d,[1518500249+r121+r14] add r12d,ecx xor eax,r11d rol esi,30 add r12d,eax mov ebp,DWORD[52+r9] mov eax,edi mov DWORD[48+rsp],edx mov ecx,r12d bswap ebp xor eax,esi rol ecx,5 and eax,r13d lea r11d,[1518500249+r111+rdx] add r11d,ecx xor eax,edi rol r13d,30 add r11d,eax mov r14d,DWORD[56+r9] mov eax,esi mov DWORD[52+rsp],ebp mov ecx,r11d bswap r14d xor eax,r13d rol ecx,5 and eax,r12d lea edi,[1518500249+rdi1+rbp] add edi,ecx xor eax,esi rol r12d,30 add edi,eax mov edx,DWORD[60+r9] mov eax,r13d mov DWORD[56+rsp],r14d mov ecx,edi bswap edx xor eax,r12d rol ecx,5 and eax,r11d lea esi,[1518500249+rsi1+r14] add esi,ecx xor eax,r13d rol r11d,30 add esi,eax xor ebp,DWORD[rsp] mov eax,r12d mov DWORD[60+rsp],edx mov ecx,esi xor ebp,DWORD[8+rsp] xor eax,r11d rol ecx,5 xor ebp,DWORD[32+rsp] and eax,edi lea r13d,[1518500249+r131+rdx] rol edi,30 xor eax,r12d add r13d,ecx rol ebp,1 add r13d,eax xor r14d,DWORD[4+rsp] mov eax,r11d mov DWORD[rsp],ebp mov ecx,r13d xor r14d,DWORD[12+rsp] xor eax,edi rol ecx,5 xor r14d,DWORD[36+rsp] and eax,esi lea r12d,[1518500249+r121+rbp] rol esi,30 xor eax,r11d add r12d,ecx rol r14d,1 add r12d,eax xor edx,DWORD[8+rsp] mov eax,edi mov DWORD[4+rsp],r14d mov ecx,r12d xor edx,DWORD[16+rsp] xor eax,esi rol ecx,5 xor edx,DWORD[40+rsp] and eax,r13d lea r11d,[1518500249+r111+r14] rol r13d,30 xor eax,edi add r11d,ecx rol edx,1 add r11d,eax xor ebp,DWORD[12+rsp] mov eax,esi mov DWORD[8+rsp],edx mov ecx,r11d xor ebp,DWORD[20+rsp] xor eax,r13d rol ecx,5 xor ebp,DWORD[44+rsp] and eax,r12d lea edi,[1518500249+rdi1+rdx] rol r12d,30 xor eax,esi add edi,ecx rol ebp,1 add edi,eax xor r14d,DWORD[16+rsp] mov eax,r13d mov DWORD[12+rsp],ebp mov ecx,edi xor r14d,DWORD[24+rsp] xor eax,r12d rol ecx,5 xor r14d,DWORD[48+rsp] and eax,r11d lea esi,[1518500249+rsi1+rbp] rol r11d,30 xor eax,r13d add esi,ecx rol r14d,1 add esi,eax xor edx,DWORD[20+rsp] mov eax,edi mov DWORD[16+rsp],r14d mov ecx,esi xor edx,DWORD[28+rsp] xor eax,r12d rol ecx,5 xor edx,DWORD[52+rsp] lea r13d,[1859775393+r131+r14] xor eax,r11d add r13d,ecx rol edi,30 add r13d,eax rol edx,1 xor ebp,DWORD[24+rsp] mov eax,esi mov DWORD[20+rsp],edx mov ecx,r13d xor ebp,DWORD[32+rsp] xor eax,r11d rol ecx,5 xor ebp,DWORD[56+rsp] lea r12d,[1859775393+r121+rdx] xor eax,edi add r12d,ecx rol esi,30 add r12d,eax rol ebp,1 xor r14d,DWORD[28+rsp] mov eax,r13d mov DWORD[24+rsp],ebp mov ecx,r12d xor r14d,DWORD[36+rsp] xor eax,edi rol ecx,5 xor r14d,DWORD[60+rsp] lea r11d,[1859775393+r111+rbp] xor eax,esi add r11d,ecx rol r13d,30 add r11d,eax rol r14d,1 xor edx,DWORD[32+rsp] mov eax,r12d mov DWORD[28+rsp],r14d mov ecx,r11d xor edx,DWORD[40+rsp] xor eax,esi rol ecx,5 xor edx,DWORD[rsp] lea edi,[1859775393+rdi1+r14] xor eax,r13d add edi,ecx rol r12d,30 add edi,eax rol edx,1 xor ebp,DWORD[36+rsp] mov eax,r11d mov DWORD[32+rsp],edx mov ecx,edi xor ebp,DWORD[44+rsp] xor eax,r13d rol ecx,5 xor ebp,DWORD[4+rsp] lea esi,[1859775393+rsi1+rdx] xor eax,r12d add esi,ecx rol r11d,30 add esi,eax rol ebp,1 xor r14d,DWORD[40+rsp] mov eax,edi mov DWORD[36+rsp],ebp mov ecx,esi xor r14d,DWORD[48+rsp] xor eax,r12d rol ecx,5 xor r14d,DWORD[8+rsp] lea r13d,[1859775393+r131+rbp] xor eax,r11d add r13d,ecx rol edi,30 add r13d,eax rol r14d,1 xor edx,DWORD[44+rsp] mov eax,esi mov DWORD[40+rsp],r14d mov ecx,r13d xor edx,DWORD[52+rsp] xor eax,r11d rol ecx,5 xor edx,DWORD[12+rsp] lea r12d,[1859775393+r121+r14] xor eax,edi add r12d,ecx rol esi,30 add r12d,eax rol edx,1 xor ebp,DWORD[48+rsp] mov eax,r13d mov DWORD[44+rsp],edx mov ecx,r12d xor ebp,DWORD[56+rsp] xor eax,edi rol ecx,5 xor ebp,DWORD[16+rsp] lea r11d,[1859775393+r111+rdx] xor eax,esi add r11d,ecx rol r13d,30 add r11d,eax rol ebp,1 xor r14d,DWORD[52+rsp] mov eax,r12d mov DWORD[48+rsp],ebp mov ecx,r11d xor r14d,DWORD[60+rsp] xor eax,esi rol ecx,5 xor r14d,DWORD[20+rsp] lea edi,[1859775393+rdi1+rbp] xor eax,r13d add edi,ecx rol r12d,30 add edi,eax rol r14d,1 xor edx,DWORD[56+rsp] mov eax,r11d mov DWORD[52+rsp],r14d mov ecx,edi xor edx,DWORD[rsp] xor eax,r13d rol ecx,5 xor edx,DWORD[24+rsp] lea esi,[1859775393+rsi1+r14] xor eax,r12d add esi,ecx rol r11d,30 add esi,eax rol edx,1 xor ebp,DWORD[60+rsp] mov eax,edi mov DWORD[56+rsp],edx mov ecx,esi xor ebp,DWORD[4+rsp] xor eax,r12d rol ecx,5 xor ebp,DWORD[28+rsp] lea r13d,[1859775393+r131+rdx] xor eax,r11d add r13d,ecx rol edi,30 add r13d,eax rol ebp,1 xor r14d,DWORD[rsp] mov eax,esi mov DWORD[60+rsp],ebp mov ecx,r13d xor r14d,DWORD[8+rsp] xor eax,r11d rol ecx,5 xor r14d,DWORD[32+rsp] lea r12d,[1859775393+r121+rbp] xor eax,edi add r12d,ecx rol esi,30 add r12d,eax rol r14d,1 xor edx,DWORD[4+rsp] mov eax,r13d mov DWORD[rsp],r14d mov ecx,r12d xor edx,DWORD[12+rsp] xor eax,edi rol ecx,5 xor edx,DWORD[36+rsp] lea r11d,[1859775393+r111+r14] xor eax,esi add r11d,ecx rol r13d,30 add r11d,eax rol edx,1 xor ebp,DWORD[8+rsp] mov eax,r12d mov DWORD[4+rsp],edx mov ecx,r11d xor ebp,DWORD[16+rsp] xor eax,esi rol ecx,5 xor ebp,DWORD[40+rsp] lea edi,[1859775393+rdi1+rdx] xor eax,r13d add edi,ecx rol r12d,30 add edi,eax rol ebp,1 xor r14d,DWORD[12+rsp] mov eax,r11d mov DWORD[8+rsp],ebp mov ecx,edi xor r14d,DWORD[20+rsp] xor eax,r13d rol ecx,5 xor r14d,DWORD[44+rsp] lea esi,[1859775393+rsi1+rbp] xor eax,r12d add esi,ecx rol r11d,30 add esi,eax rol r14d,1 xor edx,DWORD[16+rsp] mov eax,edi mov DWORD[12+rsp],r14d mov ecx,esi xor edx,DWORD[24+rsp] xor eax,r12d rol ecx,5 xor edx,DWORD[48+rsp] lea r13d,[1859775393+r131+r14] xor eax,r11d add r13d,ecx rol edi,30 add r13d,eax rol edx,1 xor ebp,DWORD[20+rsp] mov eax,esi mov DWORD[16+rsp],edx mov ecx,r13d xor ebp,DWORD[28+rsp] xor eax,r11d rol ecx,5 xor ebp,DWORD[52+rsp] lea r12d,[1859775393+r121+rdx] xor eax,edi add r12d,ecx rol esi,30 add r12d,eax rol ebp,1 xor r14d,DWORD[24+rsp] mov eax,r13d mov DWORD[20+rsp],ebp mov ecx,r12d xor r14d,DWORD[32+rsp] xor eax,edi rol ecx,5 xor r14d,DWORD[56+rsp] lea r11d,[1859775393+r111+rbp] xor eax,esi add r11d,ecx rol r13d,30 add r11d,eax rol r14d,1 xor edx,DWORD[28+rsp] mov eax,r12d mov DWORD[24+rsp],r14d mov ecx,r11d xor edx,DWORD[36+rsp] xor eax,esi rol ecx,5 xor edx,DWORD[60+rsp] lea edi,[1859775393+rdi1+r14] xor eax,r13d add edi,ecx rol r12d,30 add edi,eax rol edx,1 xor ebp,DWORD[32+rsp] mov eax,r11d mov DWORD[28+rsp],edx mov ecx,edi xor ebp,DWORD[40+rsp] xor eax,r13d rol ecx,5 xor ebp,DWORD[rsp] lea esi,[1859775393+rsi1+rdx] xor eax,r12d add esi,ecx rol r11d,30 add esi,eax rol ebp,1 xor r14d,DWORD[36+rsp] mov eax,r12d mov DWORD[32+rsp],ebp mov ebx,r12d xor r14d,DWORD[44+rsp] and eax,r11d mov ecx,esi xor r14d,DWORD[4+rsp] lea r13d,[((-1894007588))+r131+rbp] xor ebx,r11d rol ecx,5 add r13d,eax rol r14d,1 and ebx,edi add r13d,ecx rol edi,30 add r13d,ebx xor edx,DWORD[40+rsp] mov eax,r11d mov DWORD[36+rsp],r14d mov ebx,r11d xor edx,DWORD[48+rsp] and eax,edi mov ecx,r13d xor edx,DWORD[8+rsp] lea r12d,[((-1894007588))+r121+r14] xor ebx,edi rol ecx,5 add r12d,eax rol edx,1 and ebx,esi add r12d,ecx rol esi,30 add r12d,ebx xor ebp,DWORD[44+rsp] mov eax,edi mov DWORD[40+rsp],edx mov ebx,edi xor ebp,DWORD[52+rsp] and eax,esi mov ecx,r12d xor ebp,DWORD[12+rsp] lea r11d,[((-1894007588))+r111+rdx] xor ebx,esi rol ecx,5 add r11d,eax rol ebp,1 and ebx,r13d add r11d,ecx rol r13d,30 add r11d,ebx xor r14d,DWORD[48+rsp] mov eax,esi mov DWORD[44+rsp],ebp mov ebx,esi xor r14d,DWORD[56+rsp] and eax,r13d mov ecx,r11d xor r14d,DWORD[16+rsp] lea edi,[((-1894007588))+rdi1+rbp] xor ebx,r13d rol ecx,5 add edi,eax rol r14d,1 and ebx,r12d add edi,ecx rol r12d,30 add edi,ebx xor edx,DWORD[52+rsp] mov eax,r13d mov DWORD[48+rsp],r14d mov ebx,r13d xor edx,DWORD[60+rsp] and eax,r12d mov ecx,edi xor edx,DWORD[20+rsp] lea esi,[((-1894007588))+rsi1+r14] xor ebx,r12d rol ecx,5 add esi,eax rol edx,1 and ebx,r11d add esi,ecx rol r11d,30 add esi,ebx xor ebp,DWORD[56+rsp] mov eax,r12d mov DWORD[52+rsp],edx mov ebx,r12d xor ebp,DWORD[rsp] and eax,r11d mov ecx,esi xor ebp,DWORD[24+rsp] lea r13d,[((-1894007588))+r131+rdx] xor ebx,r11d rol ecx,5 add r13d,eax rol ebp,1 and ebx,edi add r13d,ecx rol edi,30 add r13d,ebx xor r14d,DWORD[60+rsp] mov eax,r11d mov DWORD[56+rsp],ebp mov ebx,r11d xor r14d,DWORD[4+rsp] and eax,edi mov ecx,r13d xor r14d,DWORD[28+rsp] lea r12d,[((-1894007588))+r121+rbp] xor ebx,edi rol ecx,5 add r12d,eax rol r14d,1 and ebx,esi add r12d,ecx rol esi,30 add r12d,ebx xor edx,DWORD[rsp] mov eax,edi mov DWORD[60+rsp],r14d mov ebx,edi xor edx,DWORD[8+rsp] and eax,esi mov ecx,r12d xor edx,DWORD[32+rsp] lea r11d,[((-1894007588))+r111+r14] xor ebx,esi rol ecx,5 add r11d,eax rol edx,1 and ebx,r13d add r11d,ecx rol r13d,30 add r11d,ebx xor ebp,DWORD[4+rsp] mov eax,esi mov DWORD[rsp],edx mov ebx,esi xor ebp,DWORD[12+rsp] and eax,r13d mov ecx,r11d xor ebp,DWORD[36+rsp] lea edi,[((-1894007588))+rdi1+rdx] xor ebx,r13d rol ecx,5 add edi,eax rol ebp,1 and ebx,r12d add edi,ecx rol r12d,30 add edi,ebx xor r14d,DWORD[8+rsp] mov eax,r13d mov DWORD[4+rsp],ebp mov ebx,r13d xor r14d,DWORD[16+rsp] and eax,r12d mov ecx,edi xor r14d,DWORD[40+rsp] lea esi,[((-1894007588))+rsi1+rbp] xor ebx,r12d rol ecx,5 add esi,eax rol r14d,1 and ebx,r11d add esi,ecx rol r11d,30 add esi,ebx xor edx,DWORD[12+rsp] mov eax,r12d mov DWORD[8+rsp],r14d mov ebx,r12d xor edx,DWORD[20+rsp] and eax,r11d mov ecx,esi xor edx,DWORD[44+rsp] lea r13d,[((-1894007588))+r131+r14] xor ebx,r11d rol ecx,5 add r13d,eax rol edx,1 and ebx,edi add r13d,ecx rol edi,30 add r13d,ebx xor ebp,DWORD[16+rsp] mov eax,r11d mov DWORD[12+rsp],edx mov ebx,r11d xor ebp,DWORD[24+rsp] and eax,edi mov ecx,r13d xor ebp,DWORD[48+rsp] lea r12d,[((-1894007588))+r121+rdx] xor ebx,edi rol ecx,5 add r12d,eax rol ebp,1 and ebx,esi add r12d,ecx rol esi,30 add r12d,ebx xor r14d,DWORD[20+rsp] mov eax,edi mov DWORD[16+rsp],ebp mov ebx,edi xor r14d,DWORD[28+rsp] and eax,esi mov ecx,r12d xor r14d,DWORD[52+rsp] lea r11d,[((-1894007588))+r111+rbp] xor ebx,esi rol ecx,5 add r11d,eax rol r14d,1 and ebx,r13d add r11d,ecx rol r13d,30 add r11d,ebx xor edx,DWORD[24+rsp] mov eax,esi mov DWORD[20+rsp],r14d mov ebx,esi xor edx,DWORD[32+rsp] and eax,r13d mov ecx,r11d xor edx,DWORD[56+rsp] lea edi,[((-1894007588))+rdi1+r14] xor ebx,r13d rol ecx,5 add edi,eax rol edx,1 and ebx,r12d add edi,ecx rol r12d,30 add edi,ebx xor ebp,DWORD[28+rsp] mov eax,r13d mov DWORD[24+rsp],edx mov ebx,r13d xor ebp,DWORD[36+rsp] and eax,r12d mov ecx,edi xor ebp,DWORD[60+rsp] lea esi,[((-1894007588))+rsi1+rdx] xor ebx,r12d rol ecx,5 add esi,eax rol ebp,1 and ebx,r11d add esi,ecx rol r11d,30 add esi,ebx xor r14d,DWORD[32+rsp] mov eax,r12d mov DWORD[28+rsp],ebp mov ebx,r12d xor r14d,DWORD[40+rsp] and eax,r11d mov ecx,esi xor r14d,DWORD[rsp] lea r13d,[((-1894007588))+r131+rbp] xor ebx,r11d rol ecx,5 add r13d,eax rol r14d,1 and ebx,edi add r13d,ecx rol edi,30 add r13d,ebx xor edx,DWORD[36+rsp] mov eax,r11d mov DWORD[32+rsp],r14d mov ebx,r11d xor edx,DWORD[44+rsp] and eax,edi mov ecx,r13d xor edx,DWORD[4+rsp] lea r12d,[((-1894007588))+r121+r14] xor ebx,edi rol ecx,5 add r12d,eax rol edx,1 and ebx,esi add r12d,ecx rol esi,30 add r12d,ebx xor ebp,DWORD[40+rsp] mov eax,edi mov DWORD[36+rsp],edx mov ebx,edi xor ebp,DWORD[48+rsp] and eax,esi mov ecx,r12d xor ebp,DWORD[8+rsp] lea r11d,[((-1894007588))+r111+rdx] xor ebx,esi rol ecx,5 add r11d,eax rol ebp,1 and ebx,r13d add r11d,ecx rol r13d,30 add r11d,ebx xor r14d,DWORD[44+rsp] mov eax,esi mov DWORD[40+rsp],ebp mov ebx,esi xor r14d,DWORD[52+rsp] and eax,r13d mov ecx,r11d xor r14d,DWORD[12+rsp] lea edi,[((-1894007588))+rdi1+rbp] xor ebx,r13d rol ecx,5 add edi,eax rol r14d,1 and ebx,r12d add edi,ecx rol r12d,30 add edi,ebx xor edx,DWORD[48+rsp] mov eax,r13d mov DWORD[44+rsp],r14d mov ebx,r13d xor edx,DWORD[56+rsp] and eax,r12d mov ecx,edi xor edx,DWORD[16+rsp] lea esi,[((-1894007588))+rsi1+r14] xor ebx,r12d rol ecx,5 add esi,eax rol edx,1 and ebx,r11d add esi,ecx rol r11d,30 add esi,ebx xor ebp,DWORD[52+rsp] mov eax,edi mov DWORD[48+rsp],edx mov ecx,esi xor ebp,DWORD[60+rsp] xor eax,r12d rol ecx,5 xor ebp,DWORD[20+rsp] lea r13d,[((-899497514))+r131+rdx] xor eax,r11d add r13d,ecx rol edi,30 add r13d,eax rol ebp,1 xor r14d,DWORD[56+rsp] mov eax,esi mov DWORD[52+rsp],ebp mov ecx,r13d xor r14d,DWORD[rsp] xor eax,r11d rol ecx,5 xor r14d,DWORD[24+rsp] lea r12d,[((-899497514))+r121+rbp] xor eax,edi add r12d,ecx rol esi,30 add r12d,eax rol r14d,1 xor edx,DWORD[60+rsp] mov eax,r13d mov DWORD[56+rsp],r14d mov ecx,r12d xor edx,DWORD[4+rsp] xor eax,edi rol ecx,5 xor edx,DWORD[28+rsp] lea r11d,[((-899497514))+r111+r14] xor eax,esi add r11d,ecx rol r13d,30 add r11d,eax rol edx,1 xor ebp,DWORD[rsp] mov eax,r12d mov DWORD[60+rsp],edx mov ecx,r11d xor ebp,DWORD[8+rsp] xor eax,esi rol ecx,5 xor ebp,DWORD[32+rsp] lea edi,[((-899497514))+rdi1+rdx] xor eax,r13d add edi,ecx rol r12d,30 add edi,eax rol ebp,1 xor r14d,DWORD[4+rsp] mov eax,r11d mov DWORD[rsp],ebp mov ecx,edi xor r14d,DWORD[12+rsp] xor eax,r13d rol ecx,5 xor r14d,DWORD[36+rsp] lea esi,[((-899497514))+rsi1+rbp] xor eax,r12d add esi,ecx rol r11d,30 add esi,eax rol r14d,1 xor edx,DWORD[8+rsp] mov eax,edi mov DWORD[4+rsp],r14d mov ecx,esi xor edx,DWORD[16+rsp] xor eax,r12d rol ecx,5 xor edx,DWORD[40+rsp] lea r13d,[((-899497514))+r131+r14] xor eax,r11d add r13d,ecx rol edi,30 add r13d,eax rol edx,1 xor ebp,DWORD[12+rsp] mov eax,esi mov DWORD[8+rsp],edx mov ecx,r13d xor ebp,DWORD[20+rsp] xor eax,r11d rol ecx,5 xor ebp,DWORD[44+rsp] lea r12d,[((-899497514))+r121+rdx] xor eax,edi add r12d,ecx rol esi,30 add r12d,eax rol ebp,1 xor r14d,DWORD[16+rsp] mov eax,r13d mov DWORD[12+rsp],ebp mov ecx,r12d xor r14d,DWORD[24+rsp] xor eax,edi rol ecx,5 xor r14d,DWORD[48+rsp] lea r11d,[((-899497514))+r111+rbp] xor eax,esi add r11d,ecx rol r13d,30 add r11d,eax rol r14d,1 xor edx,DWORD[20+rsp] mov eax,r12d mov DWORD[16+rsp],r14d mov ecx,r11d xor edx,DWORD[28+rsp] xor eax,esi rol ecx,5 xor edx,DWORD[52+rsp] lea edi,[((-899497514))+rdi1+r14] xor eax,r13d add edi,ecx rol r12d,30 add edi,eax rol edx,1 xor ebp,DWORD[24+rsp] mov eax,r11d mov DWORD[20+rsp],edx mov ecx,edi xor ebp,DWORD[32+rsp] xor eax,r13d rol ecx,5 xor ebp,DWORD[56+rsp] lea esi,[((-899497514))+rsi1+rdx] xor eax,r12d add esi,ecx rol r11d,30 add esi,eax rol ebp,1 xor r14d,DWORD[28+rsp] mov eax,edi mov DWORD[24+rsp],ebp mov ecx,esi xor r14d,DWORD[36+rsp] xor eax,r12d rol ecx,5 xor r14d,DWORD[60+rsp] lea r13d,[((-899497514))+r131+rbp] xor eax,r11d add r13d,ecx rol edi,30 add r13d,eax rol r14d,1 xor edx,DWORD[32+rsp] mov eax,esi mov DWORD[28+rsp],r14d mov ecx,r13d xor edx,DWORD[40+rsp] xor eax,r11d rol ecx,5 xor edx,DWORD[rsp] lea r12d,[((-899497514))+r121+r14] xor eax,edi add r12d,ecx rol esi,30 add r12d,eax rol edx,1 xor ebp,DWORD[36+rsp] mov eax,r13d mov ecx,r12d xor ebp,DWORD[44+rsp] xor eax,edi rol ecx,5 xor ebp,DWORD[4+rsp] lea r11d,[((-899497514))+r111+rdx] xor eax,esi add r11d,ecx rol r13d,30 add r11d,eax rol ebp,1 xor r14d,DWORD[40+rsp] mov eax,r12d mov ecx,r11d xor r14d,DWORD[48+rsp] xor eax,esi rol ecx,5 xor r14d,DWORD[8+rsp] lea edi,[((-899497514))+rdi1+rbp] xor eax,r13d add edi,ecx rol r12d,30 add edi,eax rol r14d,1 xor edx,DWORD[44+rsp] mov eax,r11d mov ecx,edi xor edx,DWORD[52+rsp] xor eax,r13d rol ecx,5 xor edx,DWORD[12+rsp] lea esi,[((-899497514))+rsi1+r14] xor eax,r12d add esi,ecx rol r11d,30 add esi,eax rol edx,1 xor ebp,DWORD[48+rsp] mov eax,edi mov ecx,esi xor ebp,DWORD[56+rsp] xor eax,r12d rol ecx,5 xor ebp,DWORD[16+rsp] lea r13d,[((-899497514))+r131+rdx] xor eax,r11d add r13d,ecx rol edi,30 add r13d,eax rol ebp,1 xor r14d,DWORD[52+rsp] mov eax,esi mov ecx,r13d xor r14d,DWORD[60+rsp] xor eax,r11d rol ecx,5 xor r14d,DWORD[20+rsp] lea r12d,[((-899497514))+r121+rbp] xor eax,edi add r12d,ecx rol esi,30 add r12d,eax rol r14d,1 xor edx,DWORD[56+rsp] mov eax,r13d mov ecx,r12d xor edx,DWORD[rsp] xor eax,edi rol ecx,5 xor edx,DWORD[24+rsp] lea r11d,[((-899497514))+r111+r14] xor eax,esi add r11d,ecx rol r13d,30 add r11d,eax rol edx,1 xor ebp,DWORD[60+rsp] mov eax,r12d mov ecx,r11d xor ebp,DWORD[4+rsp] xor eax,esi rol ecx,5 xor ebp,DWORD[28+rsp] lea edi,[((-899497514))+rdi1+rdx] xor eax,r13d add edi,ecx rol r12d,30 add edi,eax rol ebp,1 mov eax,r11d mov ecx,edi xor eax,r13d lea esi,[((-899497514))+rsi1+rbp] rol ecx,5 xor eax,r12d add esi,ecx rol r11d,30 add esi,eax add esi,DWORD[r8] add edi,DWORD[4+r8] add r11d,DWORD[8+r8] add r12d,DWORD[12+r8] add r13d,DWORD[16+r8] mov DWORD[r8],esi mov DWORD[4+r8],edi mov DWORD[8+r8],r11d mov DWORD[12+r8],r12d mov DWORD[16+r8],r13d sub r10,1 lea r9,[64+r9] jnz NEAR $L$loop mov rsi,QWORD[64+rsp] mov r14,QWORD[((-40))+rsi] mov r13,QWORD[((-32))+rsi] mov r12,QWORD[((-24))+rsi] mov rbp,QWORD[((-16))+rsi] mov rbx,QWORD[((-8))+rsi] lea rsp,[rsi] $L$epilogue: mov rdi,QWORD[8+rsp] ;WIN64 epilogue mov rsi,QWORD[16+rsp] ret $L$SEH_end_sha1_block_data_order_nohw: global sha1_block_data_order_hw ALIGN 32 sha1_block_data_order_hw: mov QWORD[8+rsp],rdi ;WIN64 prologue mov QWORD[16+rsp],rsi mov rax,rsp $L$SEH_begin_sha1_block_data_order_hw: mov rdi,rcx mov rsi,rdx mov rdx,r8 _CET_ENDBR lea rsp,[((-72))+rsp] movaps XMMWORD[(-8-64)+rax],xmm6 movaps XMMWORD[(-8-48)+rax],xmm7 movaps XMMWORD[(-8-32)+rax],xmm8 movaps XMMWORD[(-8-16)+rax],xmm9 $L$prologue_shaext: movdqu xmm0,XMMWORD[rdi] movd xmm1,DWORD[16+rdi] movdqa xmm3,XMMWORD[((K_XX_XX+160))] movdqu xmm4,XMMWORD[rsi] pshufd xmm0,xmm0,27 movdqu xmm5,XMMWORD[16+rsi] pshufd xmm1,xmm1,27 movdqu xmm6,XMMWORD[32+rsi] DB 102,15,56,0,227 movdqu xmm7,XMMWORD[48+rsi] DB 102,15,56,0,235 DB 102,15,56,0,243 movdqa xmm9,xmm1 DB 102,15,56,0,251 jmp NEAR $L$oop_shaext ALIGN 16 $L$oop_shaext: dec rdx lea r8,[64+rsi] paddd xmm1,xmm4 cmovne rsi,r8 prefetcht0 [512+rsi] movdqa xmm8,xmm0 DB 15,56,201,229 movdqa xmm2,xmm0 DB 15,58,204,193,0 DB 15,56,200,213 pxor xmm4,xmm6 DB 15,56,201,238 DB 15,56,202,231 movdqa xmm1,xmm0 DB 15,58,204,194,0 DB 15,56,200,206 pxor xmm5,xmm7 DB 15,56,202,236 DB 15,56,201,247 movdqa xmm2,xmm0 DB 15,58,204,193,0 DB 15,56,200,215 pxor xmm6,xmm4 DB 15,56,201,252 DB 15,56,202,245 movdqa xmm1,xmm0 DB 15,58,204,194,0 DB 15,56,200,204 pxor xmm7,xmm5 DB 15,56,202,254 DB 15,56,201,229 movdqa xmm2,xmm0 DB 15,58,204,193,0 DB 15,56,200,213 pxor xmm4,xmm6 DB 15,56,201,238 DB 15,56,202,231 movdqa xmm1,xmm0 DB 15,58,204,194,1 DB 15,56,200,206 pxor xmm5,xmm7 DB 15,56,202,236 DB 15,56,201,247 movdqa xmm2,xmm0 DB 15,58,204,193,1 DB 15,56,200,215 pxor xmm6,xmm4 DB 15,56,201,252 DB 15,56,202,245 movdqa xmm1,xmm0 DB 15,58,204,194,1 DB 15,56,200,204 pxor xmm7,xmm5 DB 15,56,202,254 DB 15,56,201,229 movdqa xmm2,xmm0 DB 15,58,204,193,1 DB 15,56,200,213 pxor xmm4,xmm6 DB 15,56,201,238 DB 15,56,202,231 movdqa xmm1,xmm0 DB 15,58,204,194,1 DB 15,56,200,206 pxor xmm5,xmm7 DB 15,56,202,236 DB 15,56,201,247 movdqa xmm2,xmm0 DB 15,58,204,193,2 DB 15,56,200,215 pxor xmm6,xmm4 DB 15,56,201,252 DB 15,56,202,245 movdqa xmm1,xmm0 DB 15,58,204,194,2 DB 15,56,200,204 pxor xmm7,xmm5 DB 15,56,202,254 DB 15,56,201,229 movdqa xmm2,xmm0 DB 15,58,204,193,2 DB 15,56,200,213 pxor xmm4,xmm6 DB 15,56,201,238 DB 15,56,202,231 movdqa xmm1,xmm0 DB 15,58,204,194,2 DB 15,56,200,206 pxor xmm5,xmm7 DB 15,56,202,236 DB 15,56,201,247 movdqa xmm2,xmm0 DB 15,58,204,193,2 DB 15,56,200,215 pxor xmm6,xmm4 DB 15,56,201,252 DB 15,56,202,245 movdqa xmm1,xmm0 DB 15,58,204,194,3 DB 15,56,200,204 pxor xmm7,xmm5 DB 15,56,202,254 movdqu xmm4,XMMWORD[rsi] movdqa xmm2,xmm0 DB 15,58,204,193,3 DB 15,56,200,213 movdqu xmm5,XMMWORD[16+rsi] DB 102,15,56,0,227 movdqa xmm1,xmm0 DB 15,58,204,194,3 DB 15,56,200,206 movdqu xmm6,XMMWORD[32+rsi] DB 102,15,56,0,235 movdqa xmm2,xmm0 DB 15,58,204,193,3 DB 15,56,200,215 movdqu xmm7,XMMWORD[48+rsi] DB 102,15,56,0,243 movdqa xmm1,xmm0 DB 15,58,204,194,3 DB 65,15,56,200,201 DB 102,15,56,0,251 paddd xmm0,xmm8 movdqa xmm9,xmm1 jnz NEAR $L$oop_shaext pshufd xmm0,xmm0,27 pshufd xmm1,xmm1,27 movdqu XMMWORD[rdi],xmm0 movd DWORD[16+rdi],xmm1 movaps xmm6,XMMWORD[((-8-64))+rax] movaps xmm7,XMMWORD[((-8-48))+rax] movaps xmm8,XMMWORD[((-8-32))+rax] movaps xmm9,XMMWORD[((-8-16))+rax] mov rsp,rax $L$epilogue_shaext: mov rdi,QWORD[8+rsp] ;WIN64 epilogue mov rsi,QWORD[16+rsp] ret $L$SEH_end_sha1_block_data_order_hw: global sha1_block_data_order_ssse3 ALIGN 16 sha1_block_data_order_ssse3: mov QWORD[8+rsp],rdi ;WIN64 prologue mov QWORD[16+rsp],rsi mov rax,rsp $L$SEH_begin_sha1_block_data_order_ssse3: mov rdi,rcx mov rsi,rdx mov rdx,r8 _CET_ENDBR mov r11,rsp push rbx push rbp push r12 push r13 push r14 lea rsp,[((-160))+rsp] movaps XMMWORD[(-40-96)+r11],xmm6 movaps XMMWORD[(-40-80)+r11],xmm7 movaps XMMWORD[(-40-64)+r11],xmm8 movaps XMMWORD[(-40-48)+r11],xmm9 movaps XMMWORD[(-40-32)+r11],xmm10 movaps XMMWORD[(-40-16)+r11],xmm11 $L$prologue_ssse3: and rsp,-64 mov r8,rdi mov r9,rsi mov r10,rdx shl r10,6 add r10,r9 lea r14,[((K_XX_XX+64))] mov eax,DWORD[r8] mov ebx,DWORD[4+r8] mov ecx,DWORD[8+r8] mov edx,DWORD[12+r8] mov esi,ebx mov ebp,DWORD[16+r8] mov edi,ecx xor edi,edx and esi,edi movdqa xmm6,XMMWORD[64+r14] movdqa xmm9,XMMWORD[((-64))+r14] movdqu xmm0,XMMWORD[r9] movdqu xmm1,XMMWORD[16+r9] movdqu xmm2,XMMWORD[32+r9] movdqu xmm3,XMMWORD[48+r9] DB 102,15,56,0,198 DB 102,15,56,0,206 DB 102,15,56,0,214 add r9,64 paddd xmm0,xmm9 DB 102,15,56,0,222 paddd xmm1,xmm9 paddd xmm2,xmm9 movdqa XMMWORD[rsp],xmm0 psubd xmm0,xmm9 movdqa XMMWORD[16+rsp],xmm1 psubd xmm1,xmm9 movdqa XMMWORD[32+rsp],xmm2 psubd xmm2,xmm9 jmp NEAR $L$oop_ssse3 ALIGN 16 $L$oop_ssse3: ror ebx,2 pshufd xmm4,xmm0,238 xor esi,edx movdqa xmm8,xmm3 paddd xmm9,xmm3 mov edi,eax add ebp,DWORD[rsp] punpcklqdq xmm4,xmm1 xor ebx,ecx rol eax,5 add ebp,esi psrldq xmm8,4 and edi,ebx xor ebx,ecx pxor xmm4,xmm0 add ebp,eax ror eax,7 pxor xmm8,xmm2 xor edi,ecx mov esi,ebp add edx,DWORD[4+rsp] pxor xmm4,xmm8 xor eax,ebx rol ebp,5 movdqa XMMWORD[48+rsp],xmm9 add edx,edi and esi,eax movdqa xmm10,xmm4 xor eax,ebx add edx,ebp ror ebp,7 movdqa xmm8,xmm4 xor esi,ebx pslldq xmm10,12 paddd xmm4,xmm4 mov edi,edx add ecx,DWORD[8+rsp] psrld xmm8,31 xor ebp,eax rol edx,5 add ecx,esi movdqa xmm9,xmm10 and edi,ebp xor ebp,eax psrld xmm10,30 add ecx,edx ror edx,7 por xmm4,xmm8 xor edi,eax mov esi,ecx add ebx,DWORD[12+rsp] pslld xmm9,2 pxor xmm4,xmm10 xor edx,ebp movdqa xmm10,XMMWORD[((-64))+r14] rol ecx,5 add ebx,edi and esi,edx pxor xmm4,xmm9 xor edx,ebp add ebx,ecx ror ecx,7 pshufd xmm5,xmm1,238 xor esi,ebp movdqa xmm9,xmm4 paddd xmm10,xmm4 mov edi,ebx add eax,DWORD[16+rsp] punpcklqdq xmm5,xmm2 xor ecx,edx rol ebx,5 add eax,esi psrldq xmm9,4 and edi,ecx xor ecx,edx pxor xmm5,xmm1 add eax,ebx ror ebx,7 pxor xmm9,xmm3 xor edi,edx mov esi,eax add ebp,DWORD[20+rsp] pxor xmm5,xmm9 xor ebx,ecx rol eax,5 movdqa XMMWORD[rsp],xmm10 add ebp,edi and esi,ebx movdqa xmm8,xmm5 xor ebx,ecx add ebp,eax ror eax,7 movdqa xmm9,xmm5 xor esi,ecx pslldq xmm8,12 paddd xmm5,xmm5 mov edi,ebp add edx,DWORD[24+rsp] psrld xmm9,31 xor eax,ebx rol ebp,5 add edx,esi movdqa xmm10,xmm8 and edi,eax xor eax,ebx psrld xmm8,30 add edx,ebp ror ebp,7 por xmm5,xmm9 xor edi,ebx mov esi,edx add ecx,DWORD[28+rsp] pslld xmm10,2 pxor xmm5,xmm8 xor ebp,eax movdqa xmm8,XMMWORD[((-32))+r14] rol edx,5 add ecx,edi and esi,ebp pxor xmm5,xmm10 xor ebp,eax add ecx,edx ror edx,7 pshufd xmm6,xmm2,238 xor esi,eax movdqa xmm10,xmm5 paddd xmm8,xmm5 mov edi,ecx add ebx,DWORD[32+rsp] punpcklqdq xmm6,xmm3 xor edx,ebp rol ecx,5 add ebx,esi psrldq xmm10,4 and edi,edx xor edx,ebp pxor xmm6,xmm2 add ebx,ecx ror ecx,7 pxor xmm10,xmm4 xor edi,ebp mov esi,ebx add eax,DWORD[36+rsp] pxor xmm6,xmm10 xor ecx,edx rol ebx,5 movdqa XMMWORD[16+rsp],xmm8 add eax,edi and esi,ecx movdqa xmm9,xmm6 xor ecx,edx add eax,ebx ror ebx,7 movdqa xmm10,xmm6 xor esi,edx pslldq xmm9,12 paddd xmm6,xmm6 mov edi,eax add ebp,DWORD[40+rsp] psrld xmm10,31 xor ebx,ecx rol eax,5 add ebp,esi movdqa xmm8,xmm9 and edi,ebx xor ebx,ecx psrld xmm9,30 add ebp,eax ror eax,7 por xmm6,xmm10 xor edi,ecx mov esi,ebp add edx,DWORD[44+rsp] pslld xmm8,2 pxor xmm6,xmm9 xor eax,ebx movdqa xmm9,XMMWORD[((-32))+r14] rol ebp,5 add edx,edi and esi,eax pxor xmm6,xmm8 xor eax,ebx add edx,ebp ror ebp,7 pshufd xmm7,xmm3,238 xor esi,ebx movdqa xmm8,xmm6 paddd xmm9,xmm6 mov edi,edx add ecx,DWORD[48+rsp] punpcklqdq xmm7,xmm4 xor ebp,eax rol edx,5 add ecx,esi psrldq xmm8,4 and edi,ebp xor ebp,eax pxor xmm7,xmm3 add ecx,edx ror edx,7 pxor xmm8,xmm5 xor edi,eax mov esi,ecx add ebx,DWORD[52+rsp] pxor xmm7,xmm8 xor edx,ebp rol ecx,5 movdqa XMMWORD[32+rsp],xmm9 add ebx,edi and esi,edx movdqa xmm10,xmm7 xor edx,ebp add ebx,ecx ror ecx,7 movdqa xmm8,xmm7 xor esi,ebp pslldq xmm10,12 paddd xmm7,xmm7 mov edi,ebx add eax,DWORD[56+rsp] psrld xmm8,31 xor ecx,edx rol ebx,5 add eax,esi movdqa xmm9,xmm10 and edi,ecx xor ecx,edx psrld xmm10,30 add eax,ebx ror ebx,7 por xmm7,xmm8 xor edi,edx mov esi,eax add ebp,DWORD[60+rsp] pslld xmm9,2 pxor xmm7,xmm10 xor ebx,ecx movdqa xmm10,XMMWORD[((-32))+r14] rol eax,5 add ebp,edi and esi,ebx pxor xmm7,xmm9 pshufd xmm9,xmm6,238 xor ebx,ecx add ebp,eax ror eax,7 pxor xmm0,xmm4 xor esi,ecx mov edi,ebp add edx,DWORD[rsp] punpcklqdq xmm9,xmm7 xor eax,ebx rol ebp,5 pxor xmm0,xmm1 add edx,esi and edi,eax movdqa xmm8,xmm10 xor eax,ebx paddd xmm10,xmm7 add edx,ebp pxor xmm0,xmm9 ror ebp,7 xor edi,ebx mov esi,edx add ecx,DWORD[4+rsp] movdqa xmm9,xmm0 xor ebp,eax rol edx,5 movdqa XMMWORD[48+rsp],xmm10 add ecx,edi and esi,ebp xor ebp,eax pslld xmm0,2 add ecx,edx ror edx,7 psrld xmm9,30 xor esi,eax mov edi,ecx add ebx,DWORD[8+rsp] por xmm0,xmm9 xor edx,ebp rol ecx,5 pshufd xmm10,xmm7,238 add ebx,esi and edi,edx xor edx,ebp add ebx,ecx add eax,DWORD[12+rsp] xor edi,ebp mov esi,ebx rol ebx,5 add eax,edi xor esi,edx ror ecx,7 add eax,ebx pxor xmm1,xmm5 add ebp,DWORD[16+rsp] xor esi,ecx punpcklqdq xmm10,xmm0 mov edi,eax rol eax,5 pxor xmm1,xmm2 add ebp,esi xor edi,ecx movdqa xmm9,xmm8 ror ebx,7 paddd xmm8,xmm0 add ebp,eax pxor xmm1,xmm10 add edx,DWORD[20+rsp] xor edi,ebx mov esi,ebp rol ebp,5 movdqa xmm10,xmm1 add edx,edi xor esi,ebx movdqa XMMWORD[rsp],xmm8 ror eax,7 add edx,ebp add ecx,DWORD[24+rsp] pslld xmm1,2 xor esi,eax mov edi,edx psrld xmm10,30 rol edx,5 add ecx,esi xor edi,eax ror ebp,7 por xmm1,xmm10 add ecx,edx add ebx,DWORD[28+rsp] pshufd xmm8,xmm0,238 xor edi,ebp mov esi,ecx rol ecx,5 add ebx,edi xor esi,ebp ror edx,7 add ebx,ecx pxor xmm2,xmm6 add eax,DWORD[32+rsp] xor esi,edx punpcklqdq xmm8,xmm1 mov edi,ebx rol ebx,5 pxor xmm2,xmm3 add eax,esi xor edi,edx movdqa xmm10,XMMWORD[r14] ror ecx,7 paddd xmm9,xmm1 add eax,ebx pxor xmm2,xmm8 add ebp,DWORD[36+rsp] xor edi,ecx mov esi,eax rol eax,5 movdqa xmm8,xmm2 add ebp,edi xor esi,ecx movdqa XMMWORD[16+rsp],xmm9 ror ebx,7 add ebp,eax add edx,DWORD[40+rsp] pslld xmm2,2 xor esi,ebx mov edi,ebp psrld xmm8,30 rol ebp,5 add edx,esi xor edi,ebx ror eax,7 por xmm2,xmm8 add edx,ebp add ecx,DWORD[44+rsp] pshufd xmm9,xmm1,238 xor edi,eax mov esi,edx rol edx,5 add ecx,edi xor esi,eax ror ebp,7 add ecx,edx pxor xmm3,xmm7 add ebx,DWORD[48+rsp] xor esi,ebp punpcklqdq xmm9,xmm2 mov edi,ecx rol ecx,5 pxor xmm3,xmm4 add ebx,esi xor edi,ebp movdqa xmm8,xmm10 ror edx,7 paddd xmm10,xmm2 add ebx,ecx pxor xmm3,xmm9 add eax,DWORD[52+rsp] xor edi,edx mov esi,ebx rol ebx,5 movdqa xmm9,xmm3 add eax,edi xor esi,edx movdqa XMMWORD[32+rsp],xmm10 ror ecx,7 add eax,ebx add ebp,DWORD[56+rsp] pslld xmm3,2 xor esi,ecx mov edi,eax psrld xmm9,30 rol eax,5 add ebp,esi xor edi,ecx ror ebx,7 por xmm3,xmm9 add ebp,eax add edx,DWORD[60+rsp] pshufd xmm10,xmm2,238 xor edi,ebx mov esi,ebp rol ebp,5 add edx,edi xor esi,ebx ror eax,7 add edx,ebp pxor xmm4,xmm0 add ecx,DWORD[rsp] xor esi,eax punpcklqdq xmm10,xmm3 mov edi,edx rol edx,5 pxor xmm4,xmm5 add ecx,esi xor edi,eax movdqa xmm9,xmm8 ror ebp,7 paddd xmm8,xmm3 add ecx,edx pxor xmm4,xmm10 add ebx,DWORD[4+rsp] xor edi,ebp mov esi,ecx rol ecx,5 movdqa xmm10,xmm4 add ebx,edi xor esi,ebp movdqa XMMWORD[48+rsp],xmm8 ror edx,7 add ebx,ecx add eax,DWORD[8+rsp] pslld xmm4,2 xor esi,edx mov edi,ebx psrld xmm10,30 rol ebx,5 add eax,esi xor edi,edx ror ecx,7 por xmm4,xmm10 add eax,ebx add ebp,DWORD[12+rsp] pshufd xmm8,xmm3,238 xor edi,ecx mov esi,eax rol eax,5 add ebp,edi xor esi,ecx ror ebx,7 add ebp,eax pxor xmm5,xmm1 add edx,DWORD[16+rsp] xor esi,ebx punpcklqdq xmm8,xmm4 mov edi,ebp rol ebp,5 pxor xmm5,xmm6 add edx,esi xor edi,ebx movdqa xmm10,xmm9 ror eax,7 paddd xmm9,xmm4 add edx,ebp pxor xmm5,xmm8 add ecx,DWORD[20+rsp] xor edi,eax mov esi,edx rol edx,5 movdqa xmm8,xmm5 add ecx,edi xor esi,eax movdqa XMMWORD[rsp],xmm9 ror ebp,7 add ecx,edx add ebx,DWORD[24+rsp] pslld xmm5,2 xor esi,ebp mov edi,ecx psrld xmm8,30 rol ecx,5 add ebx,esi xor edi,ebp ror edx,7 por xmm5,xmm8 add ebx,ecx add eax,DWORD[28+rsp] pshufd xmm9,xmm4,238 ror ecx,7 mov esi,ebx xor edi,edx rol ebx,5 add eax,edi xor esi,ecx xor ecx,edx add eax,ebx pxor xmm6,xmm2 add ebp,DWORD[32+rsp] and esi,ecx xor ecx,edx ror ebx,7 punpcklqdq xmm9,xmm5 mov edi,eax xor esi,ecx pxor xmm6,xmm7 rol eax,5 add ebp,esi movdqa xmm8,xmm10 xor edi,ebx paddd xmm10,xmm5 xor ebx,ecx pxor xmm6,xmm9 add ebp,eax add edx,DWORD[36+rsp] and edi,ebx xor ebx,ecx ror eax,7 movdqa xmm9,xmm6 mov esi,ebp xor edi,ebx movdqa XMMWORD[16+rsp],xmm10 rol ebp,5 add edx,edi xor esi,eax pslld xmm6,2 xor eax,ebx add edx,ebp psrld xmm9,30 add ecx,DWORD[40+rsp] and esi,eax xor eax,ebx por xmm6,xmm9 ror ebp,7 mov edi,edx xor esi,eax rol edx,5 pshufd xmm10,xmm5,238 add ecx,esi xor edi,ebp xor ebp,eax add ecx,edx add ebx,DWORD[44+rsp] and edi,ebp xor ebp,eax ror edx,7 mov esi,ecx xor edi,ebp rol ecx,5 add ebx,edi xor esi,edx xor edx,ebp add ebx,ecx pxor xmm7,xmm3 add eax,DWORD[48+rsp] and esi,edx xor edx,ebp ror ecx,7 punpcklqdq xmm10,xmm6 mov edi,ebx xor esi,edx pxor xmm7,xmm0 rol ebx,5 add eax,esi movdqa xmm9,XMMWORD[32+r14] xor edi,ecx paddd xmm8,xmm6 xor ecx,edx pxor xmm7,xmm10 add eax,ebx add ebp,DWORD[52+rsp] and edi,ecx xor ecx,edx ror ebx,7 movdqa xmm10,xmm7 mov esi,eax xor edi,ecx movdqa XMMWORD[32+rsp],xmm8 rol eax,5 add ebp,edi xor esi,ebx pslld xmm7,2 xor ebx,ecx add ebp,eax psrld xmm10,30 add edx,DWORD[56+rsp] and esi,ebx xor ebx,ecx por xmm7,xmm10 ror eax,7 mov edi,ebp xor esi,ebx rol ebp,5 pshufd xmm8,xmm6,238 add edx,esi xor edi,eax xor eax,ebx add edx,ebp add ecx,DWORD[60+rsp] and edi,eax xor eax,ebx ror ebp,7 mov esi,edx xor edi,eax rol edx,5 add ecx,edi xor esi,ebp xor ebp,eax add ecx,edx pxor xmm0,xmm4 add ebx,DWORD[rsp] and esi,ebp xor ebp,eax ror edx,7 punpcklqdq xmm8,xmm7 mov edi,ecx xor esi,ebp pxor xmm0,xmm1 rol ecx,5 add ebx,esi movdqa xmm10,xmm9 xor edi,edx paddd xmm9,xmm7 xor edx,ebp pxor xmm0,xmm8 add ebx,ecx add eax,DWORD[4+rsp] and edi,edx xor edx,ebp ror ecx,7 movdqa xmm8,xmm0 mov esi,ebx xor edi,edx movdqa XMMWORD[48+rsp],xmm9 rol ebx,5 add eax,edi xor esi,ecx pslld xmm0,2 xor ecx,edx add eax,ebx psrld xmm8,30 add ebp,DWORD[8+rsp] and esi,ecx xor ecx,edx por xmm0,xmm8 ror ebx,7 mov edi,eax xor esi,ecx rol eax,5 pshufd xmm9,xmm7,238 add ebp,esi xor edi,ebx xor ebx,ecx add ebp,eax add edx,DWORD[12+rsp] and edi,ebx xor ebx,ecx ror eax,7 mov esi,ebp xor edi,ebx rol ebp,5 add edx,edi xor esi,eax xor eax,ebx add edx,ebp pxor xmm1,xmm5 add ecx,DWORD[16+rsp] and esi,eax xor eax,ebx ror ebp,7 punpcklqdq xmm9,xmm0 mov edi,edx xor esi,eax pxor xmm1,xmm2 rol edx,5 add ecx,esi movdqa xmm8,xmm10 xor edi,ebp paddd xmm10,xmm0 xor ebp,eax pxor xmm1,xmm9 add ecx,edx add ebx,DWORD[20+rsp] and edi,ebp xor ebp,eax ror edx,7 movdqa xmm9,xmm1 mov esi,ecx xor edi,ebp movdqa XMMWORD[rsp],xmm10 rol ecx,5 add ebx,edi xor esi,edx pslld xmm1,2 xor edx,ebp add ebx,ecx psrld xmm9,30 add eax,DWORD[24+rsp] and esi,edx xor edx,ebp por xmm1,xmm9 ror ecx,7 mov edi,ebx xor esi,edx rol ebx,5 pshufd xmm10,xmm0,238 add eax,esi xor edi,ecx xor ecx,edx add eax,ebx add ebp,DWORD[28+rsp] and edi,ecx xor ecx,edx ror ebx,7 mov esi,eax xor edi,ecx rol eax,5 add ebp,edi xor esi,ebx xor ebx,ecx add ebp,eax pxor xmm2,xmm6 add edx,DWORD[32+rsp] and esi,ebx xor ebx,ecx ror eax,7 punpcklqdq xmm10,xmm1 mov edi,ebp xor esi,ebx pxor xmm2,xmm3 rol ebp,5 add edx,esi movdqa xmm9,xmm8 xor edi,eax paddd xmm8,xmm1 xor eax,ebx pxor xmm2,xmm10 add edx,ebp add ecx,DWORD[36+rsp] and edi,eax xor eax,ebx ror ebp,7 movdqa xmm10,xmm2 mov esi,edx xor edi,eax movdqa XMMWORD[16+rsp],xmm8 rol edx,5 add ecx,edi xor esi,ebp pslld xmm2,2 xor ebp,eax add ecx,edx psrld xmm10,30 add ebx,DWORD[40+rsp] and esi,ebp xor ebp,eax por xmm2,xmm10 ror edx,7 mov edi,ecx xor esi,ebp rol ecx,5 pshufd xmm8,xmm1,238 add ebx,esi xor edi,edx xor edx,ebp add ebx,ecx add eax,DWORD[44+rsp] and edi,edx xor edx,ebp ror ecx,7 mov esi,ebx xor edi,edx rol ebx,5 add eax,edi xor esi,edx add eax,ebx pxor xmm3,xmm7 add ebp,DWORD[48+rsp] xor esi,ecx punpcklqdq xmm8,xmm2 mov edi,eax rol eax,5 pxor xmm3,xmm4 add ebp,esi xor edi,ecx movdqa xmm10,xmm9 ror ebx,7 paddd xmm9,xmm2 add ebp,eax pxor xmm3,xmm8 add edx,DWORD[52+rsp] xor edi,ebx mov esi,ebp rol ebp,5 movdqa xmm8,xmm3 add edx,edi xor esi,ebx movdqa XMMWORD[32+rsp],xmm9 ror eax,7 add edx,ebp add ecx,DWORD[56+rsp] pslld xmm3,2 xor esi,eax mov edi,edx psrld xmm8,30 rol edx,5 add ecx,esi xor edi,eax ror ebp,7 por xmm3,xmm8 add ecx,edx add ebx,DWORD[60+rsp] xor edi,ebp mov esi,ecx rol ecx,5 add ebx,edi xor esi,ebp ror edx,7 add ebx,ecx add eax,DWORD[rsp] xor esi,edx mov edi,ebx rol ebx,5 paddd xmm10,xmm3 add eax,esi xor edi,edx movdqa XMMWORD[48+rsp],xmm10 ror ecx,7 add eax,ebx add ebp,DWORD[4+rsp] xor edi,ecx mov esi,eax rol eax,5 add ebp,edi xor esi,ecx ror ebx,7 add ebp,eax add edx,DWORD[8+rsp] xor esi,ebx mov edi,ebp rol ebp,5 add edx,esi xor edi,ebx ror eax,7 add edx,ebp add ecx,DWORD[12+rsp] xor edi,eax mov esi,edx rol edx,5 add ecx,edi xor esi,eax ror ebp,7 add ecx,edx cmp r9,r10 je NEAR $L$done_ssse3 movdqa xmm6,XMMWORD[64+r14] movdqa xmm9,XMMWORD[((-64))+r14] movdqu xmm0,XMMWORD[r9] movdqu xmm1,XMMWORD[16+r9] movdqu xmm2,XMMWORD[32+r9] movdqu xmm3,XMMWORD[48+r9] DB 102,15,56,0,198 add r9,64 add ebx,DWORD[16+rsp] xor esi,ebp mov edi,ecx DB 102,15,56,0,206 rol ecx,5 add ebx,esi xor edi,ebp ror edx,7 paddd xmm0,xmm9 add ebx,ecx add eax,DWORD[20+rsp] xor edi,edx mov esi,ebx movdqa XMMWORD[rsp],xmm0 rol ebx,5 add eax,edi xor esi,edx ror ecx,7 psubd xmm0,xmm9 add eax,ebx add ebp,DWORD[24+rsp] xor esi,ecx mov edi,eax rol eax,5 add ebp,esi xor edi,ecx ror ebx,7 add ebp,eax add edx,DWORD[28+rsp] xor edi,ebx mov esi,ebp rol ebp,5 add edx,edi xor esi,ebx ror eax,7 add edx,ebp add ecx,DWORD[32+rsp] xor esi,eax mov edi,edx DB 102,15,56,0,214 rol edx,5 add ecx,esi xor edi,eax ror ebp,7 paddd xmm1,xmm9 add ecx,edx add ebx,DWORD[36+rsp] xor edi,ebp mov esi,ecx movdqa XMMWORD[16+rsp],xmm1 rol ecx,5 add ebx,edi xor esi,ebp ror edx,7 psubd xmm1,xmm9 add ebx,ecx add eax,DWORD[40+rsp] xor esi,edx mov edi,ebx rol ebx,5 add eax,esi xor edi,edx ror ecx,7 add eax,ebx add ebp,DWORD[44+rsp] xor edi,ecx mov esi,eax rol eax,5 add ebp,edi xor esi,ecx ror ebx,7 add ebp,eax add edx,DWORD[48+rsp] xor esi,ebx mov edi,ebp DB 102,15,56,0,222 rol ebp,5 add edx,esi xor edi,ebx ror eax,7 paddd xmm2,xmm9 add edx,ebp add ecx,DWORD[52+rsp] xor edi,eax mov esi,edx movdqa XMMWORD[32+rsp],xmm2 rol edx,5 add ecx,edi xor esi,eax ror ebp,7 psubd xmm2,xmm9 add ecx,edx add ebx,DWORD[56+rsp] xor esi,ebp mov edi,ecx rol ecx,5 add ebx,esi xor edi,ebp ror edx,7 add ebx,ecx add eax,DWORD[60+rsp] xor edi,edx mov esi,ebx rol ebx,5 add eax,edi ror ecx,7 add eax,ebx add eax,DWORD[r8] add esi,DWORD[4+r8] add ecx,DWORD[8+r8] add edx,DWORD[12+r8] mov DWORD[r8],eax add ebp,DWORD[16+r8] mov DWORD[4+r8],esi mov ebx,esi mov DWORD[8+r8],ecx mov edi,ecx mov DWORD[12+r8],edx xor edi,edx mov DWORD[16+r8],ebp and esi,edi jmp NEAR $L$oop_ssse3 ALIGN 16 $L$done_ssse3: add ebx,DWORD[16+rsp] xor esi,ebp mov edi,ecx rol ecx,5 add ebx,esi xor edi,ebp ror edx,7 add ebx,ecx add eax,DWORD[20+rsp] xor edi,edx mov esi,ebx rol ebx,5 add eax,edi xor esi,edx ror ecx,7 add eax,ebx add ebp,DWORD[24+rsp] xor esi,ecx mov edi,eax rol eax,5 add ebp,esi xor edi,ecx ror ebx,7 add ebp,eax add edx,DWORD[28+rsp] xor edi,ebx mov esi,ebp rol ebp,5 add edx,edi xor esi,ebx ror eax,7 add edx,ebp add ecx,DWORD[32+rsp] xor esi,eax mov edi,edx rol edx,5 add ecx,esi xor edi,eax ror ebp,7 add ecx,edx add ebx,DWORD[36+rsp] xor edi,ebp mov esi,ecx rol ecx,5 add ebx,edi xor esi,ebp ror edx,7 add ebx,ecx add eax,DWORD[40+rsp] xor esi,edx mov edi,ebx rol ebx,5 add eax,esi xor edi,edx ror ecx,7 add eax,ebx add ebp,DWORD[44+rsp] xor edi,ecx mov esi,eax rol eax,5 add ebp,edi xor esi,ecx ror ebx,7 add ebp,eax add edx,DWORD[48+rsp] xor esi,ebx mov edi,ebp rol ebp,5 add edx,esi xor edi,ebx ror eax,7 add edx,ebp add ecx,DWORD[52+rsp] xor edi,eax mov esi,edx rol edx,5 add ecx,edi xor esi,eax ror ebp,7 add ecx,edx add ebx,DWORD[56+rsp] xor esi,ebp mov edi,ecx rol ecx,5 add ebx,esi xor edi,ebp ror edx,7 add ebx,ecx add eax,DWORD[60+rsp] xor edi,edx mov esi,ebx rol ebx,5 add eax,edi ror ecx,7 add eax,ebx add eax,DWORD[r8] add esi,DWORD[4+r8] add ecx,DWORD[8+r8] mov DWORD[r8],eax add edx,DWORD[12+r8] mov DWORD[4+r8],esi add ebp,DWORD[16+r8] mov DWORD[8+r8],ecx mov DWORD[12+r8],edx mov DWORD[16+r8],ebp movaps xmm6,XMMWORD[((-40-96))+r11] movaps xmm7,XMMWORD[((-40-80))+r11] movaps xmm8,XMMWORD[((-40-64))+r11] movaps xmm9,XMMWORD[((-40-48))+r11] movaps xmm10,XMMWORD[((-40-32))+r11] movaps xmm11,XMMWORD[((-40-16))+r11] mov r14,QWORD[((-40))+r11] mov r13,QWORD[((-32))+r11] mov r12,QWORD[((-24))+r11] mov rbp,QWORD[((-16))+r11] mov rbx,QWORD[((-8))+r11] lea rsp,[r11] $L$epilogue_ssse3: mov rdi,QWORD[8+rsp] ;WIN64 epilogue mov rsi,QWORD[16+rsp] ret $L$SEH_end_sha1_block_data_order_ssse3: global sha1_block_data_order_avx ALIGN 16 sha1_block_data_order_avx: mov QWORD[8+rsp],rdi ;WIN64 prologue mov QWORD[16+rsp],rsi mov rax,rsp $L$SEH_begin_sha1_block_data_order_avx: mov rdi,rcx mov rsi,rdx mov rdx,r8 _CET_ENDBR mov r11,rsp push rbx push rbp push r12 push r13 push r14 lea rsp,[((-160))+rsp] vzeroupper vmovaps XMMWORD[(-40-96)+r11],xmm6 vmovaps XMMWORD[(-40-80)+r11],xmm7 vmovaps XMMWORD[(-40-64)+r11],xmm8 vmovaps XMMWORD[(-40-48)+r11],xmm9 vmovaps XMMWORD[(-40-32)+r11],xmm10 vmovaps XMMWORD[(-40-16)+r11],xmm11 $L$prologue_avx: and rsp,-64 mov r8,rdi mov r9,rsi mov r10,rdx shl r10,6 add r10,r9 lea r14,[((K_XX_XX+64))] mov eax,DWORD[r8] mov ebx,DWORD[4+r8] mov ecx,DWORD[8+r8] mov edx,DWORD[12+r8] mov esi,ebx mov ebp,DWORD[16+r8] mov edi,ecx xor edi,edx and esi,edi vmovdqa xmm6,XMMWORD[64+r14] vmovdqa xmm11,XMMWORD[((-64))+r14] vmovdqu xmm0,XMMWORD[r9] vmovdqu xmm1,XMMWORD[16+r9] vmovdqu xmm2,XMMWORD[32+r9] vmovdqu xmm3,XMMWORD[48+r9] vpshufb xmm0,xmm0,xmm6 add r9,64 vpshufb xmm1,xmm1,xmm6 vpshufb xmm2,xmm2,xmm6 vpshufb xmm3,xmm3,xmm6 vpaddd xmm4,xmm0,xmm11 vpaddd xmm5,xmm1,xmm11 vpaddd xmm6,xmm2,xmm11 vmovdqa XMMWORD[rsp],xmm4 vmovdqa XMMWORD[16+rsp],xmm5 vmovdqa XMMWORD[32+rsp],xmm6 jmp NEAR $L$oop_avx ALIGN 16 $L$oop_avx: shrd ebx,ebx,2 xor esi,edx vpalignr xmm4,xmm1,xmm0,8 mov edi,eax add ebp,DWORD[rsp] vpaddd xmm9,xmm11,xmm3 xor ebx,ecx shld eax,eax,5 vpsrldq xmm8,xmm3,4 add ebp,esi and edi,ebx vpxor xmm4,xmm4,xmm0 xor ebx,ecx add ebp,eax vpxor xmm8,xmm8,xmm2 shrd eax,eax,7 xor edi,ecx mov esi,ebp add edx,DWORD[4+rsp] vpxor xmm4,xmm4,xmm8 xor eax,ebx shld ebp,ebp,5 vmovdqa XMMWORD[48+rsp],xmm9 add edx,edi and esi,eax vpsrld xmm8,xmm4,31 xor eax,ebx add edx,ebp shrd ebp,ebp,7 xor esi,ebx vpslldq xmm10,xmm4,12 vpaddd xmm4,xmm4,xmm4 mov edi,edx add ecx,DWORD[8+rsp] xor ebp,eax shld edx,edx,5 vpsrld xmm9,xmm10,30 vpor xmm4,xmm4,xmm8 add ecx,esi and edi,ebp xor ebp,eax add ecx,edx vpslld xmm10,xmm10,2 vpxor xmm4,xmm4,xmm9 shrd edx,edx,7 xor edi,eax mov esi,ecx add ebx,DWORD[12+rsp] vpxor xmm4,xmm4,xmm10 xor edx,ebp shld ecx,ecx,5 add ebx,edi and esi,edx xor edx,ebp add ebx,ecx shrd ecx,ecx,7 xor esi,ebp vpalignr xmm5,xmm2,xmm1,8 mov edi,ebx add eax,DWORD[16+rsp] vpaddd xmm9,xmm11,xmm4 xor ecx,edx shld ebx,ebx,5 vpsrldq xmm8,xmm4,4 add eax,esi and edi,ecx vpxor xmm5,xmm5,xmm1 xor ecx,edx add eax,ebx vpxor xmm8,xmm8,xmm3 shrd ebx,ebx,7 xor edi,edx mov esi,eax add ebp,DWORD[20+rsp] vpxor xmm5,xmm5,xmm8 xor ebx,ecx shld eax,eax,5 vmovdqa XMMWORD[rsp],xmm9 add ebp,edi and esi,ebx vpsrld xmm8,xmm5,31 xor ebx,ecx add ebp,eax shrd eax,eax,7 xor esi,ecx vpslldq xmm10,xmm5,12 vpaddd xmm5,xmm5,xmm5 mov edi,ebp add edx,DWORD[24+rsp] xor eax,ebx shld ebp,ebp,5 vpsrld xmm9,xmm10,30 vpor xmm5,xmm5,xmm8 add edx,esi and edi,eax xor eax,ebx add edx,ebp vpslld xmm10,xmm10,2 vpxor xmm5,xmm5,xmm9 shrd ebp,ebp,7 xor edi,ebx mov esi,edx add ecx,DWORD[28+rsp] vpxor xmm5,xmm5,xmm10 xor ebp,eax shld edx,edx,5 vmovdqa xmm11,XMMWORD[((-32))+r14] add ecx,edi and esi,ebp xor ebp,eax add ecx,edx shrd edx,edx,7 xor esi,eax vpalignr xmm6,xmm3,xmm2,8 mov edi,ecx add ebx,DWORD[32+rsp] vpaddd xmm9,xmm11,xmm5 xor edx,ebp shld ecx,ecx,5 vpsrldq xmm8,xmm5,4 add ebx,esi and edi,edx vpxor xmm6,xmm6,xmm2 xor edx,ebp add ebx,ecx vpxor xmm8,xmm8,xmm4 shrd ecx,ecx,7 xor edi,ebp mov esi,ebx add eax,DWORD[36+rsp] vpxor xmm6,xmm6,xmm8 xor ecx,edx shld ebx,ebx,5 vmovdqa XMMWORD[16+rsp],xmm9 add eax,edi and esi,ecx vpsrld xmm8,xmm6,31 xor ecx,edx add eax,ebx shrd ebx,ebx,7 xor esi,edx vpslldq xmm10,xmm6,12 vpaddd xmm6,xmm6,xmm6 mov edi,eax add ebp,DWORD[40+rsp] xor ebx,ecx shld eax,eax,5 vpsrld xmm9,xmm10,30 vpor xmm6,xmm6,xmm8 add ebp,esi and edi,ebx xor ebx,ecx add ebp,eax vpslld xmm10,xmm10,2 vpxor xmm6,xmm6,xmm9 shrd eax,eax,7 xor edi,ecx mov esi,ebp add edx,DWORD[44+rsp] vpxor xmm6,xmm6,xmm10 xor eax,ebx shld ebp,ebp,5 add edx,edi and esi,eax xor eax,ebx add edx,ebp shrd ebp,ebp,7 xor esi,ebx vpalignr xmm7,xmm4,xmm3,8 mov edi,edx add ecx,DWORD[48+rsp] vpaddd xmm9,xmm11,xmm6 xor ebp,eax shld edx,edx,5 vpsrldq xmm8,xmm6,4 add ecx,esi and edi,ebp vpxor xmm7,xmm7,xmm3 xor ebp,eax add ecx,edx vpxor xmm8,xmm8,xmm5 shrd edx,edx,7 xor edi,eax mov esi,ecx add ebx,DWORD[52+rsp] vpxor xmm7,xmm7,xmm8 xor edx,ebp shld ecx,ecx,5 vmovdqa XMMWORD[32+rsp],xmm9 add ebx,edi and esi,edx vpsrld xmm8,xmm7,31 xor edx,ebp add ebx,ecx shrd ecx,ecx,7 xor esi,ebp vpslldq xmm10,xmm7,12 vpaddd xmm7,xmm7,xmm7 mov edi,ebx add eax,DWORD[56+rsp] xor ecx,edx shld ebx,ebx,5 vpsrld xmm9,xmm10,30 vpor xmm7,xmm7,xmm8 add eax,esi and edi,ecx xor ecx,edx add eax,ebx vpslld xmm10,xmm10,2 vpxor xmm7,xmm7,xmm9 shrd ebx,ebx,7 xor edi,edx mov esi,eax add ebp,DWORD[60+rsp] vpxor xmm7,xmm7,xmm10 xor ebx,ecx shld eax,eax,5 add ebp,edi and esi,ebx xor ebx,ecx add ebp,eax vpalignr xmm8,xmm7,xmm6,8 vpxor xmm0,xmm0,xmm4 shrd eax,eax,7 xor esi,ecx mov edi,ebp add edx,DWORD[rsp] vpxor xmm0,xmm0,xmm1 xor eax,ebx shld ebp,ebp,5 vpaddd xmm9,xmm11,xmm7 add edx,esi and edi,eax vpxor xmm0,xmm0,xmm8 xor eax,ebx add edx,ebp shrd ebp,ebp,7 xor edi,ebx vpsrld xmm8,xmm0,30 vmovdqa XMMWORD[48+rsp],xmm9 mov esi,edx add ecx,DWORD[4+rsp] xor ebp,eax shld edx,edx,5 vpslld xmm0,xmm0,2 add ecx,edi and esi,ebp xor ebp,eax add ecx,edx shrd edx,edx,7 xor esi,eax mov edi,ecx add ebx,DWORD[8+rsp] vpor xmm0,xmm0,xmm8 xor edx,ebp shld ecx,ecx,5 add ebx,esi and edi,edx xor edx,ebp add ebx,ecx add eax,DWORD[12+rsp] xor edi,ebp mov esi,ebx shld ebx,ebx,5 add eax,edi xor esi,edx shrd ecx,ecx,7 add eax,ebx vpalignr xmm8,xmm0,xmm7,8 vpxor xmm1,xmm1,xmm5 add ebp,DWORD[16+rsp] xor esi,ecx mov edi,eax shld eax,eax,5 vpxor xmm1,xmm1,xmm2 add ebp,esi xor edi,ecx vpaddd xmm9,xmm11,xmm0 shrd ebx,ebx,7 add ebp,eax vpxor xmm1,xmm1,xmm8 add edx,DWORD[20+rsp] xor edi,ebx mov esi,ebp shld ebp,ebp,5 vpsrld xmm8,xmm1,30 vmovdqa XMMWORD[rsp],xmm9 add edx,edi xor esi,ebx shrd eax,eax,7 add edx,ebp vpslld xmm1,xmm1,2 add ecx,DWORD[24+rsp] xor esi,eax mov edi,edx shld edx,edx,5 add ecx,esi xor edi,eax shrd ebp,ebp,7 add ecx,edx vpor xmm1,xmm1,xmm8 add ebx,DWORD[28+rsp] xor edi,ebp mov esi,ecx shld ecx,ecx,5 add ebx,edi xor esi,ebp shrd edx,edx,7 add ebx,ecx vpalignr xmm8,xmm1,xmm0,8 vpxor xmm2,xmm2,xmm6 add eax,DWORD[32+rsp] xor esi,edx mov edi,ebx shld ebx,ebx,5 vpxor xmm2,xmm2,xmm3 add eax,esi xor edi,edx vpaddd xmm9,xmm11,xmm1 vmovdqa xmm11,XMMWORD[r14] shrd ecx,ecx,7 add eax,ebx vpxor xmm2,xmm2,xmm8 add ebp,DWORD[36+rsp] xor edi,ecx mov esi,eax shld eax,eax,5 vpsrld xmm8,xmm2,30 vmovdqa XMMWORD[16+rsp],xmm9 add ebp,edi xor esi,ecx shrd ebx,ebx,7 add ebp,eax vpslld xmm2,xmm2,2 add edx,DWORD[40+rsp] xor esi,ebx mov edi,ebp shld ebp,ebp,5 add edx,esi xor edi,ebx shrd eax,eax,7 add edx,ebp vpor xmm2,xmm2,xmm8 add ecx,DWORD[44+rsp] xor edi,eax mov esi,edx shld edx,edx,5 add ecx,edi xor esi,eax shrd ebp,ebp,7 add ecx,edx vpalignr xmm8,xmm2,xmm1,8 vpxor xmm3,xmm3,xmm7 add ebx,DWORD[48+rsp] xor esi,ebp mov edi,ecx shld ecx,ecx,5 vpxor xmm3,xmm3,xmm4 add ebx,esi xor edi,ebp vpaddd xmm9,xmm11,xmm2 shrd edx,edx,7 add ebx,ecx vpxor xmm3,xmm3,xmm8 add eax,DWORD[52+rsp] xor edi,edx mov esi,ebx shld ebx,ebx,5 vpsrld xmm8,xmm3,30 vmovdqa XMMWORD[32+rsp],xmm9 add eax,edi xor esi,edx shrd ecx,ecx,7 add eax,ebx vpslld xmm3,xmm3,2 add ebp,DWORD[56+rsp] xor esi,ecx mov edi,eax shld eax,eax,5 add ebp,esi xor edi,ecx shrd ebx,ebx,7 add ebp,eax vpor xmm3,xmm3,xmm8 add edx,DWORD[60+rsp] xor edi,ebx mov esi,ebp shld ebp,ebp,5 add edx,edi xor esi,ebx shrd eax,eax,7 add edx,ebp vpalignr xmm8,xmm3,xmm2,8 vpxor xmm4,xmm4,xmm0 add ecx,DWORD[rsp] xor esi,eax mov edi,edx shld edx,edx,5 vpxor xmm4,xmm4,xmm5 add ecx,esi xor edi,eax vpaddd xmm9,xmm11,xmm3 shrd ebp,ebp,7 add ecx,edx vpxor xmm4,xmm4,xmm8 add ebx,DWORD[4+rsp] xor edi,ebp mov esi,ecx shld ecx,ecx,5 vpsrld xmm8,xmm4,30 vmovdqa XMMWORD[48+rsp],xmm9 add ebx,edi xor esi,ebp shrd edx,edx,7 add ebx,ecx vpslld xmm4,xmm4,2 add eax,DWORD[8+rsp] xor esi,edx mov edi,ebx shld ebx,ebx,5 add eax,esi xor edi,edx shrd ecx,ecx,7 add eax,ebx vpor xmm4,xmm4,xmm8 add ebp,DWORD[12+rsp] xor edi,ecx mov esi,eax shld eax,eax,5 add ebp,edi xor esi,ecx shrd ebx,ebx,7 add ebp,eax vpalignr xmm8,xmm4,xmm3,8 vpxor xmm5,xmm5,xmm1 add edx,DWORD[16+rsp] xor esi,ebx mov edi,ebp shld ebp,ebp,5 vpxor xmm5,xmm5,xmm6 add edx,esi xor edi,ebx vpaddd xmm9,xmm11,xmm4 shrd eax,eax,7 add edx,ebp vpxor xmm5,xmm5,xmm8 add ecx,DWORD[20+rsp] xor edi,eax mov esi,edx shld edx,edx,5 vpsrld xmm8,xmm5,30 vmovdqa XMMWORD[rsp],xmm9 add ecx,edi xor esi,eax shrd ebp,ebp,7 add ecx,edx vpslld xmm5,xmm5,2 add ebx,DWORD[24+rsp] xor esi,ebp mov edi,ecx shld ecx,ecx,5 add ebx,esi xor edi,ebp shrd edx,edx,7 add ebx,ecx vpor xmm5,xmm5,xmm8 add eax,DWORD[28+rsp] shrd ecx,ecx,7 mov esi,ebx xor edi,edx shld ebx,ebx,5 add eax,edi xor esi,ecx xor ecx,edx add eax,ebx vpalignr xmm8,xmm5,xmm4,8 vpxor xmm6,xmm6,xmm2 add ebp,DWORD[32+rsp] and esi,ecx xor ecx,edx shrd ebx,ebx,7 vpxor xmm6,xmm6,xmm7 mov edi,eax xor esi,ecx vpaddd xmm9,xmm11,xmm5 shld eax,eax,5 add ebp,esi vpxor xmm6,xmm6,xmm8 xor edi,ebx xor ebx,ecx add ebp,eax add edx,DWORD[36+rsp] vpsrld xmm8,xmm6,30 vmovdqa XMMWORD[16+rsp],xmm9 and edi,ebx xor ebx,ecx shrd eax,eax,7 mov esi,ebp vpslld xmm6,xmm6,2 xor edi,ebx shld ebp,ebp,5 add edx,edi xor esi,eax xor eax,ebx add edx,ebp add ecx,DWORD[40+rsp] and esi,eax vpor xmm6,xmm6,xmm8 xor eax,ebx shrd ebp,ebp,7 mov edi,edx xor esi,eax shld edx,edx,5 add ecx,esi xor edi,ebp xor ebp,eax add ecx,edx add ebx,DWORD[44+rsp] and edi,ebp xor ebp,eax shrd edx,edx,7 mov esi,ecx xor edi,ebp shld ecx,ecx,5 add ebx,edi xor esi,edx xor edx,ebp add ebx,ecx vpalignr xmm8,xmm6,xmm5,8 vpxor xmm7,xmm7,xmm3 add eax,DWORD[48+rsp] and esi,edx xor edx,ebp shrd ecx,ecx,7 vpxor xmm7,xmm7,xmm0 mov edi,ebx xor esi,edx vpaddd xmm9,xmm11,xmm6 vmovdqa xmm11,XMMWORD[32+r14] shld ebx,ebx,5 add eax,esi vpxor xmm7,xmm7,xmm8 xor edi,ecx xor ecx,edx add eax,ebx add ebp,DWORD[52+rsp] vpsrld xmm8,xmm7,30 vmovdqa XMMWORD[32+rsp],xmm9 and edi,ecx xor ecx,edx shrd ebx,ebx,7 mov esi,eax vpslld xmm7,xmm7,2 xor edi,ecx shld eax,eax,5 add ebp,edi xor esi,ebx xor ebx,ecx add ebp,eax add edx,DWORD[56+rsp] and esi,ebx vpor xmm7,xmm7,xmm8 xor ebx,ecx shrd eax,eax,7 mov edi,ebp xor esi,ebx shld ebp,ebp,5 add edx,esi xor edi,eax xor eax,ebx add edx,ebp add ecx,DWORD[60+rsp] and edi,eax xor eax,ebx shrd ebp,ebp,7 mov esi,edx xor edi,eax shld edx,edx,5 add ecx,edi xor esi,ebp xor ebp,eax add ecx,edx vpalignr xmm8,xmm7,xmm6,8 vpxor xmm0,xmm0,xmm4 add ebx,DWORD[rsp] and esi,ebp xor ebp,eax shrd edx,edx,7 vpxor xmm0,xmm0,xmm1 mov edi,ecx xor esi,ebp vpaddd xmm9,xmm11,xmm7 shld ecx,ecx,5 add ebx,esi vpxor xmm0,xmm0,xmm8 xor edi,edx xor edx,ebp add ebx,ecx add eax,DWORD[4+rsp] vpsrld xmm8,xmm0,30 vmovdqa XMMWORD[48+rsp],xmm9 and edi,edx xor edx,ebp shrd ecx,ecx,7 mov esi,ebx vpslld xmm0,xmm0,2 xor edi,edx shld ebx,ebx,5 add eax,edi xor esi,ecx xor ecx,edx add eax,ebx add ebp,DWORD[8+rsp] and esi,ecx vpor xmm0,xmm0,xmm8 xor ecx,edx shrd ebx,ebx,7 mov edi,eax xor esi,ecx shld eax,eax,5 add ebp,esi xor edi,ebx xor ebx,ecx add ebp,eax add edx,DWORD[12+rsp] and edi,ebx xor ebx,ecx shrd eax,eax,7 mov esi,ebp xor edi,ebx shld ebp,ebp,5 add edx,edi xor esi,eax xor eax,ebx add edx,ebp vpalignr xmm8,xmm0,xmm7,8 vpxor xmm1,xmm1,xmm5 add ecx,DWORD[16+rsp] and esi,eax xor eax,ebx shrd ebp,ebp,7 vpxor xmm1,xmm1,xmm2 mov edi,edx xor esi,eax vpaddd xmm9,xmm11,xmm0 shld edx,edx,5 add ecx,esi vpxor xmm1,xmm1,xmm8 xor edi,ebp xor ebp,eax add ecx,edx add ebx,DWORD[20+rsp] vpsrld xmm8,xmm1,30 vmovdqa XMMWORD[rsp],xmm9 and edi,ebp xor ebp,eax shrd edx,edx,7 mov esi,ecx vpslld xmm1,xmm1,2 xor edi,ebp shld ecx,ecx,5 add ebx,edi xor esi,edx xor edx,ebp add ebx,ecx add eax,DWORD[24+rsp] and esi,edx vpor xmm1,xmm1,xmm8 xor edx,ebp shrd ecx,ecx,7 mov edi,ebx xor esi,edx shld ebx,ebx,5 add eax,esi xor edi,ecx xor ecx,edx add eax,ebx add ebp,DWORD[28+rsp] and edi,ecx xor ecx,edx shrd ebx,ebx,7 mov esi,eax xor edi,ecx shld eax,eax,5 add ebp,edi xor esi,ebx xor ebx,ecx add ebp,eax vpalignr xmm8,xmm1,xmm0,8 vpxor xmm2,xmm2,xmm6 add edx,DWORD[32+rsp] and esi,ebx xor ebx,ecx shrd eax,eax,7 vpxor xmm2,xmm2,xmm3 mov edi,ebp xor esi,ebx vpaddd xmm9,xmm11,xmm1 shld ebp,ebp,5 add edx,esi vpxor xmm2,xmm2,xmm8 xor edi,eax xor eax,ebx add edx,ebp add ecx,DWORD[36+rsp] vpsrld xmm8,xmm2,30 vmovdqa XMMWORD[16+rsp],xmm9 and edi,eax xor eax,ebx shrd ebp,ebp,7 mov esi,edx vpslld xmm2,xmm2,2 xor edi,eax shld edx,edx,5 add ecx,edi xor esi,ebp xor ebp,eax add ecx,edx add ebx,DWORD[40+rsp] and esi,ebp vpor xmm2,xmm2,xmm8 xor ebp,eax shrd edx,edx,7 mov edi,ecx xor esi,ebp shld ecx,ecx,5 add ebx,esi xor edi,edx xor edx,ebp add ebx,ecx add eax,DWORD[44+rsp] and edi,edx xor edx,ebp shrd ecx,ecx,7 mov esi,ebx xor edi,edx shld ebx,ebx,5 add eax,edi xor esi,edx add eax,ebx vpalignr xmm8,xmm2,xmm1,8 vpxor xmm3,xmm3,xmm7 add ebp,DWORD[48+rsp] xor esi,ecx mov edi,eax shld eax,eax,5 vpxor xmm3,xmm3,xmm4 add ebp,esi xor edi,ecx vpaddd xmm9,xmm11,xmm2 shrd ebx,ebx,7 add ebp,eax vpxor xmm3,xmm3,xmm8 add edx,DWORD[52+rsp] xor edi,ebx mov esi,ebp shld ebp,ebp,5 vpsrld xmm8,xmm3,30 vmovdqa XMMWORD[32+rsp],xmm9 add edx,edi xor esi,ebx shrd eax,eax,7 add edx,ebp vpslld xmm3,xmm3,2 add ecx,DWORD[56+rsp] xor esi,eax mov edi,edx shld edx,edx,5 add ecx,esi xor edi,eax shrd ebp,ebp,7 add ecx,edx vpor xmm3,xmm3,xmm8 add ebx,DWORD[60+rsp] xor edi,ebp mov esi,ecx shld ecx,ecx,5 add ebx,edi xor esi,ebp shrd edx,edx,7 add ebx,ecx add eax,DWORD[rsp] vpaddd xmm9,xmm11,xmm3 xor esi,edx mov edi,ebx shld ebx,ebx,5 add eax,esi vmovdqa XMMWORD[48+rsp],xmm9 xor edi,edx shrd ecx,ecx,7 add eax,ebx add ebp,DWORD[4+rsp] xor edi,ecx mov esi,eax shld eax,eax,5 add ebp,edi xor esi,ecx shrd ebx,ebx,7 add ebp,eax add edx,DWORD[8+rsp] xor esi,ebx mov edi,ebp shld ebp,ebp,5 add edx,esi xor edi,ebx shrd eax,eax,7 add edx,ebp add ecx,DWORD[12+rsp] xor edi,eax mov esi,edx shld edx,edx,5 add ecx,edi xor esi,eax shrd ebp,ebp,7 add ecx,edx cmp r9,r10 je NEAR $L$done_avx vmovdqa xmm6,XMMWORD[64+r14] vmovdqa xmm11,XMMWORD[((-64))+r14] vmovdqu xmm0,XMMWORD[r9] vmovdqu xmm1,XMMWORD[16+r9] vmovdqu xmm2,XMMWORD[32+r9] vmovdqu xmm3,XMMWORD[48+r9] vpshufb xmm0,xmm0,xmm6 add r9,64 add ebx,DWORD[16+rsp] xor esi,ebp vpshufb xmm1,xmm1,xmm6 mov edi,ecx shld ecx,ecx,5 vpaddd xmm4,xmm0,xmm11 add ebx,esi xor edi,ebp shrd edx,edx,7 add ebx,ecx vmovdqa XMMWORD[rsp],xmm4 add eax,DWORD[20+rsp] xor edi,edx mov esi,ebx shld ebx,ebx,5 add eax,edi xor esi,edx shrd ecx,ecx,7 add eax,ebx add ebp,DWORD[24+rsp] xor esi,ecx mov edi,eax shld eax,eax,5 add ebp,esi xor edi,ecx shrd ebx,ebx,7 add ebp,eax add edx,DWORD[28+rsp] xor edi,ebx mov esi,ebp shld ebp,ebp,5 add edx,edi xor esi,ebx shrd eax,eax,7 add edx,ebp add ecx,DWORD[32+rsp] xor esi,eax vpshufb xmm2,xmm2,xmm6 mov edi,edx shld edx,edx,5 vpaddd xmm5,xmm1,xmm11 add ecx,esi xor edi,eax shrd ebp,ebp,7 add ecx,edx vmovdqa XMMWORD[16+rsp],xmm5 add ebx,DWORD[36+rsp] xor edi,ebp mov esi,ecx shld ecx,ecx,5 add ebx,edi xor esi,ebp shrd edx,edx,7 add ebx,ecx add eax,DWORD[40+rsp] xor esi,edx mov edi,ebx shld ebx,ebx,5 add eax,esi xor edi,edx shrd ecx,ecx,7 add eax,ebx add ebp,DWORD[44+rsp] xor edi,ecx mov esi,eax shld eax,eax,5 add ebp,edi xor esi,ecx shrd ebx,ebx,7 add ebp,eax add edx,DWORD[48+rsp] xor esi,ebx vpshufb xmm3,xmm3,xmm6 mov edi,ebp shld ebp,ebp,5 vpaddd xmm6,xmm2,xmm11 add edx,esi xor edi,ebx shrd eax,eax,7 add edx,ebp vmovdqa XMMWORD[32+rsp],xmm6 add ecx,DWORD[52+rsp] xor edi,eax mov esi,edx shld edx,edx,5 add ecx,edi xor esi,eax shrd ebp,ebp,7 add ecx,edx add ebx,DWORD[56+rsp] xor esi,ebp mov edi,ecx shld ecx,ecx,5 add ebx,esi xor edi,ebp shrd edx,edx,7 add ebx,ecx add eax,DWORD[60+rsp] xor edi,edx mov esi,ebx shld ebx,ebx,5 add eax,edi shrd ecx,ecx,7 add eax,ebx add eax,DWORD[r8] add esi,DWORD[4+r8] add ecx,DWORD[8+r8] add edx,DWORD[12+r8] mov DWORD[r8],eax add ebp,DWORD[16+r8] mov DWORD[4+r8],esi mov ebx,esi mov DWORD[8+r8],ecx mov edi,ecx mov DWORD[12+r8],edx xor edi,edx mov DWORD[16+r8],ebp and esi,edi jmp NEAR $L$oop_avx ALIGN 16 $L$done_avx: add ebx,DWORD[16+rsp] xor esi,ebp mov edi,ecx shld ecx,ecx,5 add ebx,esi xor edi,ebp shrd edx,edx,7 add ebx,ecx add eax,DWORD[20+rsp] xor edi,edx mov esi,ebx shld ebx,ebx,5 add eax,edi xor esi,edx shrd ecx,ecx,7 add eax,ebx add ebp,DWORD[24+rsp] xor esi,ecx mov edi,eax shld eax,eax,5 add ebp,esi xor edi,ecx shrd ebx,ebx,7 add ebp,eax add edx,DWORD[28+rsp] xor edi,ebx mov esi,ebp shld ebp,ebp,5 add edx,edi xor esi,ebx shrd eax,eax,7 add edx,ebp add ecx,DWORD[32+rsp] xor esi,eax mov edi,edx shld edx,edx,5 add ecx,esi xor edi,eax shrd ebp,ebp,7 add ecx,edx add ebx,DWORD[36+rsp] xor edi,ebp mov esi,ecx shld ecx,ecx,5 add ebx,edi xor esi,ebp shrd edx,edx,7 add ebx,ecx add eax,DWORD[40+rsp] xor esi,edx mov edi,ebx shld ebx,ebx,5 add eax,esi xor edi,edx shrd ecx,ecx,7 add eax,ebx add ebp,DWORD[44+rsp] xor edi,ecx mov esi,eax shld eax,eax,5 add ebp,edi xor esi,ecx shrd ebx,ebx,7 add ebp,eax add edx,DWORD[48+rsp] xor esi,ebx mov edi,ebp shld ebp,ebp,5 add edx,esi xor edi,ebx shrd eax,eax,7 add edx,ebp add ecx,DWORD[52+rsp] xor edi,eax mov esi,edx shld edx,edx,5 add ecx,edi xor esi,eax shrd ebp,ebp,7 add ecx,edx add ebx,DWORD[56+rsp] xor esi,ebp mov edi,ecx shld ecx,ecx,5 add ebx,esi xor edi,ebp shrd edx,edx,7 add ebx,ecx add eax,DWORD[60+rsp] xor edi,edx mov esi,ebx shld ebx,ebx,5 add eax,edi shrd ecx,ecx,7 add eax,ebx vzeroupper add eax,DWORD[r8] add esi,DWORD[4+r8] add ecx,DWORD[8+r8] mov DWORD[r8],eax add edx,DWORD[12+r8] mov DWORD[4+r8],esi add ebp,DWORD[16+r8] mov DWORD[8+r8],ecx mov DWORD[12+r8],edx mov DWORD[16+r8],ebp movaps xmm6,XMMWORD[((-40-96))+r11] movaps xmm7,XMMWORD[((-40-80))+r11] movaps xmm8,XMMWORD[((-40-64))+r11] movaps xmm9,XMMWORD[((-40-48))+r11] movaps xmm10,XMMWORD[((-40-32))+r11] movaps xmm11,XMMWORD[((-40-16))+r11] mov r14,QWORD[((-40))+r11] mov r13,QWORD[((-32))+r11] mov r12,QWORD[((-24))+r11] mov rbp,QWORD[((-16))+r11] mov rbx,QWORD[((-8))+r11] lea rsp,[r11] $L$epilogue_avx: mov rdi,QWORD[8+rsp] ;WIN64 epilogue mov rsi,QWORD[16+rsp] ret $L$SEH_end_sha1_block_data_order_avx: global sha1_block_data_order_avx2 ALIGN 16 sha1_block_data_order_avx2: mov QWORD[8+rsp],rdi ;WIN64 prologue mov QWORD[16+rsp],rsi mov rax,rsp $L$SEH_begin_sha1_block_data_order_avx2: mov rdi,rcx mov rsi,rdx mov rdx,r8 _CET_ENDBR mov r11,rsp push rbx push rbp push r12 push r13 push r14 vzeroupper lea rsp,[((-96))+rsp] vmovaps XMMWORD[(-40-96)+r11],xmm6 vmovaps XMMWORD[(-40-80)+r11],xmm7 vmovaps XMMWORD[(-40-64)+r11],xmm8 vmovaps XMMWORD[(-40-48)+r11],xmm9 vmovaps XMMWORD[(-40-32)+r11],xmm10 vmovaps XMMWORD[(-40-16)+r11],xmm11 $L$prologue_avx2: mov r8,rdi mov r9,rsi mov r10,rdx lea rsp,[((-640))+rsp] shl r10,6 lea r13,[64+r9] and rsp,-128 add r10,r9 lea r14,[((K_XX_XX+64))] mov eax,DWORD[r8] cmp r13,r10 cmovae r13,r9 mov ebp,DWORD[4+r8] mov ecx,DWORD[8+r8] mov edx,DWORD[12+r8] mov esi,DWORD[16+r8] vmovdqu ymm6,YMMWORD[64+r14] vmovdqu xmm0,XMMWORD[r9] vmovdqu xmm1,XMMWORD[16+r9] vmovdqu xmm2,XMMWORD[32+r9] vmovdqu xmm3,XMMWORD[48+r9] lea r9,[64+r9] vinserti128 ymm0,ymm0,XMMWORD[r13],1 vinserti128 ymm1,ymm1,XMMWORD[16+r13],1 vpshufb ymm0,ymm0,ymm6 vinserti128 ymm2,ymm2,XMMWORD[32+r13],1 vpshufb ymm1,ymm1,ymm6 vinserti128 ymm3,ymm3,XMMWORD[48+r13],1 vpshufb ymm2,ymm2,ymm6 vmovdqu ymm11,YMMWORD[((-64))+r14] vpshufb ymm3,ymm3,ymm6 vpaddd ymm4,ymm0,ymm11 vpaddd ymm5,ymm1,ymm11 vmovdqu YMMWORD[rsp],ymm4 vpaddd ymm6,ymm2,ymm11 vmovdqu YMMWORD[32+rsp],ymm5 vpaddd ymm7,ymm3,ymm11 vmovdqu YMMWORD[64+rsp],ymm6 vmovdqu YMMWORD[96+rsp],ymm7 vpalignr ymm4,ymm1,ymm0,8 vpsrldq ymm8,ymm3,4 vpxor ymm4,ymm4,ymm0 vpxor ymm8,ymm8,ymm2 vpxor ymm4,ymm4,ymm8 vpsrld ymm8,ymm4,31 vpslldq ymm10,ymm4,12 vpaddd ymm4,ymm4,ymm4 vpsrld ymm9,ymm10,30 vpor ymm4,ymm4,ymm8 vpslld ymm10,ymm10,2 vpxor ymm4,ymm4,ymm9 vpxor ymm4,ymm4,ymm10 vpaddd ymm9,ymm4,ymm11 vmovdqu YMMWORD[128+rsp],ymm9 vpalignr ymm5,ymm2,ymm1,8 vpsrldq ymm8,ymm4,4 vpxor ymm5,ymm5,ymm1 vpxor ymm8,ymm8,ymm3 vpxor ymm5,ymm5,ymm8 vpsrld ymm8,ymm5,31 vmovdqu ymm11,YMMWORD[((-32))+r14] vpslldq ymm10,ymm5,12 vpaddd ymm5,ymm5,ymm5 vpsrld ymm9,ymm10,30 vpor ymm5,ymm5,ymm8 vpslld ymm10,ymm10,2 vpxor ymm5,ymm5,ymm9 vpxor ymm5,ymm5,ymm10 vpaddd ymm9,ymm5,ymm11 vmovdqu YMMWORD[160+rsp],ymm9 vpalignr ymm6,ymm3,ymm2,8 vpsrldq ymm8,ymm5,4 vpxor ymm6,ymm6,ymm2 vpxor ymm8,ymm8,ymm4 vpxor ymm6,ymm6,ymm8 vpsrld ymm8,ymm6,31 vpslldq ymm10,ymm6,12 vpaddd ymm6,ymm6,ymm6 vpsrld ymm9,ymm10,30 vpor ymm6,ymm6,ymm8 vpslld ymm10,ymm10,2 vpxor ymm6,ymm6,ymm9 vpxor ymm6,ymm6,ymm10 vpaddd ymm9,ymm6,ymm11 vmovdqu YMMWORD[192+rsp],ymm9 vpalignr ymm7,ymm4,ymm3,8 vpsrldq ymm8,ymm6,4 vpxor ymm7,ymm7,ymm3 vpxor ymm8,ymm8,ymm5 vpxor ymm7,ymm7,ymm8 vpsrld ymm8,ymm7,31 vpslldq ymm10,ymm7,12 vpaddd ymm7,ymm7,ymm7 vpsrld ymm9,ymm10,30 vpor ymm7,ymm7,ymm8 vpslld ymm10,ymm10,2 vpxor ymm7,ymm7,ymm9 vpxor ymm7,ymm7,ymm10 vpaddd ymm9,ymm7,ymm11 vmovdqu YMMWORD[224+rsp],ymm9 lea r13,[128+rsp] jmp NEAR $L$oop_avx2 ALIGN 32 $L$oop_avx2: rorx ebx,ebp,2 andn edi,ebp,edx and ebp,ecx xor ebp,edi jmp NEAR $L$align32_1 ALIGN 32 $L$align32_1: vpalignr ymm8,ymm7,ymm6,8 vpxor ymm0,ymm0,ymm4 add esi,DWORD[((-128))+r13] andn edi,eax,ecx vpxor ymm0,ymm0,ymm1 add esi,ebp rorx r12d,eax,27 rorx ebp,eax,2 vpxor ymm0,ymm0,ymm8 and eax,ebx add esi,r12d xor eax,edi vpsrld ymm8,ymm0,30 vpslld ymm0,ymm0,2 add edx,DWORD[((-124))+r13] andn edi,esi,ebx add edx,eax rorx r12d,esi,27 rorx eax,esi,2 and esi,ebp vpor ymm0,ymm0,ymm8 add edx,r12d xor esi,edi add ecx,DWORD[((-120))+r13] andn edi,edx,ebp vpaddd ymm9,ymm0,ymm11 add ecx,esi rorx r12d,edx,27 rorx esi,edx,2 and edx,eax vmovdqu YMMWORD[256+rsp],ymm9 add ecx,r12d xor edx,edi add ebx,DWORD[((-116))+r13] andn edi,ecx,eax add ebx,edx rorx r12d,ecx,27 rorx edx,ecx,2 and ecx,esi add ebx,r12d xor ecx,edi add ebp,DWORD[((-96))+r13] andn edi,ebx,esi add ebp,ecx rorx r12d,ebx,27 rorx ecx,ebx,2 and ebx,edx add ebp,r12d xor ebx,edi vpalignr ymm8,ymm0,ymm7,8 vpxor ymm1,ymm1,ymm5 add eax,DWORD[((-92))+r13] andn edi,ebp,edx vpxor ymm1,ymm1,ymm2 add eax,ebx rorx r12d,ebp,27 rorx ebx,ebp,2 vpxor ymm1,ymm1,ymm8 and ebp,ecx add eax,r12d xor ebp,edi vpsrld ymm8,ymm1,30 vpslld ymm1,ymm1,2 add esi,DWORD[((-88))+r13] andn edi,eax,ecx add esi,ebp rorx r12d,eax,27 rorx ebp,eax,2 and eax,ebx vpor ymm1,ymm1,ymm8 add esi,r12d xor eax,edi add edx,DWORD[((-84))+r13] andn edi,esi,ebx vpaddd ymm9,ymm1,ymm11 add edx,eax rorx r12d,esi,27 rorx eax,esi,2 and esi,ebp vmovdqu YMMWORD[288+rsp],ymm9 add edx,r12d xor esi,edi add ecx,DWORD[((-64))+r13] andn edi,edx,ebp add ecx,esi rorx r12d,edx,27 rorx esi,edx,2 and edx,eax add ecx,r12d xor edx,edi add ebx,DWORD[((-60))+r13] andn edi,ecx,eax add ebx,edx rorx r12d,ecx,27 rorx edx,ecx,2 and ecx,esi add ebx,r12d xor ecx,edi vpalignr ymm8,ymm1,ymm0,8 vpxor ymm2,ymm2,ymm6 add ebp,DWORD[((-56))+r13] andn edi,ebx,esi vpxor ymm2,ymm2,ymm3 vmovdqu ymm11,YMMWORD[r14] add ebp,ecx rorx r12d,ebx,27 rorx ecx,ebx,2 vpxor ymm2,ymm2,ymm8 and ebx,edx add ebp,r12d xor ebx,edi vpsrld ymm8,ymm2,30 vpslld ymm2,ymm2,2 add eax,DWORD[((-52))+r13] andn edi,ebp,edx add eax,ebx rorx r12d,ebp,27 rorx ebx,ebp,2 and ebp,ecx vpor ymm2,ymm2,ymm8 add eax,r12d xor ebp,edi add esi,DWORD[((-32))+r13] andn edi,eax,ecx vpaddd ymm9,ymm2,ymm11 add esi,ebp rorx r12d,eax,27 rorx ebp,eax,2 and eax,ebx vmovdqu YMMWORD[320+rsp],ymm9 add esi,r12d xor eax,edi add edx,DWORD[((-28))+r13] andn edi,esi,ebx add edx,eax rorx r12d,esi,27 rorx eax,esi,2 and esi,ebp add edx,r12d xor esi,edi add ecx,DWORD[((-24))+r13] andn edi,edx,ebp add ecx,esi rorx r12d,edx,27 rorx esi,edx,2 and edx,eax add ecx,r12d xor edx,edi vpalignr ymm8,ymm2,ymm1,8 vpxor ymm3,ymm3,ymm7 add ebx,DWORD[((-20))+r13] andn edi,ecx,eax vpxor ymm3,ymm3,ymm4 add ebx,edx rorx r12d,ecx,27 rorx edx,ecx,2 vpxor ymm3,ymm3,ymm8 and ecx,esi add ebx,r12d xor ecx,edi vpsrld ymm8,ymm3,30 vpslld ymm3,ymm3,2 add ebp,DWORD[r13] andn edi,ebx,esi add ebp,ecx rorx r12d,ebx,27 rorx ecx,ebx,2 and ebx,edx vpor ymm3,ymm3,ymm8 add ebp,r12d xor ebx,edi add eax,DWORD[4+r13] andn edi,ebp,edx vpaddd ymm9,ymm3,ymm11 add eax,ebx rorx r12d,ebp,27 rorx ebx,ebp,2 and ebp,ecx vmovdqu YMMWORD[352+rsp],ymm9 add eax,r12d xor ebp,edi add esi,DWORD[8+r13] andn edi,eax,ecx add esi,ebp rorx r12d,eax,27 rorx ebp,eax,2 and eax,ebx add esi,r12d xor eax,edi add edx,DWORD[12+r13] lea edx,[rax1+rdx] rorx r12d,esi,27 rorx eax,esi,2 xor esi,ebp add edx,r12d xor esi,ebx vpalignr ymm8,ymm3,ymm2,8 vpxor ymm4,ymm4,ymm0 add ecx,DWORD[32+r13] lea ecx,[rsi1+rcx] vpxor ymm4,ymm4,ymm5 rorx r12d,edx,27 rorx esi,edx,2 xor edx,eax vpxor ymm4,ymm4,ymm8 add ecx,r12d xor edx,ebp add ebx,DWORD[36+r13] vpsrld ymm8,ymm4,30 vpslld ymm4,ymm4,2 lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi add ebx,r12d xor ecx,eax vpor ymm4,ymm4,ymm8 add ebp,DWORD[40+r13] lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 vpaddd ymm9,ymm4,ymm11 xor ebx,edx add ebp,r12d xor ebx,esi add eax,DWORD[44+r13] vmovdqu YMMWORD[384+rsp],ymm9 lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d xor ebp,edx add esi,DWORD[64+r13] lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d xor eax,ecx vpalignr ymm8,ymm4,ymm3,8 vpxor ymm5,ymm5,ymm1 add edx,DWORD[68+r13] lea edx,[rax1+rdx] vpxor ymm5,ymm5,ymm6 rorx r12d,esi,27 rorx eax,esi,2 xor esi,ebp vpxor ymm5,ymm5,ymm8 add edx,r12d xor esi,ebx add ecx,DWORD[72+r13] vpsrld ymm8,ymm5,30 vpslld ymm5,ymm5,2 lea ecx,[rsi1+rcx] rorx r12d,edx,27 rorx esi,edx,2 xor edx,eax add ecx,r12d xor edx,ebp vpor ymm5,ymm5,ymm8 add ebx,DWORD[76+r13] lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 vpaddd ymm9,ymm5,ymm11 xor ecx,esi add ebx,r12d xor ecx,eax add ebp,DWORD[96+r13] vmovdqu YMMWORD[416+rsp],ymm9 lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx add ebp,r12d xor ebx,esi add eax,DWORD[100+r13] lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d xor ebp,edx vpalignr ymm8,ymm5,ymm4,8 vpxor ymm6,ymm6,ymm2 add esi,DWORD[104+r13] lea esi,[rbp1+rsi] vpxor ymm6,ymm6,ymm7 rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx vpxor ymm6,ymm6,ymm8 add esi,r12d xor eax,ecx add edx,DWORD[108+r13] lea r13,[256+r13] vpsrld ymm8,ymm6,30 vpslld ymm6,ymm6,2 lea edx,[rax1+rdx] rorx r12d,esi,27 rorx eax,esi,2 xor esi,ebp add edx,r12d xor esi,ebx vpor ymm6,ymm6,ymm8 add ecx,DWORD[((-128))+r13] lea ecx,[rsi1+rcx] rorx r12d,edx,27 rorx esi,edx,2 vpaddd ymm9,ymm6,ymm11 xor edx,eax add ecx,r12d xor edx,ebp add ebx,DWORD[((-124))+r13] vmovdqu YMMWORD[448+rsp],ymm9 lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi add ebx,r12d xor ecx,eax add ebp,DWORD[((-120))+r13] lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx add ebp,r12d xor ebx,esi vpalignr ymm8,ymm6,ymm5,8 vpxor ymm7,ymm7,ymm3 add eax,DWORD[((-116))+r13] lea eax,[rbx1+rax] vpxor ymm7,ymm7,ymm0 vmovdqu ymm11,YMMWORD[32+r14] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx vpxor ymm7,ymm7,ymm8 add eax,r12d xor ebp,edx add esi,DWORD[((-96))+r13] vpsrld ymm8,ymm7,30 vpslld ymm7,ymm7,2 lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d xor eax,ecx vpor ymm7,ymm7,ymm8 add edx,DWORD[((-92))+r13] lea edx,[rax1+rdx] rorx r12d,esi,27 rorx eax,esi,2 vpaddd ymm9,ymm7,ymm11 xor esi,ebp add edx,r12d xor esi,ebx add ecx,DWORD[((-88))+r13] vmovdqu YMMWORD[480+rsp],ymm9 lea ecx,[rsi1+rcx] rorx r12d,edx,27 rorx esi,edx,2 xor edx,eax add ecx,r12d xor edx,ebp add ebx,DWORD[((-84))+r13] mov edi,esi xor edi,eax lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi add ebx,r12d and ecx,edi jmp NEAR $L$align32_2 ALIGN 32 $L$align32_2: vpalignr ymm8,ymm7,ymm6,8 vpxor ymm0,ymm0,ymm4 add ebp,DWORD[((-64))+r13] xor ecx,esi vpxor ymm0,ymm0,ymm1 mov edi,edx xor edi,esi lea ebp,[rbp1+rcx] vpxor ymm0,ymm0,ymm8 rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx vpsrld ymm8,ymm0,30 vpslld ymm0,ymm0,2 add ebp,r12d and ebx,edi add eax,DWORD[((-60))+r13] xor ebx,edx mov edi,ecx xor edi,edx vpor ymm0,ymm0,ymm8 lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx vpaddd ymm9,ymm0,ymm11 add eax,r12d and ebp,edi add esi,DWORD[((-56))+r13] xor ebp,ecx vmovdqu YMMWORD[512+rsp],ymm9 mov edi,ebx xor edi,ecx lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d and eax,edi add edx,DWORD[((-52))+r13] xor eax,ebx mov edi,ebp xor edi,ebx lea edx,[rax1+rdx] rorx r12d,esi,27 rorx eax,esi,2 xor esi,ebp add edx,r12d and esi,edi add ecx,DWORD[((-32))+r13] xor esi,ebp mov edi,eax xor edi,ebp lea ecx,[rsi1+rcx] rorx r12d,edx,27 rorx esi,edx,2 xor edx,eax add ecx,r12d and edx,edi vpalignr ymm8,ymm0,ymm7,8 vpxor ymm1,ymm1,ymm5 add ebx,DWORD[((-28))+r13] xor edx,eax vpxor ymm1,ymm1,ymm2 mov edi,esi xor edi,eax lea ebx,[rdx1+rbx] vpxor ymm1,ymm1,ymm8 rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi vpsrld ymm8,ymm1,30 vpslld ymm1,ymm1,2 add ebx,r12d and ecx,edi add ebp,DWORD[((-24))+r13] xor ecx,esi mov edi,edx xor edi,esi vpor ymm1,ymm1,ymm8 lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx vpaddd ymm9,ymm1,ymm11 add ebp,r12d and ebx,edi add eax,DWORD[((-20))+r13] xor ebx,edx vmovdqu YMMWORD[544+rsp],ymm9 mov edi,ecx xor edi,edx lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d and ebp,edi add esi,DWORD[r13] xor ebp,ecx mov edi,ebx xor edi,ecx lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d and eax,edi add edx,DWORD[4+r13] xor eax,ebx mov edi,ebp xor edi,ebx lea edx,[rax1+rdx] rorx r12d,esi,27 rorx eax,esi,2 xor esi,ebp add edx,r12d and esi,edi vpalignr ymm8,ymm1,ymm0,8 vpxor ymm2,ymm2,ymm6 add ecx,DWORD[8+r13] xor esi,ebp vpxor ymm2,ymm2,ymm3 mov edi,eax xor edi,ebp lea ecx,[rsi1+rcx] vpxor ymm2,ymm2,ymm8 rorx r12d,edx,27 rorx esi,edx,2 xor edx,eax vpsrld ymm8,ymm2,30 vpslld ymm2,ymm2,2 add ecx,r12d and edx,edi add ebx,DWORD[12+r13] xor edx,eax mov edi,esi xor edi,eax vpor ymm2,ymm2,ymm8 lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi vpaddd ymm9,ymm2,ymm11 add ebx,r12d and ecx,edi add ebp,DWORD[32+r13] xor ecx,esi vmovdqu YMMWORD[576+rsp],ymm9 mov edi,edx xor edi,esi lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx add ebp,r12d and ebx,edi add eax,DWORD[36+r13] xor ebx,edx mov edi,ecx xor edi,edx lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d and ebp,edi add esi,DWORD[40+r13] xor ebp,ecx mov edi,ebx xor edi,ecx lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d and eax,edi vpalignr ymm8,ymm2,ymm1,8 vpxor ymm3,ymm3,ymm7 add edx,DWORD[44+r13] xor eax,ebx vpxor ymm3,ymm3,ymm4 mov edi,ebp xor edi,ebx lea edx,[rax1+rdx] vpxor ymm3,ymm3,ymm8 rorx r12d,esi,27 rorx eax,esi,2 xor esi,ebp vpsrld ymm8,ymm3,30 vpslld ymm3,ymm3,2 add edx,r12d and esi,edi add ecx,DWORD[64+r13] xor esi,ebp mov edi,eax xor edi,ebp vpor ymm3,ymm3,ymm8 lea ecx,[rsi1+rcx] rorx r12d,edx,27 rorx esi,edx,2 xor edx,eax vpaddd ymm9,ymm3,ymm11 add ecx,r12d and edx,edi add ebx,DWORD[68+r13] xor edx,eax vmovdqu YMMWORD[608+rsp],ymm9 mov edi,esi xor edi,eax lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi add ebx,r12d and ecx,edi add ebp,DWORD[72+r13] xor ecx,esi mov edi,edx xor edi,esi lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx add ebp,r12d and ebx,edi add eax,DWORD[76+r13] xor ebx,edx lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d xor ebp,edx add esi,DWORD[96+r13] lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d xor eax,ecx add edx,DWORD[100+r13] lea edx,[rax1+rdx] rorx r12d,esi,27 rorx eax,esi,2 xor esi,ebp add edx,r12d xor esi,ebx add ecx,DWORD[104+r13] lea ecx,[rsi1+rcx] rorx r12d,edx,27 rorx esi,edx,2 xor edx,eax add ecx,r12d xor edx,ebp add ebx,DWORD[108+r13] lea r13,[256+r13] lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi add ebx,r12d xor ecx,eax add ebp,DWORD[((-128))+r13] lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx add ebp,r12d xor ebx,esi add eax,DWORD[((-124))+r13] lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d xor ebp,edx add esi,DWORD[((-120))+r13] lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d xor eax,ecx add edx,DWORD[((-116))+r13] lea edx,[rax1+rdx] rorx r12d,esi,27 rorx eax,esi,2 xor esi,ebp add edx,r12d xor esi,ebx add ecx,DWORD[((-96))+r13] lea ecx,[rsi1+rcx] rorx r12d,edx,27 rorx esi,edx,2 xor edx,eax add ecx,r12d xor edx,ebp add ebx,DWORD[((-92))+r13] lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi add ebx,r12d xor ecx,eax add ebp,DWORD[((-88))+r13] lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx add ebp,r12d xor ebx,esi add eax,DWORD[((-84))+r13] lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d xor ebp,edx add esi,DWORD[((-64))+r13] lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d xor eax,ecx add edx,DWORD[((-60))+r13] lea edx,[rax1+rdx] rorx r12d,esi,27 rorx eax,esi,2 xor esi,ebp add edx,r12d xor esi,ebx add ecx,DWORD[((-56))+r13] lea ecx,[rsi1+rcx] rorx r12d,edx,27 rorx esi,edx,2 xor edx,eax add ecx,r12d xor edx,ebp add ebx,DWORD[((-52))+r13] lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi add ebx,r12d xor ecx,eax add ebp,DWORD[((-32))+r13] lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx add ebp,r12d xor ebx,esi add eax,DWORD[((-28))+r13] lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d xor ebp,edx add esi,DWORD[((-24))+r13] lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d xor eax,ecx add edx,DWORD[((-20))+r13] lea edx,[rax1+rdx] rorx r12d,esi,27 add edx,r12d lea r13,[128+r9] lea rdi,[128+r9] cmp r13,r10 cmovae r13,r9 add edx,DWORD[r8] add esi,DWORD[4+r8] add ebp,DWORD[8+r8] mov DWORD[r8],edx add ebx,DWORD[12+r8] mov DWORD[4+r8],esi mov eax,edx add ecx,DWORD[16+r8] mov r12d,ebp mov DWORD[8+r8],ebp mov edx,ebx mov DWORD[12+r8],ebx mov ebp,esi mov DWORD[16+r8],ecx mov esi,ecx mov ecx,r12d cmp r9,r10 je NEAR $L$done_avx2 vmovdqu ymm6,YMMWORD[64+r14] cmp rdi,r10 ja NEAR $L$ast_avx2 vmovdqu xmm0,XMMWORD[((-64))+rdi] vmovdqu xmm1,XMMWORD[((-48))+rdi] vmovdqu xmm2,XMMWORD[((-32))+rdi] vmovdqu xmm3,XMMWORD[((-16))+rdi] vinserti128 ymm0,ymm0,XMMWORD[r13],1 vinserti128 ymm1,ymm1,XMMWORD[16+r13],1 vinserti128 ymm2,ymm2,XMMWORD[32+r13],1 vinserti128 ymm3,ymm3,XMMWORD[48+r13],1 jmp NEAR $L$ast_avx2 ALIGN 32 $L$ast_avx2: lea r13,[((128+16))+rsp] rorx ebx,ebp,2 andn edi,ebp,edx and ebp,ecx xor ebp,edi sub r9,-128 add esi,DWORD[((-128))+r13] andn edi,eax,ecx add esi,ebp rorx r12d,eax,27 rorx ebp,eax,2 and eax,ebx add esi,r12d xor eax,edi add edx,DWORD[((-124))+r13] andn edi,esi,ebx add edx,eax rorx r12d,esi,27 rorx eax,esi,2 and esi,ebp add edx,r12d xor esi,edi add ecx,DWORD[((-120))+r13] andn edi,edx,ebp add ecx,esi rorx r12d,edx,27 rorx esi,edx,2 and edx,eax add ecx,r12d xor edx,edi add ebx,DWORD[((-116))+r13] andn edi,ecx,eax add ebx,edx rorx r12d,ecx,27 rorx edx,ecx,2 and ecx,esi add ebx,r12d xor ecx,edi add ebp,DWORD[((-96))+r13] andn edi,ebx,esi add ebp,ecx rorx r12d,ebx,27 rorx ecx,ebx,2 and ebx,edx add ebp,r12d xor ebx,edi add eax,DWORD[((-92))+r13] andn edi,ebp,edx add eax,ebx rorx r12d,ebp,27 rorx ebx,ebp,2 and ebp,ecx add eax,r12d xor ebp,edi add esi,DWORD[((-88))+r13] andn edi,eax,ecx add esi,ebp rorx r12d,eax,27 rorx ebp,eax,2 and eax,ebx add esi,r12d xor eax,edi add edx,DWORD[((-84))+r13] andn edi,esi,ebx add edx,eax rorx r12d,esi,27 rorx eax,esi,2 and esi,ebp add edx,r12d xor esi,edi add ecx,DWORD[((-64))+r13] andn edi,edx,ebp add ecx,esi rorx r12d,edx,27 rorx esi,edx,2 and edx,eax add ecx,r12d xor edx,edi add ebx,DWORD[((-60))+r13] andn edi,ecx,eax add ebx,edx rorx r12d,ecx,27 rorx edx,ecx,2 and ecx,esi add ebx,r12d xor ecx,edi add ebp,DWORD[((-56))+r13] andn edi,ebx,esi add ebp,ecx rorx r12d,ebx,27 rorx ecx,ebx,2 and ebx,edx add ebp,r12d xor ebx,edi add eax,DWORD[((-52))+r13] andn edi,ebp,edx add eax,ebx rorx r12d,ebp,27 rorx ebx,ebp,2 and ebp,ecx add eax,r12d xor ebp,edi add esi,DWORD[((-32))+r13] andn edi,eax,ecx add esi,ebp rorx r12d,eax,27 rorx ebp,eax,2 and eax,ebx add esi,r12d xor eax,edi add edx,DWORD[((-28))+r13] andn edi,esi,ebx add edx,eax rorx r12d,esi,27 rorx eax,esi,2 and esi,ebp add edx,r12d xor esi,edi add ecx,DWORD[((-24))+r13] andn edi,edx,ebp add ecx,esi rorx r12d,edx,27 rorx esi,edx,2 and edx,eax add ecx,r12d xor edx,edi add ebx,DWORD[((-20))+r13] andn edi,ecx,eax add ebx,edx rorx r12d,ecx,27 rorx edx,ecx,2 and ecx,esi add ebx,r12d xor ecx,edi add ebp,DWORD[r13] andn edi,ebx,esi add ebp,ecx rorx r12d,ebx,27 rorx ecx,ebx,2 and ebx,edx add ebp,r12d xor ebx,edi add eax,DWORD[4+r13] andn edi,ebp,edx add eax,ebx rorx r12d,ebp,27 rorx ebx,ebp,2 and ebp,ecx add eax,r12d xor ebp,edi add esi,DWORD[8+r13] andn edi,eax,ecx add esi,ebp rorx r12d,eax,27 rorx ebp,eax,2 and eax,ebx add esi,r12d xor eax,edi add edx,DWORD[12+r13] lea edx,[rax1+rdx] rorx r12d,esi,27 rorx eax,esi,2 xor esi,ebp add edx,r12d xor esi,ebx add ecx,DWORD[32+r13] lea ecx,[rsi1+rcx] rorx r12d,edx,27 rorx esi,edx,2 xor edx,eax add ecx,r12d xor edx,ebp add ebx,DWORD[36+r13] lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi add ebx,r12d xor ecx,eax add ebp,DWORD[40+r13] lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx add ebp,r12d xor ebx,esi add eax,DWORD[44+r13] lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d xor ebp,edx add esi,DWORD[64+r13] lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d xor eax,ecx vmovdqu ymm11,YMMWORD[((-64))+r14] vpshufb ymm0,ymm0,ymm6 add edx,DWORD[68+r13] lea edx,[rax1+rdx] rorx r12d,esi,27 rorx eax,esi,2 xor esi,ebp add edx,r12d xor esi,ebx add ecx,DWORD[72+r13] lea ecx,[rsi1+rcx] rorx r12d,edx,27 rorx esi,edx,2 xor edx,eax add ecx,r12d xor edx,ebp add ebx,DWORD[76+r13] lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi add ebx,r12d xor ecx,eax add ebp,DWORD[96+r13] lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx add ebp,r12d xor ebx,esi add eax,DWORD[100+r13] lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d xor ebp,edx vpshufb ymm1,ymm1,ymm6 vpaddd ymm8,ymm0,ymm11 add esi,DWORD[104+r13] lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d xor eax,ecx add edx,DWORD[108+r13] lea r13,[256+r13] lea edx,[rax1+rdx] rorx r12d,esi,27 rorx eax,esi,2 xor esi,ebp add edx,r12d xor esi,ebx add ecx,DWORD[((-128))+r13] lea ecx,[rsi1+rcx] rorx r12d,edx,27 rorx esi,edx,2 xor edx,eax add ecx,r12d xor edx,ebp add ebx,DWORD[((-124))+r13] lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi add ebx,r12d xor ecx,eax add ebp,DWORD[((-120))+r13] lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx add ebp,r12d xor ebx,esi vmovdqu YMMWORD[rsp],ymm8 vpshufb ymm2,ymm2,ymm6 vpaddd ymm9,ymm1,ymm11 add eax,DWORD[((-116))+r13] lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d xor ebp,edx add esi,DWORD[((-96))+r13] lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d xor eax,ecx add edx,DWORD[((-92))+r13] lea edx,[rax1+rdx] rorx r12d,esi,27 rorx eax,esi,2 xor esi,ebp add edx,r12d xor esi,ebx add ecx,DWORD[((-88))+r13] lea ecx,[rsi1+rcx] rorx r12d,edx,27 rorx esi,edx,2 xor edx,eax add ecx,r12d xor edx,ebp add ebx,DWORD[((-84))+r13] mov edi,esi xor edi,eax lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi add ebx,r12d and ecx,edi vmovdqu YMMWORD[32+rsp],ymm9 vpshufb ymm3,ymm3,ymm6 vpaddd ymm6,ymm2,ymm11 add ebp,DWORD[((-64))+r13] xor ecx,esi mov edi,edx xor edi,esi lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx add ebp,r12d and ebx,edi add eax,DWORD[((-60))+r13] xor ebx,edx mov edi,ecx xor edi,edx lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d and ebp,edi add esi,DWORD[((-56))+r13] xor ebp,ecx mov edi,ebx xor edi,ecx lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d and eax,edi add edx,DWORD[((-52))+r13] xor eax,ebx mov edi,ebp xor edi,ebx lea edx,[rax1+rdx] rorx r12d,esi,27 rorx eax,esi,2 xor esi,ebp add edx,r12d and esi,edi add ecx,DWORD[((-32))+r13] xor esi,ebp mov edi,eax xor edi,ebp lea ecx,[rsi1+rcx] rorx r12d,edx,27 rorx esi,edx,2 xor edx,eax add ecx,r12d and edx,edi jmp NEAR $L$align32_3 ALIGN 32 $L$align32_3: vmovdqu YMMWORD[64+rsp],ymm6 vpaddd ymm7,ymm3,ymm11 add ebx,DWORD[((-28))+r13] xor edx,eax mov edi,esi xor edi,eax lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi add ebx,r12d and ecx,edi add ebp,DWORD[((-24))+r13] xor ecx,esi mov edi,edx xor edi,esi lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx add ebp,r12d and ebx,edi add eax,DWORD[((-20))+r13] xor ebx,edx mov edi,ecx xor edi,edx lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d and ebp,edi add esi,DWORD[r13] xor ebp,ecx mov edi,ebx xor edi,ecx lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d and eax,edi add edx,DWORD[4+r13] xor eax,ebx mov edi,ebp xor edi,ebx lea edx,[rax1+rdx] rorx r12d,esi,27 rorx eax,esi,2 xor esi,ebp add edx,r12d and esi,edi vmovdqu YMMWORD[96+rsp],ymm7 add ecx,DWORD[8+r13] xor esi,ebp mov edi,eax xor edi,ebp lea ecx,[rsi1+rcx] rorx r12d,edx,27 rorx esi,edx,2 xor edx,eax add ecx,r12d and edx,edi add ebx,DWORD[12+r13] xor edx,eax mov edi,esi xor edi,eax lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi add ebx,r12d and ecx,edi add ebp,DWORD[32+r13] xor ecx,esi mov edi,edx xor edi,esi lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx add ebp,r12d and ebx,edi add eax,DWORD[36+r13] xor ebx,edx mov edi,ecx xor edi,edx lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d and ebp,edi add esi,DWORD[40+r13] xor ebp,ecx mov edi,ebx xor edi,ecx lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d and eax,edi vpalignr ymm4,ymm1,ymm0,8 add edx,DWORD[44+r13] xor eax,ebx mov edi,ebp xor edi,ebx vpsrldq ymm8,ymm3,4 lea edx,[rax1+rdx] rorx r12d,esi,27 rorx eax,esi,2 vpxor ymm4,ymm4,ymm0 vpxor ymm8,ymm8,ymm2 xor esi,ebp add edx,r12d vpxor ymm4,ymm4,ymm8 and esi,edi add ecx,DWORD[64+r13] xor esi,ebp mov edi,eax vpsrld ymm8,ymm4,31 xor edi,ebp lea ecx,[rsi1+rcx] rorx r12d,edx,27 vpslldq ymm10,ymm4,12 vpaddd ymm4,ymm4,ymm4 rorx esi,edx,2 xor edx,eax vpsrld ymm9,ymm10,30 vpor ymm4,ymm4,ymm8 add ecx,r12d and edx,edi vpslld ymm10,ymm10,2 vpxor ymm4,ymm4,ymm9 add ebx,DWORD[68+r13] xor edx,eax vpxor ymm4,ymm4,ymm10 mov edi,esi xor edi,eax lea ebx,[rdx1+rbx] vpaddd ymm9,ymm4,ymm11 rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi vmovdqu YMMWORD[128+rsp],ymm9 add ebx,r12d and ecx,edi add ebp,DWORD[72+r13] xor ecx,esi mov edi,edx xor edi,esi lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx add ebp,r12d and ebx,edi add eax,DWORD[76+r13] xor ebx,edx lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d xor ebp,edx vpalignr ymm5,ymm2,ymm1,8 add esi,DWORD[96+r13] lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 vpsrldq ymm8,ymm4,4 xor eax,ebx add esi,r12d xor eax,ecx vpxor ymm5,ymm5,ymm1 vpxor ymm8,ymm8,ymm3 add edx,DWORD[100+r13] lea edx,[rax1+rdx] vpxor ymm5,ymm5,ymm8 rorx r12d,esi,27 rorx eax,esi,2 xor esi,ebp add edx,r12d vpsrld ymm8,ymm5,31 vmovdqu ymm11,YMMWORD[((-32))+r14] xor esi,ebx add ecx,DWORD[104+r13] lea ecx,[rsi1+rcx] vpslldq ymm10,ymm5,12 vpaddd ymm5,ymm5,ymm5 rorx r12d,edx,27 rorx esi,edx,2 vpsrld ymm9,ymm10,30 vpor ymm5,ymm5,ymm8 xor edx,eax add ecx,r12d vpslld ymm10,ymm10,2 vpxor ymm5,ymm5,ymm9 xor edx,ebp add ebx,DWORD[108+r13] lea r13,[256+r13] vpxor ymm5,ymm5,ymm10 lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 vpaddd ymm9,ymm5,ymm11 xor ecx,esi add ebx,r12d xor ecx,eax vmovdqu YMMWORD[160+rsp],ymm9 add ebp,DWORD[((-128))+r13] lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx add ebp,r12d xor ebx,esi vpalignr ymm6,ymm3,ymm2,8 add eax,DWORD[((-124))+r13] lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 vpsrldq ymm8,ymm5,4 xor ebp,ecx add eax,r12d xor ebp,edx vpxor ymm6,ymm6,ymm2 vpxor ymm8,ymm8,ymm4 add esi,DWORD[((-120))+r13] lea esi,[rbp1+rsi] vpxor ymm6,ymm6,ymm8 rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d vpsrld ymm8,ymm6,31 xor eax,ecx add edx,DWORD[((-116))+r13] lea edx,[rax1+rdx] vpslldq ymm10,ymm6,12 vpaddd ymm6,ymm6,ymm6 rorx r12d,esi,27 rorx eax,esi,2 vpsrld ymm9,ymm10,30 vpor ymm6,ymm6,ymm8 xor esi,ebp add edx,r12d vpslld ymm10,ymm10,2 vpxor ymm6,ymm6,ymm9 xor esi,ebx add ecx,DWORD[((-96))+r13] vpxor ymm6,ymm6,ymm10 lea ecx,[rsi1+rcx] rorx r12d,edx,27 rorx esi,edx,2 vpaddd ymm9,ymm6,ymm11 xor edx,eax add ecx,r12d xor edx,ebp vmovdqu YMMWORD[192+rsp],ymm9 add ebx,DWORD[((-92))+r13] lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi add ebx,r12d xor ecx,eax vpalignr ymm7,ymm4,ymm3,8 add ebp,DWORD[((-88))+r13] lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 vpsrldq ymm8,ymm6,4 xor ebx,edx add ebp,r12d xor ebx,esi vpxor ymm7,ymm7,ymm3 vpxor ymm8,ymm8,ymm5 add eax,DWORD[((-84))+r13] lea eax,[rbx1+rax] vpxor ymm7,ymm7,ymm8 rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d vpsrld ymm8,ymm7,31 xor ebp,edx add esi,DWORD[((-64))+r13] lea esi,[rbp1+rsi] vpslldq ymm10,ymm7,12 vpaddd ymm7,ymm7,ymm7 rorx r12d,eax,27 rorx ebp,eax,2 vpsrld ymm9,ymm10,30 vpor ymm7,ymm7,ymm8 xor eax,ebx add esi,r12d vpslld ymm10,ymm10,2 vpxor ymm7,ymm7,ymm9 xor eax,ecx add edx,DWORD[((-60))+r13] vpxor ymm7,ymm7,ymm10 lea edx,[rax1+rdx] rorx r12d,esi,27 rorx eax,esi,2 vpaddd ymm9,ymm7,ymm11 xor esi,ebp add edx,r12d xor esi,ebx vmovdqu YMMWORD[224+rsp],ymm9 add ecx,DWORD[((-56))+r13] lea ecx,[rsi1+rcx] rorx r12d,edx,27 rorx esi,edx,2 xor edx,eax add ecx,r12d xor edx,ebp add ebx,DWORD[((-52))+r13] lea ebx,[rdx1+rbx] rorx r12d,ecx,27 rorx edx,ecx,2 xor ecx,esi add ebx,r12d xor ecx,eax add ebp,DWORD[((-32))+r13] lea ebp,[rbp1+rcx] rorx r12d,ebx,27 rorx ecx,ebx,2 xor ebx,edx add ebp,r12d xor ebx,esi add eax,DWORD[((-28))+r13] lea eax,[rbx1+rax] rorx r12d,ebp,27 rorx ebx,ebp,2 xor ebp,ecx add eax,r12d xor ebp,edx add esi,DWORD[((-24))+r13] lea esi,[rbp1+rsi] rorx r12d,eax,27 rorx ebp,eax,2 xor eax,ebx add esi,r12d xor eax,ecx add edx,DWORD[((-20))+r13] lea edx,[rax1+rdx] rorx r12d,esi,27 add edx,r12d lea r13,[128+rsp] add edx,DWORD[r8] add esi,DWORD[4+r8] add ebp,DWORD[8+r8] mov DWORD[r8],edx add ebx,DWORD[12+r8] mov DWORD[4+r8],esi mov eax,edx add ecx,DWORD[16+r8] mov r12d,ebp mov DWORD[8+r8],ebp mov edx,ebx mov DWORD[12+r8],ebx mov ebp,esi mov DWORD[16+r8],ecx mov esi,ecx mov ecx,r12d cmp r9,r10 jbe NEAR $L$oop_avx2 $L$done_avx2: vzeroupper movaps xmm6,XMMWORD[((-40-96))+r11] movaps xmm7,XMMWORD[((-40-80))+r11] movaps xmm8,XMMWORD[((-40-64))+r11] movaps xmm9,XMMWORD[((-40-48))+r11] movaps xmm10,XMMWORD[((-40-32))+r11] movaps xmm11,XMMWORD[((-40-16))+r11] mov r14,QWORD[((-40))+r11] mov r13,QWORD[((-32))+r11] mov r12,QWORD[((-24))+r11] mov rbp,QWORD[((-16))+r11] mov rbx,QWORD[((-8))+r11] lea rsp,[r11] $L$epilogue_avx2: mov rdi,QWORD[8+rsp] ;WIN64 epilogue mov rsi,QWORD[16+rsp] ret $L$SEH_end_sha1_block_data_order_avx2: section .rdata rdata align=8 ALIGN 64 K_XX_XX: DD 0x5a827999,0x5a827999,0x5a827999,0x5a827999 DD 0x5a827999,0x5a827999,0x5a827999,0x5a827999 DD 0x6ed9eba1,0x6ed9eba1,0x6ed9eba1,0x6ed9eba1 DD 0x6ed9eba1,0x6ed9eba1,0x6ed9eba1,0x6ed9eba1 DD 0x8f1bbcdc,0x8f1bbcdc,0x8f1bbcdc,0x8f1bbcdc DD 0x8f1bbcdc,0x8f1bbcdc,0x8f1bbcdc,0x8f1bbcdc DD 0xca62c1d6,0xca62c1d6,0xca62c1d6,0xca62c1d6 DD 0xca62c1d6,0xca62c1d6,0xca62c1d6,0xca62c1d6 DD 0x00010203,0x04050607,0x08090a0b,0x0c0d0e0f DD 0x00010203,0x04050607,0x08090a0b,0x0c0d0e0f DB 0xf,0xe,0xd,0xc,0xb,0xa,0x9,0x8,0x7,0x6,0x5,0x4,0x3,0x2,0x1,0x0 DB 83,72,65,49,32,98,108,111,99,107,32,116,114,97,110,115 DB 102,111,114,109,32,102,111,114,32,120,56,54,95,54,52,44 DB 32,67,82,89,80,84,79,71,65,77,83,32,98,121,32,60 DB 97,112,112,114,111,64,111,112,101,110,115,115,108,46,111,114 DB 103,62,0 ALIGN 64 section .text EXTERN __imp_RtlVirtualUnwind ALIGN 16 se_handler: push rsi push rdi push rbx push rbp push r12 push r13 push r14 push r15 pushfq sub rsp,64 mov rax,QWORD[120+r8] mov rbx,QWORD[248+r8] lea r10,[$L$prologue] cmp rbx,r10 jb NEAR $L$common_seh_tail mov rax,QWORD[152+r8] lea r10,[$L$epilogue] cmp rbx,r10 jae NEAR $L$common_seh_tail mov rax,QWORD[64+rax] mov rbx,QWORD[((-8))+rax] mov rbp,QWORD[((-16))+rax] mov r12,QWORD[((-24))+rax] mov r13,QWORD[((-32))+rax] mov r14,QWORD[((-40))+rax] mov QWORD[144+r8],rbx mov QWORD[160+r8],rbp mov QWORD[216+r8],r12 mov QWORD[224+r8],r13 mov QWORD[232+r8],r14 jmp NEAR $L$common_seh_tail ALIGN 16 shaext_handler: push rsi push rdi push rbx push rbp push r12 push r13 push r14 push r15 pushfq sub rsp,64 mov rax,QWORD[120+r8] mov rbx,QWORD[248+r8] lea r10,[$L$prologue_shaext] cmp rbx,r10 jb NEAR $L$common_seh_tail lea r10,[$L$epilogue_shaext] cmp rbx,r10 jae NEAR $L$common_seh_tail lea rsi,[((-8-64))+rax] lea rdi,[512+r8] mov ecx,8 DD 0xa548f3fc jmp NEAR $L$common_seh_tail ALIGN 16 ssse3_handler: push rsi push rdi push rbx push rbp push r12 push r13 push r14 push r15 pushfq sub rsp,64 mov rax,QWORD[120+r8] mov rbx,QWORD[248+r8] mov rsi,QWORD[8+r9] mov r11,QWORD[56+r9] mov r10d,DWORD[r11] lea r10,[r101+rsi] cmp rbx,r10 jb NEAR $L$common_seh_tail mov rax,QWORD[208+r8] mov r10d,DWORD[4+r11] lea r10,[r101+rsi] cmp rbx,r10 jae NEAR $L$common_seh_tail lea rsi,[((-40-96))+rax] lea rdi,[512+r8] mov ecx,12 DD 0xa548f3fc mov rbx,QWORD[((-8))+rax] mov rbp,QWORD[((-16))+rax] mov r12,QWORD[((-24))+rax] mov r13,QWORD[((-32))+rax] mov r14,QWORD[((-40))+rax] mov QWORD[144+r8],rbx mov QWORD[160+r8],rbp mov QWORD[216+r8],r12 mov QWORD[224+r8],r13 mov QWORD[232+r8],r14 $L$common_seh_tail: mov rdi,QWORD[8+rax] mov rsi,QWORD[16+rax] mov QWORD[152+r8],rax mov QWORD[168+r8],rsi mov QWORD[176+r8],rdi mov rdi,QWORD[40+r9] mov rsi,r8 mov ecx,154 DD 0xa548f3fc mov rsi,r9 xor rcx,rcx mov rdx,QWORD[8+rsi] mov r8,QWORD[rsi] mov r9,QWORD[16+rsi] mov r10,QWORD[40+rsi] lea r11,[56+rsi] lea r12,[24+rsi] mov QWORD[32+rsp],r10 mov QWORD[40+rsp],r11 mov QWORD[48+rsp],r12 mov QWORD[56+rsp],rcx call QWORD[__imp_RtlVirtualUnwind] mov eax,1 add rsp,64 popfq pop r15 pop r14 pop r13 pop r12 pop rbp pop rbx pop rdi pop rsi ret section .pdata rdata align=4 ALIGN 4 DD $L$SEH_begin_sha1_block_data_order_nohw wrt ..imagebase DD $L$SEH_end_sha1_block_data_order_nohw wrt ..imagebase DD $L$SEH_info_sha1_block_data_order_nohw wrt ..imagebase DD $L$SEH_begin_sha1_block_data_order_hw wrt ..imagebase DD $L$SEH_end_sha1_block_data_order_hw wrt ..imagebase DD $L$SEH_info_sha1_block_data_order_hw wrt ..imagebase DD $L$SEH_begin_sha1_block_data_order_ssse3 wrt ..imagebase DD $L$SEH_end_sha1_block_data_order_ssse3 wrt ..imagebase DD $L$SEH_info_sha1_block_data_order_ssse3 wrt ..imagebase DD $L$SEH_begin_sha1_block_data_order_avx wrt ..imagebase DD $L$SEH_end_sha1_block_data_order_avx wrt ..imagebase DD $L$SEH_info_sha1_block_data_order_avx wrt ..imagebase DD $L$SEH_begin_sha1_block_data_order_avx2 wrt ..imagebase DD $L$SEH_end_sha1_block_data_order_avx2 wrt ..imagebase DD $L$SEH_info_sha1_block_data_order_avx2 wrt ..imagebase section .xdata rdata align=8 ALIGN 8 $L$SEH_info_sha1_block_data_order_nohw: DB 9,0,0,0 DD se_handler wrt ..imagebase $L$SEH_info_sha1_block_data_order_hw: DB 9,0,0,0 DD shaext_handler wrt ..imagebase $L$SEH_info_sha1_block_data_order_ssse3: DB 9,0,0,0 DD ssse3_handler wrt ..imagebase DD $L$prologue_ssse3 wrt ..imagebase,$L$epilogue_ssse3 wrt ..imagebase $L$SEH_info_sha1_block_data_order_avx: DB 9,0,0,0 DD ssse3_handler wrt ..imagebase DD $L$prologue_avx wrt ..imagebase,$L$epilogue_avx wrt ..imagebase $L$SEH_info_sha1_block_data_order_avx2: DB 9,0,0,0 DD ssse3_handler wrt ..imagebase DD $L$prologue_avx2 wrt ..imagebase,$L$epilogue_avx2 wrt ..imagebase %else ; Work around path_to_url ret %endif ```
Hangenbieten is a commune in the Bas-Rhin department and Grand Est region of north-eastern France. The name is a contraction of the former Hangenbietenheim. Geography Hangenbieten lies 2 km north of Strasbourg Airport and 10 km west of central Strasbourg. The village is traversed by the Canal de la Bruche, built by Vauban following King Louis XIV of France's annexation of the Prince-Bishopric of Strasbourg in 1681. The canal connects Strasbourg to Molsheim and is followed by a cycle path. See also Communes of the Bas-Rhin department References Bas-Rhin communes articles needing translation from French Wikipedia Communes of Bas-Rhin
Sophie Helene Henriette Keller née Rung (1850–1929) was a Danish operatic soprano, musician and singing teacher, who performed at the Royal Danish Theatre in Copenhagen from 1869. She founded both a conservatory for women and a women's concert association. Biography Born in Copenhagen on 14 November 1850, Sophie Rung was the daughter of the composer Henrik Rung (1807–71) and the opera singer Frederikke Charlotte Pauline Lichtenstein (1818–90), generally known as Pauline Rung. Raised in a musical family, she learnt to play the guitar, piano and organ. When she was 13, her father, who was singing master at the Royal Theatre, gave her singing lessons. He later sent her to Italy where she was taught by Francesco Lamperti in Milan and Pietro Romani in Florence. In 1877, she married the lawyer Emil Charles Thorvald Keller. Their son, P. S. Rung-Keller (1879–1966), was a composer. After appearing in her father's concerts at the Cæcilia Society, she made her début at the Royal Theatre when she was 19 as Agathe in Carl Maria von Weber's Der Freischütz. She was complemented on following in her mother's footsteps and on her well-trained vocal competence. While her singing was highly appreciated, she was less proficient as an actress, although she improved with experience. Known primarily as a mezzo-soprano, she also sang a number of soprano parts in Mozart's operas, such as Donna Anna, Donna Elvia and Almaviva, as well as Leonora in Il trovatore and Beethoven's Fidelio. She also performed in several Wagnerian operas. In 1888, together with Fanny Gætje, she founded Kjøbenhavns Sang- og Musikkonservatorium for Damer (Copenhagen's Song and Music Conservatory for Ladies). In connection with her jubilee in 1894, she was given the status of Kongelig Kammersanger (Royal Chamber Singer). On retiring from the Royal Theatre in 1895, she founded the Privat kvindelig Koncertforening (Private Women's Concert Society) which ran to 130 members for the orchestra and choir. She is also remembered as a teacher, with students including Elisabeth Dons, Emilie Ulrich, Ida Møller, Fanny Gætje and Ingeborg Steffensen. Sophie Keller died in Copenhagen on 1 May 1929. She is buried in Copenhagen's Assistens Cemetery. References See also 19th-century Danish women opera singers 20th-century Danish opera singers Danish operatic sopranos 1850 births 1929 deaths Singers from Copenhagen 20th-century Danish women opera singers Burials at Assistens Cemetery (Copenhagen)
Albert Andrew Watrous (February 1, 1899 – December 3, 1983) was an American professional golfer who played on the PGA Tour in the 1920s and 1930s. Early life Born in Yonkers, New York, of Polish descent, Watrous moved to Michigan at an early age and played on the first two Ryder Cup teams in 1927 and 1929. Watrous was the club pro at Oakland Hills Country Club in Bloomfield Hills, Michigan, for 37 years. Watrous had tremendous success in Michigan events, winning the Michigan PGA Championship nine times and the Michigan Open six times. 1926 Open Championship Watrous never won a major championship, but came very close in the 1926 Open Championship at Royal Lytham & St Annes Golf Club. Playing with Bobby Jones in the final round, and tied with him, Watrous hit the green in two shots on the difficult par-4 17th hole, with Jones in trouble after his tee shot finished in sandy dunes and tall grass far left of the fairway. But from this very difficult position, Jones hit one of the greatest recovery shots in golf history from 175 yards, as his ball finished on the green nearer than Watrous', who three-putted, and finished second to Jones. Watrous did win the PGA Seniors Championship three times after he turned 50. Legacy and death On June 14, 1979, Watrous was inducted into the National Polish-American Sports Hall of Fame and Museum. In 1982, he was inducted with the charter class at the Michigan Golf Hall of Fame. A collegiate golf tournament named in his honor, the Al Watrous Memorial Intercollegiate Invitational, was first played in 2009. Watrous died on December 3, 1983, in Royal Oak, Michigan. Professional wins PGA Tour wins (8) 1922 (1) Canadian Open 1925 (2) South Central Open, Corpus Christi Open 1927 (1) one win 1929 (1) one win 1932 (2) Mid-South Open (tie with Henry Picard and Al Houghton), Mid-South Bestball (with Tommy Armour) 1933 (1) Lakeland Open Source Other wins Note: This list is probably incomplete. 1922 Michigan PGA Championship 1924 Michigan PGA Championship 1926 Michigan Open 1927 Michigan Open 1929 Michigan Open 1930 Michigan Open 1932 Michigan PGA Championship 1936 Michigan PGA Championship 1938 Michigan PGA Championship 1939 Michigan PGA Championship 1941 Michigan PGA Championship 1943 Michigan Open 1949 Michigan Open 1952 Michigan PGA Championship, Michigan Pro-Am 1954 Michigan PGA Championship, Michigan Pro-Am Senior wins 1950 PGA Seniors' Championship 1951 PGA Seniors' Championship 1953 Michigan PGA Senior Championship 1954 Michigan PGA Senior Championship 1956 Michigan PGA Senior Championship 1957 PGA Seniors' Championship, Michigan PGA Senior Championship, World Senior Championship 1961 Michigan PGA Senior Championship Results in major championships NYF = tournament not yet founded NT = no tournament WD = withdrew CUT = missed the half-way cut R64, R32, R16, QF, SF = round in which player lost in PGA Championship match play "T" indicates a tie for a place Summary Most consecutive cuts made – 23 (1926 Open Championship – 1937 Masters) Longest streak of top-10s – 2 (1929 Open Championship – 1929 PGA) See also List of golfers with most PGA Tour wins References American male golfers PGA Tour golfers Ryder Cup competitors for the United States Golfers from Michigan American people of Polish descent Sportspeople from Yonkers, New York 1899 births 1983 deaths
Judith F. Kroll is a Distinguished Professor of Language Science at University of California, Irvine. She specializes in psycholinguistics, focusing on second language acquisition and bilingual language processing. With Randi Martin and Suparna Rajaram, Kroll co-founded the organization Women in Cognitive Science in 2001. She is a Fellow of the American Association for the Advancement of Science (AAAS), the American Psychological Association (APA), the Psychonomic Society, the Society of Experimental Psychologists, and the Association for Psychological Science (APS). Biography Judith Kroll received an A.B. (1970) in Psychology with a minor in Mathematics from New York University. She completed an M.A. (1972) and PhD (1977) in Cognitive Psychology at Brandeis University, supervised by Maurice Hershenson. Kroll held faculty positions at Swarthmore College (1977-1978), Rutgers University (1978-1981) and Mount Holyoke College (1981-1994), prior to moving to Pennsylvania State University (1994-2016), where she directed the Center for Language Science. Kroll moved her lab to University of California, Riverside (UCR) in 2016 and then to University of California, Irvine (UCI) in 2019. With colleagues from UCR and Penn State, she is Co-Principal Investigator of a Partnerships for International Research and Education (PIRE) grant to provide training for language scientists to pursue research on bilingualism. Kroll is married to David A. Rosenbaum, a professor of psychology at UCR. Research Kroll's research program examines the cognitive processes underlying bilingualism. Her research has been supported by The National Science Foundation (NSF) and The National Institutes of Health (NIH). With Annette de Groot, she co-edited the Handbook of Bilingualism: Psycholinguistic Approaches. In 2013, Kroll was awarded a Guggenheim Fellowship to conduct research exploring how learning a second language and becoming a bilingual person impacts processing of one's native language. One of Kroll's research foci has to do with language selection in bilingual speech. She discovered that when one language is spoken, both languages are active. Select publications Kroll, J. F., & Bialystok, E. (2013). Understanding the consequences of bilingualism for language processing and cognition. Journal of Cognitive Psychology, 25(5), 497–514. Kroll, J. F., Bobb, S. C., & Wodniecka, Z. (2006). Language selectivity is the exception, not the rule: Arguments against a fixed locus of language selection in bilingual speech. Bilingualism: Language and Cognition, 9(2), 119–135. Kroll, J. F., Michael, E., Tokowicz, N., & Dufour, R. (2002). The development of lexical fluency in a second language. Second language Research, 18(2), 137–171. Kroll, J. F., & Potter, M. C. (1984). Recognizing words, pictures, and concepts: A comparison of lexical, object, and reality decisions. Journal of Memory and Language, 23(1), 39–66. Kroll, J. F., & Stewart, E. (1994). Category interference in translation and picture naming: Evidence for asymmetric connections between bilingual memory representations. Journal of Memory and Language, 33(2), 149–174. References External links Faculty page Bilingualism, Mind, and Brain lab 21st-century American psychologists American women psychologists Psycholinguists Women's studies academics Bilingualism and second-language acquisition researchers Pennsylvania State University faculty University of California, Riverside faculty Year of birth missing (living people) Living people Brandeis University alumni New York University alumni Swarthmore College faculty Mount Holyoke College faculty
```php <?php /* * * * path_to_url * * Unless required by applicable law or agreed to in writing, software * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the / namespace Google\Service\Games; class PlayerExperienceInfo extends \Google\Model { /* * @var string / public $currentExperiencePoints; protected $currentLevelType = PlayerLevel::class; protected $currentLevelDataType = ''; /* * @var string / public $kind; /* * @var string / public $lastLevelUpTimestampMillis; protected $nextLevelType = PlayerLevel::class; protected $nextLevelDataType = ''; /* * @param string / public function setCurrentExperiencePoints($currentExperiencePoints) { $this->currentExperiencePoints = $currentExperiencePoints; } /* * @return string / public function getCurrentExperiencePoints() { return $this->currentExperiencePoints; } /* * @param PlayerLevel / public function setCurrentLevel(PlayerLevel $currentLevel) { $this->currentLevel = $currentLevel; } /* * @return PlayerLevel / public function getCurrentLevel() { return $this->currentLevel; } /* * @param string / public function setKind($kind) { $this->kind = $kind; } /* * @return string / public function getKind() { return $this->kind; } /* * @param string / public function setLastLevelUpTimestampMillis($lastLevelUpTimestampMillis) { $this->lastLevelUpTimestampMillis = $lastLevelUpTimestampMillis; } /* * @return string / public function getLastLevelUpTimestampMillis() { return $this->lastLevelUpTimestampMillis; } /* * @param PlayerLevel / public function setNextLevel(PlayerLevel $nextLevel) { $this->nextLevel = $nextLevel; } /* * @return PlayerLevel */ public function getNextLevel() { return $this->nextLevel; } } // Adding a class alias for backwards compatibility with the previous class name. class_alias(PlayerExperienceInfo::class, 'Google_Service_Games_PlayerExperienceInfo'); ```
Ferdinand David (May 30, 1824 – July 16, 1883) was a building contractor and political figure in Quebec. He represented Montréal-Est in the Legislative Assembly of Quebec from 1871 to 1875 as a Conservative member. He was born Ferdinand-Conon David in Sault-au-Récollet, Lower Canada, the son of David-Fleury David and Cécile Poitras. He was educated locally, also learning the trade of carpentry, and later worked as a painter and coach-builder in Montreal. David then worked as a building contractor before joining a firm with Sévère Rivard, lawyer Gustave-Adolphe Drolet and architect Michel Laurent which specialized in real estate and house construction. He served on Montreal city council from 1861 to 1877; David served as chairman of the roads committee and ran unsuccessfully for the post of mayor. He was married twice: to Olive Boyer, dit Quintal in 1844 and to Sophie Homier, the widow of Joseph Papin, in 1868. David was involved in the temperance movement of the time. He also was vice-president of the Saint-Jean-Baptiste Society at Montreal, president of the Société de l’Union Saint-Joseph de Montréal and the Société de Colonisation de Montréal, and a director of the Montreal Northern Colonization Railway. He died in Montreal at the age of 59 and was buried in the Notre Dame des Neiges Cemetery. References 1824 births 1883 deaths Quebec Liberal Party MNAs Burials at Notre Dame des Neiges Cemetery
Empresa Nacional de Electricidad (ENDE) () is a Bolivian public company that supplies electricity based in Cochabamba, Bolivia. Is engaged in the generation, transmission and distribution of electricity in Bolivia, is supervised and regulated by the Autoridad de Fiscalización y Control Social de Electricidad. History It was created on February 9, 1962, by means of Supreme Decree No. 5999 and constituted on December 21, 1964. On February 4, 1965, it acquired legal personality through Supreme Resolution No. 127462, and on July 16, 2008, was refounded by Supreme Decree No. 29644. Its headquarters are located in Cochabamba. Services The company is mainly engaged in the construction of Electric Dams to generate electricity. References External links Bolivian companies established in 1962 Energy companies of Bolivia Government-owned companies of Bolivia
The coastal cutthroat trout (Oncorhynchus clarkii clarkii), also known as the sea-run cutthroat trout, blue-back trout or harvest trout, is one of the several subspecies of cutthroat trout found in Western North America. The coastal cutthroat trout occurs in four distinct forms. A semi-anadromous or sea-run form is the most well known. Freshwater forms occur in both large and small rivers and streams and lake environments. The native range of the coastal cutthroat trout extends south from the southern coastline of the Kenai Peninsula in Alaska to the Eel River in Northern California. Coastal cutthroat trout are resident in tributary streams and rivers of the Pacific basin and are rarely found more than from the ocean. Adults migrate from the ocean to spawn in fresh water. Juveniles migrate to the sea where they feed and become sexually mature before returning to fresh water to overwinter and spawn. Unlike steelhead and Pacific salmon, coastal cutthroat do not make lengthy migrations out to sea. Generally speaking, coastal cutthroat will remain in or near estuarine waters, usually within of their natal stream. Some cutthroat, however, have been shown to move as far as into the open ocean. There are also lacustrine and riverine populations that spend their entire lives in freshwater. One such population is the trout of Lake Crescent in Washington state that was formerly considered to be a separate subspecies called the Lake Crescent cutthroat trout, Oncorhynchus clarkii crescenti. Taxonomy Cutthroat trout were given the name Salmo clarkii in honor of William Clark, who co-led the expedition of 1804–1806. One of Lewis and Clark's missions was to describe the flora and fauna encountered during the expedition. The type specimen of S. clarki was described by naturalist John Richardson from a tributary of the lower Columbia River, identified as the "Katpootl", which was perhaps the Lewis River as there was a Multnomah village of similar name at the confluence. This type specimen was most likely the coastal cutthroat subspecies. In 1989, morphological and genetic studies by Gerald R. Smith, the Curator of Fishes at the Museum of Zoology, and Ralph F. Stearley, a doctoral candidate at Museum of Paleontology (University of Michigan) indicated trout of the Pacific basin were genetically closer to Pacific salmon (Oncorhynchus species) than to the Salmos–brown trout (S. trutta) or Atlantic salmon (S. salar) of the Atlantic basin. Thus, in 1989, taxonomic authorities moved the rainbow, cutthroat and other Pacific basin trout into the genus Oncorhynchus. Description Freshwater forms of the coastal cutthroat trout are generally dark green to greenish-blue on back, olive-green on upper flank, silvery on lower flank and belly. They display more numerous flank spots below lateral line, irregular spots on dorsal, adipose and caudal fins and the anal, pectoral and pelvic fin bases. The gill covers are pinkish. Sea-run forms while in salt water and shortly after returning to fresh water are silvery with a bluish back, yellowish lower flanks and fins, and display sparse spots. Cutthroats usually display distinctive red, pink, or orange linear marks along the undersides of their mandibles in the lower folds of the gill plates. These markings are responsible for the common name "cutthroat" given to the trout by outdoor writer Charles Hallock in an 1884 article in The American Angler., although the red slashes are not unique to the cutthroat trout and some coastal rainbow trout and redband trout also display throat slashes. The sea-run forms of coastal cutthroat average , while stream-resident forms attain much smaller sizes . Lifecycle Coastal cutthroat trout usually inhabit and spawn in small to moderately large, clear, well-oxygenated, shallow rivers with gravel bottoms. They are native to the alluvial or freestone streams that are typical tributaries of the Pacific Basin. They typically spawn from December through June, with peak spawning in February. Eggs begin to hatch within six to seven weeks of spawning. Spawning begins when water temperatures reach . Depending on temperature, alevins emerge as fry between March and June, with peak emergence in mid-April. Lake-resident coastal cutthroat trout are usually found in moderately deep, cool lakes with adequate shallows and vegetation for good food production. Lake populations generally require access to gravel-bottomed streams to be self-sustaining, but occasionally spawn on shallow gravel beds with good water circulation. Cutthroat trout naturally interbreed with the closely related rainbow trout, producing fertile hybrids commonly called "cutbows" although this is a much rarer occurrence with the coastal cutthroat trout because of reproductive isolation as the coastal cutthroat trout is the only cutthroat subspecies to coevolve through its entire range with the coastal rainbow trout (O. mykiss irideus). As this hybrid generally bears similar coloration and overall appearance to the cutthroat, retaining the characteristic orange-red slash, these hybrids often pose a taxonomic difficulty. Range and habitat The native range of the coastal cutthroat trout extends south from the southern coastline of the Kenai Peninsula in Alaska to the Eel River in Northern California. Coastal cutthroat trout are resident in tributary streams and rivers of the Pacific basin and are rarely found more than from the ocean. Semi-anadromous, stream resident, fluvial and lake resident forms exist. The great majority of coastal cutthroat trout habitat coincides with the belt of Pacific coast coniferous rainforest that extends from Alaska southward into Northern California. Coastal cutthroat trout use a large variety of habitat types, including lower and upper reaches of both large and small river systems, estuaries, sloughs, ponds, lakes, and near shore ocean waters. They spend more time in fresh water environments than other anadromous Pacific salmonids. In fresh water they prefer deeper pool habitat and cover, such as that formed by woody debris. The semi-anadromous forms of coastal cutthroat trout do not overwinter in saltwater and rarely make extended migrations across large bodies of water. Migrations in the marine environment are usually within of land. Semi-anadromous coastal cutthroat typically spend two to five years rearing in fresh water before making their initial migration into saltwater. Generally, semi-anadromous coastal cutthroat trout spend short periods offshore during summer months and return to estuaries and fresh water by fall or winter. Conservation status The coastal cutthroat is a secure subspecies of the cutthroat trout. Although there has been a general population decline of the sea-run form throughout its native range since the 19th century, none of the populations in the United States or British Columbia are considered threatened or endangered. The U.S. Fish and Wildlife Service, in cooperation with the U.S. Environmental Protection Agency, National Marine Fisheries Service and state wildlife agencies has designated ten distinct population segments (DPS) from Alaska to California. A comprehensive status review of the DPSs in 1999 determined that only one DPS, the Southwestern Washington/Columbia River DPS be proposed for threatened status under the Endangered Species Act. On July 5, 2002, after lengthy public comment and scientific evaluation, the U.S. Fish and Wildlife service withdrew its proposal to list the Southwestern Washington/Columbia River DPS as threatened. Stream resident, fluvial and lake forms are secure within their native range and supplemented by stocking of hatchery raised fish in Washington and Oregon. Notes Further reading coastal cutthroat trout Cold water fish Sport fish Fish of Canada Fish of the Western United States Fauna of the Northwestern United States coastal cutthroat trout
In United States patent law, incredible utility is a concept according to which, in order for an invention to be patentable, it must have some credible useful function. If it does not have a credible useful function despite the assertions of the inventor, then the application for patent can be rejected as having "incredible utility". The invention does not have to work the way the inventor thinks it works, but it must do something useful. Patents that have been held invalid for incredible utility include: an invention asserted to change the taste of food using a magnetic field (Fregeau v. Mossinghoff, 776 F.2d 1034, 227 USPQ 848 (Fed. Cir. 1985)), a perpetual motion machine (Newman v. Quigg, 877 F.2d 1575, 11 USPQ2d 1340 (Fed. Cir. 1989)), a flying machine operating on "flapping or flutter function" (In re Houghton, 433 F.2d 820, 167 USPQ 687 (CCPA 1970)), a cold fusion process for producing energy (In re Swartz, 232 F.3d 862, 56 USPQ2d 1703, (Fed. Cir. 2000)), a method for increasing the energy output of fossil fuels upon combustion through exposure to a magnetic field (In re Ruskin, 354 F.2d 395, 148 USPQ 221 (CCPA 1966)), uncharacterized compositions for curing a wide array of cancers (In re Citron, 325 F.2d 248, 139 USPQ 516 (CCPA 1963)), and a method of controlling the aging process (In re Eltgroth, 419 F.2d 918, 164 USPQ 221 (CCPA 1970)). A rejection based on incredible utility can be overcome by providing evidence that, "if, considered as a whole, [...] leads a person of ordinary skill in the art to conclude that the asserted utility is more likely than not true". See also Industrial applicability Sufficiency of disclosure References Cold fusion Perpetual motion Scientific skepticism United States evidence law United States patent law
Rashard Markese Davis (born September 14, 1995) is an American football wide receiver and return specialist for the Memphis Showboats of the United States Football League (USFL). He played college football at James Madison University. Davis has also been a member of the Philadelphia Eagles, Oakland Raiders, Kansas City Chiefs, Tennessee Titans, Saskatchewan Roughriders, Tampa Bay Bandits, and New York Jets. Early life Davis attended Charlottesville High School in Charlottesville, Virginia. As a dual threat quarterback, he threw for 1,074 yards and 15 touchdowns completing 61 of 142 attempts and ran for 1,383 yards on 130 rushes and 17 touchdowns his senior year to earn First Team All-District honors as an athlete and Second Team All-District accolades at quarterback. Named the team's MVP after leading Charlottesville its first playoff berth in 10 years. He was named Falcon Club Player of the week on September 19, 2012, for his game against Culpeper, accounting for six scores including four on the ground while racking up 200 yards on nine carries and two passing touchdowns finishing with 122 yards while going 5 for 8. Rashard graduated with Honors from Charlottesville High School in 2012. College career Davis played for the James Madison University football team. His first season was in 2013, during which he appeared in 12 games with one start. That season, he tallied 12 receptions for 173 yards. He rushed eight times for 124 yards and a touchdown. Davis set 2 career-bests with a 49-yard run at Delaware (Sept. 28) and a 36-yard touchdown run versus Charlotte (Sept. 21). He also had 8 kick returns for 159 yards and 2 punt returns. As a sophomore he played in 12 games, posting 21 receptions for 254 yards and two receiving touchdowns. He rushed six times for 22 yards and one score. He recorded career highs of five catches for 123 yards and two touchdowns, including a career-long 76-yard touchdown reception in the win at Lehigh (Sept. 6). He also had six kick returns for 102 yards and three punt returns for 44 yards, including a career-long 32-yard return against UD (Sept. 27). He was named to the CAA All-Academic Team. As a junior he played in 11 games, making nine starts at slot receiver posting 39 receptions for 592 yards and six touchdowns. Rashard rushed eight times for 48 yards. He made six returns on special teams, taking five kick returns for 102 yard and one punt return for 16 yards. Ranked eighth in CAA with 53.8 receiving yards per game, while also ranking tied for third in receiving touchdowns and fourth in yards per catch (15.2). He set a career-high 125 receiving yards on four receptions at William & Mary (Oct. 31) and tied a career-high of five receptions three times, at SMU (Sept. 26), at Towson (Oct. 10) and at Delaware (Nov. 14). Davis also recorded a season-long, 71-yard reception for a touchdown against Richmond (Oct. 24). As a senior he played in all 15 games, making 12 starts. He set JMU and CAA single-season record with an FCS-best four punt returns for a touchdown. He had 15 punt returns for a JMU single-season record 426 yards and four scores. He also tallied 42 receptions for 530 yards and three touchdowns and produced a punt return for a touchdown in each of the first two weeks, with a 76-yard touchdown against Morehead State (Sept. 3) and a 75-yard score versus Central Connecticut (Sept. 10). Davis closed the regular season with a 76-yard return for a score against Elon (Nov. 19) and set the program and conference record with a 72-yard return for a touchdown in the FCS quarterfinals versus Sam Houston State (Dec. 9). Had five receptions for 111 yards and a touchdown against Rhode Island (Oct. 29). He tallied five receptions for 57 yards at New Hampshire (Oct. 15) and caught two passes for 53 yards against SHSU. Davis produced three receptions for 52 yards and a touchdown in the NCAA Division I National Championship game versus Youngstown State (Jan. 7). He Had five catches in three games and at least three in nine outings and had four catches over 30 yards, including a season-best 58 yard performance versus Rhode Island. One of two recipients of the Challace McMillin Special Teams Player of the Year. After the season he was named to the Associated Press All-FCS second-team as an all-purpose player. He was also named CAA Special Teams Player of the Year. Professional career Philadelphia Eagles On August 13, 2017, Davis signed with the Philadelphia Eagles as an undrafted free agent. He was waived on September 1, 2017. He was signed to the practice squad on October 4, 2017, but was released six days later. He was re-signed again on October 19, 2017. He was released on December 14, 2017. He was re-signed on December 27, 2017. While Davis was on the practice squad, the Eagles defeated the New England Patriots in Super Bowl LII, which earned Davis a Super Bowl ring. He signed a reserve/future contract with the Eagles on February 7, 2018. On September 1, 2018, Davis was waived by the Eagles and was signed to the practice squad the next day. He was released on September 7, 2018. Oakland Raiders On November 14, 2018, Davis was signed to the Oakland Raiders practice squad. He was released on November 20, 2018. He was re-signed on December 27, 2018. He signed a reserve/future contract with the Raiders on January 1, 2019. He was waived on April 30, 2019. Kansas City Chiefs On May 7, 2019, Davis signed with the Kansas City Chiefs. He was waived on August 31, 2019. On October 15, 2019, Davis was drafted with the first overall pick in the skill players round of the 2020 XFL Draft by the DC Defenders, but did not sign with the league. Tennessee Titans On November 5, 2019, Davis was signed to the Tennessee Titans practice squad. He was promoted to the active roster on December 23, 2019. He was waived on September 5, 2020. He was re-signed to their practice squad on December 24, 2020. He was released on January 6, 2021. He was signed to a futures contract by the Titans on January 11, 2021. He was waived on May 17, 2021. Saskatchewan Roughriders On September 16, 2021, Davis agreed to a contract with the Saskatchewan Roughriders of the Canadian Football League (CFL). Davis spent most of his time on the practice roster and was released December 6, 2021. New York Jets On July 26, 2022, Davis signed with the New York Jets. He was released on August 16, 2022. Memphis Showboats Davis signed with the Memphis Showboats of the USFL on January 11, 2023. He was placed on the team's injured reserve list on May 1. References External links 1995 births Living people Players of American football from Charlottesville, Virginia American football return specialists American football wide receivers James Madison Dukes football players Kansas City Chiefs players New York Jets players Oakland Raiders players Philadelphia Eagles players Tennessee Titans players Tampa Bay Bandits (2022) players
Michael J. Shirkey (born December 5, 1954) is an American politician who served as a Republican member of the Michigan State Senate and as a member of the Michigan House of Representatives. He was first elected to the House in 2010 and to the Senate in 2014. His district, the 16th, covered all of Branch, Hillsdale, and Jackson Counties. From 2019 to 2023, Shirkey was the majority leader of the Michigan State Senate. Early life and education He has a bachelor's degree from Kettering University and a master's degree from the University of Wisconsin–Madison. Shirkey worked for General Motors for 13 years before starting his own engineering company. Shirkey founded the Jackson-based assembly machine manufacturing company Orbitform. Tenure In May 2020, Shirkey appeared onstage at an American Patriot Council rally in Grand Rapids, Michigan with William Null and Adam Fox. In October 2020, William Null, his twin brother, Michael Null, Adam Fox, and 10 other men were charged in a plot to kidnap and kill Michigan Governor Gretchen Whitmer. In early April 2020, Shirkey criticized Governor Gretchen Whitmer for extending a "stay home" order until the end of April. Shirkey opposed face mask requirements in Michigan. In November 2020, Shirkey stated that he would not attempt to appoint a slate of electors in the Electoral College that would vote for President Donald Trump, following Trump's loss in the 2020 United States presidential election. Trump invited Shirkey and several of his Republican colleagues to the White House following Shirkey's statement. Shirkey and several of his colleagues in the Michigan Legislature met with Trump on November 20, 2020. Shirkey and others issued a statement following the meeting in which they stated that they would "follow the normal process" of certifying the state's election results. On December 23, 2020, Shirkey tested positive for COVID-19. He believed he was exposed to the coronavirus on December 19. On December 21, Shirkey attended Lee Chatfield's farewell speech at the Michigan State Capitol. Shirkey characterized his COVID-19 illness as him having fought against the "Chinese flu army"; his remarks were criticized as xenophobic. In April 2020, Shirkey's business, Orbitform, received $1.8 million in Paycheck Protection Program (PPP) loans. In January 2021, Orbitform received another $1.7 million in PPP loans, for a total of $3.5 million. During this time, Shirkey led the Michigan Senate to block allocation of $4 billion in federal COVID reliefs funds for food and rental assistance. Although Shirkey claims to not be involved in the day-to-day management of his company, several of his family members (including son David Shirkey, grandson Karter Fannin, and Mark Shirkey) are employed at Orbitform in management positions. In February 2021, Shirkey alleged that the storming of the U.S. Capitol was a "hoax", that it was "staged", and that supporters of Donald Trump did not carry it out. In a February interview with radio station WKHM, Shirkey alleged that dead people voted in Michigan in the 2020 elections, a claim that has been denied by others . In 2021, Shirkey led efforts in the Michigan Senate by Republicans which according to the GOP are aimed at securing elections in Michigan, Democrats and other critics have called these efforts by Republicans a push to restrict voting rights. In April 2021, Shirkey accepted an invitation to meet with militia leaders. During the meeting in Grand Rapids, Shirkey told the militias "We need you now more than ever to continue to train" and "to stand up and test that assertion of authority by government". The Associated Press described the event "Michigan’s GOP leadership has for the first time in memory bestowed legitimacy on its state’s militia, long relegated to the shadows" and indicative of the rightward shift of the Michigan GOP after the 2020 elections. Shirkey was ineligible for re-election in 2022 due to term limits. In his farewell address to the Senate, Shirkey claimed that "surprise attack of an insidious virus" was "one that we were not prepared for, but one that was most certainly planned," embracing the unproven theory that COVID was a designed attack by China. He also suggested a series of "little-g gods" like climate change, gun control, digital currency, child sacrifice and "trans-whatever" are part of a broader push to "achieve a one-world government" and "one-world religion." He also took aim at the World Economic Forum, arguing the non-governmental lobbying organization is behind a push for “the elimination of sovereignty,” and that, "It's becoming glaringly apparent COVID was just the beginning of the forces that will test the very fabric of our freedoms, independence, our sovereignty, our values, and even our God-given rights." According to the Anti-Defamation League, adherents of the "Great Reset" conspiracy theory "warn that 'global elites' will use the pandemic to advance their interests and push forward a globalist plot to destroy American sovereignty and prosperity." He also shared an anecdote about noticing warmth in a Senate bathroom and reaching his hand into a Senate toilet to test the water temperature. He said, "I put my hand in it, and it was hot water. So I went back to the office and said, 'Please, get a hold of maintenance staff around here and ask them why taxpayers are paying for hot water in our toilets." References External links 1954 births 21st-century American engineers 21st-century American politicians Businesspeople from Michigan General Motors people Kettering University alumni Living people Republican Party members of the Michigan House of Representatives Republican Party Michigan state senators University of Wisconsin–Madison alumni
Lina Anatolyevna Cheryazova (; 1 November 1968 – 23 March 2019) was an Uzbek freestyle skier who competed in aerials. She won a bronze medal at the 1990 European Championship and a gold medal at the 1993 World Championships before winning the gold medal at the 1994 Winter Olympics with a score of 166.84. So far she is the only athlete to have won a Winter Olympic medal while representing Uzbekistan. Her achievements earned her the title of Honored Athlete of the Republic of Uzbekistan. Cheryazova initially trained in gymnastics and trampolining, and took up freestyle skiing in 1987. She debuted at the World Cup in December 1989, and became the overall winner in the 1992–93 (winning six out of eight races) and 1993–94 seasons (winning six out of 11 races). In the summer of 1994, Cheryazova fractured her skull while training, and spent more than a month in a coma. She resumed competing in the autumn of 1995, but never regained her previous form. She retired after another injury sustained after the 1998 Olympics. In 1999 she moved to Novosibirsk, Russia, where she lived with her adopted daughter Alina. Cheryazova died on March 23, 2019, following a lengthy illness. She was 50. References 1968 births 2019 deaths Uzbekistani female freestyle skiers Olympic freestyle skiers for Uzbekistan Freestyle skiers at the 1994 Winter Olympics Freestyle skiers at the 1998 Winter Olympics Olympic gold medalists for Uzbekistan Sportspeople from Tashkent Olympic medalists in freestyle skiing Medalists at the 1994 Winter Olympics
Cambridge School of Culinary Arts (CSCA) is a professional school located in Cambridge, Massachusetts. It offers several certificate and professional programs, including a culinary studies and pastry specialization. It also offers a variety of open-enrollment, one-day classes available to the general public. History Cambridge School of Culinary Arts was founded in 1974 by Roberta L. Dowling, CCP with classes in classical European cookery from her home. With the expansion of the program, Dowling moved the program to its current location at 2020 Massachusetts Avenue in Cambridge, Massachusetts. The program grew to over 400 students by the 1980s when Dowling decided to apply for accreditation for the school. The school was accredited in 1981 by the Commonwealth of Massachusetts, Department of Education and then by NATTS (National Association of Trade and Technical Schools) in 1989. Programs Offered The Cambridge School of Culinary Arts offers a diverse set of programs including- Professional Programs Professional Chefs Program – 37 weeks in length with 20 hours of instruction per week Professional Pastry Program – 37 weeks in length with 20 hours of instruction per week headed by French Master Pastry Chef Delphin Gomes Culinary Certificate Program – 16 weeks in length with 19 hours of instruction per week Certificate Pastry Program – 16 weeks in length with 19 hours of instruction per week headed by French Master Pastry Chef Delphin Gomes Recreational Programs The school offers a diverse blend of recreational classes for amateur cooks and professionals. Examples include classes on preparing classical sauces, gluten free cooking, multi-day basic cooking classes, ethnic cookery, knife skills, pastry, and other frequently arising topics of interest. Culinary Excursions The school has also offered culinary trips for both amateurs and professional chefs. Past trips have included Umbria, Italy and San Marino, Italy as well as Beijing, Xi'an, Suzhou, Shanghai, Hong Kong. Accreditations The Cambridge School of Culinary Arts is accredited by- Massachusetts Department of Education The National Association of Trade and Technical Schools (NATTS) The school replaced its NATTS accreditation with ACCSCT The Accrediting Commission of Career Schools and Colleges of Technology (ACCSCT) The school voluntarily relinquished its ACCSC (formerly ACCSCT) accreditation in June 2015. It is also endorsed by the International Association of Culinary Professionals (IACP) Notable alumni Chefs: Karen Akunowicz '05, Fox & the Knife Matthew Barre '05, Farm & Fries Mary Ting Hyatt '08, Bagelsaurus Samuel Ostrow '08, Festina Lente Greg Reeves '03, Viale Remi Williams, Smoke & Salt Katie and Richard Chudy, The Skinny Beet Tiffani Faison ‘03, Sweet Cheeks, Tiger Mama, Fool’s Errand, Orfano Food Production Related Businesses: Davio's Restaurant, with locations in MA & PA – Steve DiFillippo '84 Off Broadway Diner, Taunton, MA – Nuno Souza '02 Hash House a go go, San Diego, CA – Craig "Andy" Beardslee '88 Notes External links Cambridge School of Culinary Arts Cooking schools in the United States Hospitality schools in the United States Educational institutions established in 1974 Universities and colleges in Cambridge, Massachusetts Private universities and colleges in Massachusetts
Barocco is a 1925 French silent adventure film directed by Charles Burguet and starring Nilda Duplessy, Jean Angelo, and Charles Vanel. Cast Nilda Duplessy as Gisèle Jean Angelo as Jean de Kerauden Charles Vanel as Barocco Suzy Vernon as Enid Hanseley Camille Bardou as Le professeur Latouche Maurice Luguet as Aucagne Paul Franceschi as Gunther Berthe Jalabert as Georgina Labusquière as Un chacouch Charles Burguet as M. Hanseley References Bibliography Parish, James Robert. Film Actors Guide. Scarecrow Press, 1977. External links 1925 films Films directed by Charles Burguet French silent feature films French adventure films 1925 adventure films French black-and-white films Silent adventure films 1920s French films 1920s French-language films
Hyun-jin Ryu (; ; born March 25, 1987) is a South Korean professional baseball pitcher for the Toronto Blue Jays of Major League Baseball (MLB). He previously played in MLB for the Los Angeles Dodgers and in the KBO League for the Hanwha Eagles. In 2013, after spending seven seasons with the Eagles, he became the first player from the KBO to join an MLB team via the posting system. During the 2018 World Series, Ryu became the first Korean pitcher to start in a World Series game. In 2019, Ryu earned a selection to his first career Major League Baseball All-Star Game. During that season, he led the Majors in earned run average (ERA) and achieved an ERA of 1.26 through his first 14 starts, the lowest by a Dodgers pitcher since the statistic became official in 1912. Early life and education Ryu was born in Incheon, South Korea on March 25, 1987, and attended Incheon's Dongsan High School. He is working towards a master's degree in community physical education in Daejeon University. When Ryu was 10, his father bought him a lefthander's glove that goes on the right hand, so Ryu learned to pitch with his left hand. Career Amateur In 2004, Ryu underwent Tommy John surgery and did not pitch in any official games. In 2005, he led his team to the Blue Dragon Open National High School Championship, pitching 22 consecutive scoreless innings as the team's ace and batting .389 in the tournament. He was named Best Pitcher. In 2005, Ryu was selected for the South Korea national junior team that was runner-up in the 6th Asian Junior Baseball Championship in Seoul, South Korea. Ryu started the semifinal match against Chinese Taipei (Taiwan), and helped his team reach the final, recording ten strikeouts and giving up one unearned run on four hits in six innings. During the competition, he pitched innings with 14 strikeouts, and gave up an unearned run on five hits in three games (one start). He competed at the 60th National High School Baseball Championship in 2005, when as a third-year student in high school. In the game against Seongnam High School in the quarterfinals, he pitched a shutout, striking out 17. Hanwha Eagles (2006–2012) In July 2005, Ryu was selected by the Hanwha Eagles as the 1st pick in the second round of the 2006 KBO League Draft, and made his professional debut on April 12, 2006. In his rookie year of 2006, Ryu finished with an 18–6 win–loss record, a 2.23 ERA and 205 strikeouts in 201.2 innings pitched. He earned the pitching Triple Crown, and was eventually named both Rookie of the Year and Player of the Year. He became the only player in KBO history to win both the Rookie of the Year award and the MVP award in the same season. In August 2008, Ryu competed for the South Korea national baseball team in the 2008 Summer Olympics, where they won the gold medal in the baseball tournament. In the team's third game of round-robin play, Ryu pitched a 1–0 complete-game shutout victory over Canada, giving up five hits. In the gold medal game against Cuba, he pitched 8 innings, allowing two earned runs in a 3–2 victory. In March 2009, he represented the South Korea national baseball team in the 2009 World Baseball Classic, where the team was the runner-up to the eventual champion, Japan. In 2010, Ryu played in the 2010 Asian Games, where the South Korea national baseball team won the gold medal in baseball. On May 11, 2010, Ryu became the first pitcher in history to strike out 17 batters in a nine-inning game, against the LG Twins at Cheongju Sports Complex Baseball Stadium. In 2012, Ryu finished with a 2.66 ERA and 210 strikeouts, but earned only a 9–9 win–loss record and ten no decisions. Ryu repeatedly expressed his desire to play in the United States for Major League Baseball and scouts from many MLB teams visited Korea to see Ryu's pitching. Finally, on October 29, 2012, the Eagles announced that Ryu would be posted as early as November 1, 2012 to allow MLB teams to bid for the rights to negotiate with him. Los Angeles Dodgers (2013–2019) On November 9, 2012, the Eagles accepted the reported bid of $25.7M from the Los Angeles Dodgers, giving them a 30-day period to try to negotiate a contract with Ryu. On December 9, he was signed to a six-year, $36 million deal, that included the option to opt out after the 5th year if certain performance benchmarks were reached (750 innings pitched by year 5, an average of 150 innings/year). 2013 On March 17, 2013, Ryu recorded his first win as a Dodger, albeit, in a spring training game on St. Patrick's Day. He allowed just one run in innings, and retired the final 11 men he faced. He struck out six and allowed just five to reach base. Ryu made his Major League Baseball debut in a start against the San Francisco Giants on April 2, 2013. He allowed 10 hits in 6.1 innings but only one earned run. Ryu picked up his first Major League win on April 7 over the Pittsburgh Pirates. On April 13 against the Arizona Diamondbacks, he recorded his first major league hit with a double in the third inning. He wound up 3 for 3 at the plate in the game, the first Dodgers pitcher to get three hits in a game since Randy Wolf in 2009. This game was also his 100th career win, in South Korea and the U.S. combined. On May 1, 2013, Ryu pitched six innings against the Colorado Rockies and struck out 12 batters, his highest strikeout count in an MLB game so far. On May 28, 2013, Ryu pitched a complete-game shutout against the Los Angeles Angels of Anaheim, striking out seven batters, walking none, and conceding only two hits. It was the first shutout in Ryu's MLB career and the first shutout for a Korean-born pitcher since Chan Ho Park and Sun-woo Kim. In 30 starts with the Dodgers in 2013, Ryu was 14–8 with a 3.00 ERA. He was selected by Baseball America to their annual "All-Rookie team". On October 6, 2013, Ryu became the first South Korean to serve as the starting pitcher of a Major League Baseball postseason game. 2014 In his first start of the 2014 season in Sydney, Australia, Ryu held the D-backs scoreless in five innings of work. He proceeded to start 26 games for the Dodgers in 2014, despite missing time with various injuries. He finished 14–7 with a 3.38 ERA. 2015 Ryu began spring training with optimism that he would be able to pitch a career high 200 innings in 2015. However, he was shut down early in camp with back tightness, though he said he was not concerned by it. When he started throwing again he experienced a sore shoulder and the Dodgers decided to shut him down for two weeks. Despite report that Ryu was pain free in April, the Dodgers took precautions and placed him on the 60-day disabled list on May 4 in view of his sporadic shoulder pain during the previous season. The Dodgers noted a lack of velocity in his bullpen session soon afterwards, and Ryu decided to have a surgery on his shoulder to alleviate the problem. On May 21, Ryu had a surgery to repair his left shoulder labrum and ended his chances of pitching during the 2015 season. 2016 Ryu eventually rejoined the Dodgers on July 7, 2016, and started against the San Diego Padres. He allowed eight hits, four of them for extra bases in 4 innings of a 6–0 loss. However, he reported elbow discomfort after the game and was placed back on the disabled list. On September 28, he underwent debridement surgery on his left elbow. 2017 After losing his first four decisions of the season, Ryu picked up his first major league win since the 2014 season on April 30, 2017 in a 5–3 win against the Philadelphia Phillies. On May 25, he pitched four scoreless innings out of the bullpen to pick up his first major league save in a 7–4 win against the St. Louis Cardinals. Ryu made 24 starts in 2017 for the Dodgers (and one relief appearance) and was 5–9 with a 3.77 ERA, 116 strikeouts and 45 walks. 2018 Ryu began the season 3–0 with a 2.12 ERA in 6 starts before landing on the disabled list with a groin injury. He was placed on the 60-day disabled list on June 2, 2018. Overall, Ryu made 15 starts with the team, going 7–3 with 1.97 ERA, posting 85 strikeouts and 15 walks. On October 24, 2018, Ryu became the first Korean pitcher to start in a World Series game when he started in Game 2 of the series at Fenway Park in Boston. Ryu became a free agent after the season, but accepted the Dodgers one-year, $17.9 million, qualifying offer to remain with the club for 2019. 2019 Ryu was named the Dodgers opening day starter for the 2019 season after injuries to Clayton Kershaw and Rich Hill. On May 7, 2019, Ryu pitched his second career complete-game shutout against the Atlanta Braves. He struck out six, walked none, and gave up four hits in the 9–0 victory. In his next start against the Washington Nationals on May 12, 2019, he had a no-hit bid before giving a double to Gerardo Parra in the eighth inning with one out. He finished the game with 8 innings pitched, struck out nine, walked one, and gave up that one hit in a 6–0 win against the Washington Nationals. His two pitching performances earned him NL Player of the Week. He followed this performance with 7 shutout innings against the Cincinnati Reds on May 19, 2019, extending his streak of consecutive scoreless innings pitched to 31. This streak is tied for the tenth longest in Dodgers' history and is 28 fewer than the team record of 59 set by Orel Hershiser in 1988. Ryu won MLB Pitcher of the Month in May, going 5–0 with a 0.59 ERA, striking out 36 batters, walking 3 batters, while allowing three earned runs. He was selected to be the National League's starting pitcher for his first all-star appearance at the 2019 MLB All-Star Game. On September 22, Ryu hit his first career home run off of Antonio Senzatela of the Colorado Rockies. He finished the regular season with a record of 14–5, an MLB season-leading ERA of 2.32 and the lowest walks per nine innings ratio of 1.183. Ryu came in second in voting for the National League Cy Young Award. Toronto Blue Jays (2020–present) On December 27, 2019, Ryu signed a four-year, $80 million contract with the Toronto Blue Jays. Due to the COVID-19 pandemic, the Blue Jays 2020 season did not begin until July 24. On this day, Ryu made his Blue Jays debut as the Opening Day starting pitcher, throwing 4 innings in Toronto's 6–4 victory over the Tampa Bay Rays. He would go on to finish the regular season with a 5–2 record over 12 starts with a 2.69 ERA over 62 innings pitched with 72 strikeouts & 17 walks. On September 24, 2020, in his final regular season start, Ryu became the first Blue Jays' starting pitcher in that season to pitch into the 7th inning & the second starter to throw 100 pitches, while also yielding 0 runs, 5 hits, & 2 walks, while compiling 4 strikeouts and the winning decision in a 4–1 victory over the New York Yankees to help clinch the Blue Jays' first postseason berth since 2016. He finished third in voting for the 2020 American League Cy Young award, and won the Warren Spahn Award, presented each season by the Oklahoma Sports Museum to the best left-handed pitcher in Major League Baseball (MLB). Ryu made 31 starts for Toronto in 2021, pitching to a 14–10 record and 4.37 ERA with 143 strikeouts and 37 walks in 169.0 innings of work. In 2022, Ryu made 6 starts for the Blue Jays, limping to a 2–0 record and 5.67 ERA with 16 strikeouts in 27.0 innings pitched. On June 2, 2022, he was pulled from a start against the Chicago White Sox shortly after reaching 1,000 career innings pitched. He was later diagnosed with damage to his ulnar collateral ligament and underwent Tommy John surgery on June 18. On August 1, 2023, Ryu made his season debut and his first start in a year with the Blue Jays in a 3–13 losing effort against the Baltimore Orioles. Pitching style Ryu is a , 255 lb left-handed pitcher. He throws a fastball sitting 89-92 mph (tops out at 95 mph), a cutter, a curveball, a slider, and a change-up. Scouts say that the change-up is his best pitch and is a legitimate out-pitch at the big league level. Ryu has also drawn attention for his ability to locate his pitches within the strike zone. He posted a BB/9 (walks per nine innings rate) of 2.0 in his MLB career. Through the 2019 season, Ryu is the only pitcher born in Asia with a sub 3.00 career ERA (minimum of 500 innings pitched) in major league history. Popularity Ryu enjoys a popularity amongst South Korean baseball players, drawing South Korean fans as well as fans of Korean ancestry in nearly every stadium he pitches in. On July 22, 2013, after a 14–5 win against the Toronto Blue Jays played at Rogers Centre, several hundred fans of Korean ancestry stayed after the game to give Ryu a standing ovation, a common practice during the game, but a rarity for an ovation to occur after the game. Ryu is so revered in South Korea that no Hanwha Eagles player has worn his no. 99 since he left for the major league in 2012. Personal life Ryu married Korean sports reporter Bae Ji-hyun on January 5, 2018. The wedding was officiated by Kim In-sik, Ryu's first manager at Hanwha. The couple announced on October 11, 2019 that they were expecting their first child. Their daughter was born on May 17, 2020. Later, on July 24, 2022, Ryu announced his wife was pregnant with their second child. Their second child, a son, was born in Toronto on September 29, 2022. In popular culture Ryu has appeared in Running Man, with Shin-Soo Choo on episode 119; Bae Suzy on ep 171, 172 and 173; with Kang Jung-ho on ep 227; and with Kwang-hyun Kim on ep 534. Ryu made a cameo in Mr. Go, a sport-comedy about a gorilla who becomes a baseball superstar. Ryu has appeared in Master in the house (South Korean TV series) on episode 152 and 153 International competition See also List of Major League Baseball players from South Korea List of World Series starting pitchers Los Angeles Dodgers award winners and league leaders References External links Career statistics and player information from KBO League 1987 births Living people Asian Games medalists in baseball Asian Games bronze medalists for South Korea Asian Games gold medalists for South Korea Baseball players at the 2006 Asian Games Baseball players at the 2010 Asian Games Baseball players at the 2008 Summer Olympics Buffalo Bisons (minor league) players Dunedin Blue Jays players Florida Complex League Blue Jays players Hanwha Eagles players KBO League Most Valuable Player Award winners KBO League pitchers KBO League Rookie of the Year Award winners Los Angeles Dodgers players Major League Baseball pitchers Major League Baseball players from South Korea Medalists at the 2006 Asian Games Medalists at the 2010 Asian Games Medalists at the 2008 Summer Olympics National League All-Stars National League ERA champions Oklahoma City Dodgers players Olympic baseball players for South Korea Olympic gold medalists for South Korea Olympic medalists in baseball Rancho Cucamonga Quakes players South Korean expatriate baseball players in the United States Sportspeople from Incheon Toronto Blue Jays players 2009 World Baseball Classic players Munhwa Yu clan South Korean expatriate baseball players in Canada
```go // +build openbsd // +build 386 amd64 arm arm64 package pty type ptmget struct { Cfd int32 Sfd int32 Cn [16]int8 Sn [16]int8 } var ioctl_PTMGET = 0x40287401 ```
Kokshetau City Administration (, ) is an administrative-territorial unit of Akmola Region with the status equal to that of the districts in northern Kazakhstan, one of the two city administrations in the region. It is located in the north of the Akmola Region. The area of the unit is .2 The administrative center is Kokshetau. It includes the administrative territorial entities of Kokshetau, Krasny Yar, Stantsyonny, and Kyzylzhulduz. Population: Administrative-Territorial Division Kokshetau City Administration includes one settlement administration (which consists of the work settlement of Stantsyonny) and the Krasnoyarsk rural district, which includes two rural settlements (the villages of Krasny Yar and Kyzylzhulduz). Demographics References Notes Akmola Region
Charlotte Atkinson may refer to: Charlotte Barton (1797–1867), married name Atkinson, author of Australia's earliest known children's book Charlotte Atkinson (swimmer) (born 1996), British swimmer
Braidwood is a small village near Carluke, in South Lanarkshire, Scotland. The medieval barony of Braidwood included the Tower of Hallbar. Braidwood House, former seat of Lord Clydesmuir, is one of the major local landmarks. Over the years it has been a home for sufferers of cerebral palsy run by Capability Scotland and is now home to the South of Scotland offices of the Forestry Commission. Braidwood House was also briefly home to the Airborne Initiative, formerly of Glengonnar outside Abington, who specialised in outward-bound style training for young offenders. However the programme's funding was subsequently withdrawn by the Scottish Executive in 2004, after the airing of a controversial BBC Scotland documentary Chancers. The building has now fallen into disrepair, but there is still a small animal cemetery in the overgrown house grounds. Many houses have been built in Braidwood in the past couple of years, primarily on the former sites of the vehicle dismantlers of Alan Gray at Nellfield. The "Nellfield Garage" petrol station is still functioning along with a shop. Education The village has one primary school which is a feeder to Carluke High School, the school educates some pupils from the village and mostly incomers from Carluke. The architecture of the old school building is noteworthy as it was in the shape of an alien spacecraft. This building was rebuilt to create a larger school in 2014. Location The village itself is situated in the Clyde Valley, around from the river Clyde. For a small village it has a good variety of signposted woodland footpaths in the valley, with unusual names such as Fiddler's Gill, and an attractive village duck pond, much used for picnics. See also List of places in South Lanarkshire References External links Villages in South Lanarkshire Clydesdale
The 1973 Astor Cup – Doubles was an event of the 1974 Astor Cup men's tennis tournament that was played in Bologna in Italy from 11 February until 17 February 1974. Ken Rosewall and Fred Stolle were the defending doubles champions, but did not compete in this edition. Unseeded Ove Nils Bengtson and Björn Borg won the doubles title, defeating fourth-seeded Arthur Ashe and Roscoe Tanner in the final, 6–4, 5–7, 4–6, 7–6, 6–2. Seeds Draw References External links ITF tournament edition details 1974 in tennis 1974 in Italian tennis
Reitman v. Mulkey, 387 U.S. 369 (1967), was a United States Supreme Court decision that set an important legal precedent that held that a state could not authorize invidious discrimination by private landlords without entangling itself in the ensuing discriminatory private decisions. Thus, the state constitutional amendment by referendum purporting to authorize landlord freedom was unconstitutional. Background In 1963, the Rumford Fair Housing Act (AB 1240) was introduced in the California State Assembly, by Assemblyman William Byron Rumford. The act banned racial discrimination among mortgage holders, real estate brokers, property owners and landlords who refuse to rent or sell to tenants or potential buyers on the basis of color. The bill passed the California Legislature on September 20, 1963 and was later signed into law by California Governor Pat Brown. The act faced immediate protest after it was passed, and faced an initiative and referendum challenge; with opponents collecting over 600,000 signatures—well more than the 468,259 required to add the referendum to the ballot. The referendum saw significant financial support from California's real-estate industry, with the California Real Estate Association and the Apartment House Owners Association leading the effort to rescind the law. The "Committee for Home Protection" was initiated by the real-estate industry in the lead up to the laws challenge; looking to garner support with their slogan: "A man's home is his castle." The referendum, officially called California Proposition 14, Art. I, § 26, stated that neither the State nor any agency thereof "shall deny, limit or abridge, directly or indirectly, the right of any person, who is willing or desires to sell, lease or rent any part or all of his real property, to decline to sell, lease or rent such property to such person or persons as he, in his absolute discretion, chooses." The referendum passed on November 3, 1964, with two-thirds of Californians voting to repeal the law. A legal challenge was then brought to Proposition 14 in the California Supreme Court by the National Association for the Advancement of Colored People. The California Supreme Court held that Art. I, § 26, was designed to overturn state laws prohibiting discrimination, encouraged discrimination and unconstitutionally involved the State in racial discrimination, and was therefore invalid under the Equal Protection Clause of the Fourteenth Amendment to the United States Constitution. Supreme Court The case was appealed to the U.S. Supreme Court, which upheld the California Supreme Court in a 5–4 decision. The Supreme Court focused on examining the constitutionality of § 26 in terms of its "immediate objective" its "ultimate effect" and its "historical context and the conditions existing prior to its enactment." The Court pointed to its decision in McCabe v. Atchison, Topeka & Santa Fe Railway Co. that this was nothing less than considering a permissive state statute as an authorization to discriminate and as sufficient state action to violate the Fourteenth Amendment in the context of that case. Therefore, the California Supreme Court was correct in holding that this amendment encouraged discrimination and thus violated the 14th Amendment. This case can be compared to Washington v. Seattle School District No. 1 where the court held that a statewide initiative that was designed primarily to put an end to a newly formed busing program in Seattle was unconstitutional. Thus collectively these cases stand for the proposition that, non-constitutionally required racially based desegregation programs may be repealed, must be repealed by the level of government that develops the program. That is a state can not change the rules just so that a municipality cannot institute a desegregation program. See also List of United States Supreme Court cases, volume 387 References External links United States equal protection case law United States Supreme Court cases United States immigration and naturalization case law 1967 in United States case law United States Supreme Court cases of the Warren Court United States racial discrimination case law
The flag of Astrakhan Oblast, a federal subject of Russia, was adopted 19 December 2001. The flag is a crown (representing its status as an oblast) and scimitar (representing its influence from India) charge on a teal blue field. The ratio of the flag is 2:3. References Flag of Astrakhan Oblast Flags of the federal subjects of Russia Astrakhan
Straldzha ( ) is a small town in Yambol Province, Southeastern Bulgaria. It is the administrative centre of the homonymous Straldzha Municipality. As of December 2016, the town has a population of 6,326 inhabitants. The municipality of Straldzha is home to 12,014 people at the end of 2016: 6,326 of whom live in the city of Straldzha and 5,688 in the villages. It has a relatively high crude birth rate of 13,8‰ and a very high fertility rate of 3,01 children per woman, nearly two times higher than the national rate of 1,54 children per woman (at the end of 2016). The reason for this high fertility rate is the large concentration of ethnic Roma people in the municipality of Straldzha (nearly one-fifth of the population belong to the Romani community, which is exceeding four times the national average). The small town is a hub for agriculture and wine production. Many residents however go to work and study in bigger cities , or abroad , due to the lack of opportunities and the toxicity that small towns like these bring. During the communism era , Straldzha was a growing town with many factories and workers from the villages nearby. A bus line and a natural spring park, that attracted many visitors in the region, which was demolished and removed, now the Roma neighbourhood . References External links https://web.archive.org/web/20060103050226/http://www.straldja.net/ Towns in Bulgaria Populated places in Yambol Province
Cliff () is a small settlement on the Isle of Lewis, in the Outer Hebrides, Scotland. Cliff is within the parish of Uig. The settlement is situated on a minor road, off the B8011. The picturesque beach is unsafe for swimming. At low to mid tide holds an excellent barrelling beach break wave. Breaks up to for experienced surfers and bodyboarders References External links Canmore - Lewis, Cliff site record Canmore - Lewis, Cliff, Horizontal Mill site record Canmore - Lewis, Cliff site record Canmore - Lewis, Cliff site record Villages in the Isle of Lewis
Brezni Vrh () is a dispersed settlement in the hills north of the Drava River in the Municipality of Radlje ob Dravi in Slovenia, on the border with Austria. References External links Brezni Vrh on Geopedia Populated places in the Municipality of Radlje ob Dravi
Warren, also known as Karri Forest Region and the Jarrah-Karri forest and shrublands ecoregion, is a biogeographic region in southern Western Australia. Located in the southwest corner of Western Australia between Cape Naturaliste and Albany, it is bordered to the north and east by the Jarrah Forest region. Its defining characteristic is an extensive tall forest of Eucalyptus diversicolor (karri). This occurs on dissected, hilly ground, with a moderately wet climate. Karri is a valuable timber and much of the karri forest has been logged over, but less than a third has been cleared for agriculture. Recognised as a region under the Interim Biogeographic Regionalisation for Australia (IBRA), and as a terrestrial ecoregion by the World Wide Fund for Nature, it was first defined by Ludwig Diels in 1906. Geography and geology The Warren region is defined as the coastal sandplain between Cape Naturaliste and Albany. Extending from the ocean to the edge of the Yilgarn craton plateau, for most of its extent it may be adequately approximated as the land within ten kilometres (6 mi) of the coast. North of Point D'Entrecasteaux, however, it extends inland almost as far as Nannup and Manjimup. It has an area of about 8,300 square kilometres (3200 mi²), making it about 2.7% of the South West Province, 0.3% of the state, and 0.1% of Australia. It is bounded to the north and east by the Jarrah Forest region. Much of the region is unpopulated, but there are a number of towns with substantial populations, most notably Margaret River, Augusta, Pemberton, Walpole, Denmark and Albany. Warren has a hilly topography, caused by two factors: the underlying geology, which consists of infolded metamorphic rock of the Leeuwin Complex and Archaean granite of the Albany-Fraser Orogen; and the dissection of rivers such as the Blackwood, Warren, Shannon and Frankland. The western extent of the region takes in the Leeuwin-Naturaliste Ridge, an 80 kilometre (50 mi) long strip of coastal limestone on top of a ridge of granite, with an extensive cave system. There are a number of soil types, including hard setting loamy soil, lateritic soil, leached sandy soil and Holocene marine dunes. Climate Warren has a moderate Mediterranean climate. It has the highest rainfall in the state, with annual falls of from 650 to 1500 millimetres (25.6–59.1 in), and a short dry season of only three to four months. Vegetation and flora The characteristic vegetation of the Warren region is the karri (Eucalyptus diversicolor), at 90m the tallest trees in Australia, in association with the three tingle trees, which are endemic to this coast: rates tingle (E. brevistylis), red tingle (E. jacksonii) and yellow tingle (E. guilfoylei). Karri has a thick undergrowth of flowers and shrubs such as coral vine (Kennedia coccinea). The most important plant families are Fabaceae (including the colourful wisteria, Hardenbergia comptoniana), Orchidaceae, Mimosaceae, Myrtaceae and Proteaceae. The karri forest occurs in deep loam, and covers nearly half of the region. Although very moist in winter, it is not considered to be a rainforest because the dry season precludes the establishment of a characteristic rainforest understory of epiphytes, liverworts, ferns and mosses. Some rainforest relict species do occur, however, such as Anthocercis sylvicola, Albany pitcher plant (Cephalotus follicularis) and wild plum (Podocarpus drouynianus). The poorer, lateritic soils, about a quarter of the region, are vegetated by medium forest of jarrah (Eucalyptus marginata), which can grow up to 40m tall, and marri (Corymbia calophylla) (up to 60m). Other significant vegetation forms include low woodland of E. marginata and Banksia species (8%); Agonis flexuosa woodlands or scrub on Holocene marine dunes (5%); and swamps supporting sedges (5%) or low woodlands of Melaleuca (4%). As of 2007, the Warren is known to contain 1865 indigenous vascular plant species, and a further 419 naturalised alien species. The endangered flora of the Warren region consists of 28 species, with a further 160 species having been declared Priority Flora under the Department of Environment and Conservation's Declared Rare and Priority Flora List. The region is considered one of the most important centres of plant endemism in the South West. As well as the three tingle trees other species endemic to the region include Corymbia ficifolia (red flowering gum). The area around Albany is especially rich in endemics such as Cephalotus follicularis. Fauna The Warren region supports a rich diversity of fauna, much of which is apparently Gondwanan in origin. Mammal species include the western ringtail possum (Pseudocheirus occidentalis), chuditch (Dasyurus geoffroii) (particularly found in Jarrah forest), the squirrel-like brush-tailed phascogale (Phascogale tapoatafa), quokka (Setonix brachyurus), yellow-footed antechinus (Antechinus flavipes leucogaster), southern brown bandicoot (Isoodon obesulus), and woylie (Bettongia penicillata ogilbyi). The first four of these are endangered species and numbers of many of the indigenous marsupials have declined as their habitats are removed and altered. As with the rest of southwest Australia, in contrast to comparable forest of the south east, there is a low diversity of bird species. Endemism is similarly low, as most South West bird species are habitat generalists with wide distributions. Exceptions include the red-eared firetail (Stagonopleura oculata) and the white-breasted robin (Eopsaltria georgiana), both of which occur only in the karri forest; the western bristlebird (Dasyornis longirostris), western whipbird (Psophodes nigrogularis nigrogularis) and western ground parrot (Pezoporus wallicus flaviventris), all of which inhabit the region's heath vegetation; and the noisy scrub-bird (Atrichornis clamosus), which inhabits densely vegetated gullies. Other forest birds include the purple-crowned lorikeet. Insects include an endemic spider Moggridgea tingle. The freshwater streams of the Warren region support only a low diversity of fauna, but much of it is highly endemic. A number of frog species are endemic or nearly so, including the orange-bellied frog (Geocrinia vitellina), the white-bellied frog (Geocrinia alba), and the sunset frog (Spicospina flammocaerulea). Endemic freshwater invertebrates include worms of the family Phreodrilidea, and crayfish of the genera Cherax and Engaewa. Land use The Warren region falls entirely within what the Department of Agriculture and Food calls the "Intensive Land-use Zone" (ILZ), the area of Western Australia that has been largely cleared and developed for intensive agriculture such as cropping and livestock production. Despite this, only a small amount of the region's natural vegetation has been cleared and given over to agriculture. The proportion of cleared land was calculated as 13.2% in 2002, although Beard gave a much larger figure of 31% in 1984. The remaining land is considered to be native vegetation, but this need not be pristine; a substantial proportion of the remaining native vegetation has been degraded by selective logging and other human activities. Historically, logging was the primary land use in the region, and this remains a significant industry. There has been substantial selective logging in the region, and some clearfelling. There has also previously been some bauxite mining in the area, but this has now ceased, and the mining areas are at least partially reforested. Dams have also been constructed in high-rainfall forest areas. The most important land uses for the region are now biodiversity conservation and tourism. More than half of the remaining vegetation is now in protected areas, including Shannon National Park, D'Entrecasteaux National Park, Mount Frankland National Park, Leeuwin-Naturaliste National Park and Walpole-Nornalup National Park. These contain numerous tourist attractions, most notably the Walpole-Nornalup National Park's Valley of the Giants, which includes a "Tree Top Walk". Conservation The main threat to the biodiversity of the Warren region is the South West's epidemic of dieback, a disease caused by the introduced plant pathogen Phytophthora cinnamomi. Introduced animals such as feral cats, foxes and rats prey on native wildlife and occupy ecological niches to the detriment of native species. Populations are controlled through 1080 baiting as part of the highly successful Western Shield program. Other threats include human activities related to infrastructure and silviculture, such as roads changing surface runoff patterns, and changes to the fire regime. Because so much of the Warren region is already protected, it has low priority under Australia's National Reserve System. Protected areas 45.47% of the ecoregion is in protected areas. Protected areas include: Boorara-Gardner National Park Boyndaminup National Park Bramley National Park Brockman National Park D'Entrecasteaux National Park Easter National Park Forest Grove National Park Gloucester National Park Greater Beedelup National Park Greater Dordagup National Park Greater Hawke National Park Hilliger National Park Jane National Park Leeuwin-Naturaliste National Park Mount Frankland National Park Mount Frankland North National Park Mount Frankland South National Park Mount Lindesay National Park Mount Mason Nature Reserve Mount Roe National Park Mount Shadforth Nature Reserve Sir James Mitchell National Park Scott National Park Shannon National Park Torndirrup National Park Two Peoples Bay Nature Reserve Walpole-Nornalup National Park Warren National Park West Cape Howe National Park William Bay National Park Biogeography The Warren region first appeared in Ludwig Diels' 1906 biogeographical regionalisation of Western Australia. Diels' concept of Warren region was effectively all the land south of a line from Albany to Busselton; thus it included a substantial area east of Margaret River that is now part of the Jarrah Forest region. The region was not recognised as one of Edward de Courcy Clarke's "natural regions" in 1926, but was resurrected in Charles Gardner's regionalisations of the 1940s and 1950s. In 1980, John Stanley Beard published a phytogeographical regionalisation of the state based on data from the Vegetation Survey of Western Australia. This new regionalisation included a "Warren Botanical District" that is essentially identical with the present-day Warren. By 1984, Beard's phytogeographic regions were being presented more generally as "natural regions", and as such were given more widely recognisable names. Thus the "Warren Botanical District" became the "Karri Forest Region". When the IBRA was published in the 1990s, Beard's regionalisation was used as the baseline for Western Australia. The Warren region was accepted as defined by Beard, but reverted to the name "Warren". It has since survived a number of revisions. When the IBRA subregions were introduced in IBRA Version 6.1, the whole of Warren was defined as a single subregion. Under the World Wildlife Fund's biogeographic regionalisation of the world's terrestrial surface into "ecoregions", the Warren region is equivalent to the Jarrah-Karri forest and shrublands ecoregion of the Mediterranean forests, woodlands, and scrub biome. References Further reading Thackway, R and I D Cresswell (1995) An interim biogeographic regionalisation for Australia : a framework for setting priorities in the National Reserves System Cooperative Program Version 4.0 Canberra : Australian Nature Conservation Agency, Reserve Systems Unit, 1995. Forests of Western Australia IBRA regions Mediterranean forests, woodlands, and scrub in Australia Southwest Australia Ecoregions of Western Australia
```xml import * as React from "react"; import Frame from "../components/Frame"; import Image from "../components/Img"; import { EmbedProps as Props } from "."; function Diagrams({ matches, ...props }: Props) { const { embed } = props; const embedUrl = matches[0]; const params = new URL(embedUrl).searchParams; const titlePrefix = embed.settings?.url ? "Draw.io" : "Diagrams.net"; const title = params.get("title") ? `${titlePrefix} (${params.get("title")})` : titlePrefix; return ( <Frame {...props} src={props.attrs.href} icon={ <Image src="/images/diagrams.png" alt="Diagrams.net" width={16} height={16} /> } canonicalUrl={props.attrs.href} title={title} border /> ); } export default Diagrams; ```
Oleg Georgiyevich Kononov (, , born 23 March 1966) is a Belarusian and Russian football coach and a former Soviet and Belarusian footballer. Playing career Oleg Kononov began his playing career in RSFSR at Iskra Smolensk in 1983. He later moved to Belarus, where he would play for various clubs until 1999. In 1998, he was named the Belarusian Premier League Player of the year. Playing at KIM Vitebsk, he became the runner-up of the Belarusian Premier League. Managing career Sheriff Tiraspol The most glory Kononov attained as a coach, was while in charge of FC Sheriff Tiraspol. His team became the champions in Moldovan National Division three times (2004/05–2006/07), was the Moldavian Cup holder in 2006, and the Moldovan Super Cup in 2005. Karpaty Lviv On 9 June 2008, Kononov was invited to take charge of Ukrainian Premier League club Karpaty Lviv following the resignation of Valery Yaremchenko. He brought a new style of play to the team, including the use of a 4-3-3 formation which emphasizes the flanks instead of the usual 4-4-2 formation. At the end of the 2008-09 season, Karpaty finished in the season in middle of the league at 9th place. Kononov enjoyed more success the next season, guiding Karpaty to top 8 in the Ukrainian Cup where they were eliminated by eventual finalists Metalurh Donetsk. They also finished fifth in the league and therefore qualified for the 2010–11 UEFA Europa League, where after impressively passing Galatasaray in the playoff round, finished last in Group J with 1 point. Krasnodar He took over the management of FC Krasnodar early in the 2013–14 Russian Premier League and led them to Europe for the first time in their history, finishing 5th in the league and qualifying for the 2014–15 UEFA Europa League. In 2014-15 season they defeated, among others, Real Sociedad in the Europa League qualifiers and advanced to the group stage. They did not qualify for the knockout phase. Midway through the 2014–15 Russian Premier League competition, they reached the 2nd spot in the standings. He resigned from his Krasnodar position on 13 September 2016. Arsenal Tula He signed with FC Arsenal Tula on 1 June 2018. Spartak Moscow He left Arsenal by mutual consent on 12 November 2018 and signed with FC Spartak Moscow until the end of the 2018–19 season. on 29 September 2019, he resigned from Spartak following 4 consecutive losses in a league that were preceded by a failure to qualify for the 2019–20 UEFA Europa League group stage. Riga FC On 5 February 2020, he signed with the reigning Latvian champions Riga FC. The stint ended in late 2020. Return to Arsenal Tula On 10 June 2022, Kononov was hired once again by Arsenal Tula, freshly relegated to the second-tier Russian Football National League. On 11 January 2023, he left the post of head coach, having played 20 matches in the current season of the First League, in which FC Arsenal Tula won nine victories and drew five times. Saturn Ramenskoye In July 2023, Kononov headed the fourth-tier Russian Second League Division B club FC Leon Saturn Ramenskoye. He resigned from Leon Saturn on 31 August 2023. Honours As coach Sevastopol Ukrainian First League (1): 2012-13 Krasnodar Russian Football Premier League third place: 2014-15 References External links 1966 births Living people Sportspeople from Kursk Soviet men's footballers Belarusian men's footballers Men's association football midfielders Belarusian expatriate men's footballers Expatriate men's footballers in Poland FC Iskra Smolensk players FC Dnepr Mogilev players FC Zorya Luhansk players FC Vitebsk players FC Lokomotiv Vitebsk (1986) players Ruch Chorzów players FC Naftan Novopolotsk players FC Torpedo Minsk players Belarusian football managers Belarusian expatriate football managers Belarusian expatriate sportspeople in Ukraine Belarusian expatriate sportspeople in Moldova Ukrainian Premier League managers Expatriate football managers in Ukraine FC Karpaty Lviv managers FC Sevastopol managers Russian football managers Russian Premier League managers FC Spartak Moscow managers FC Krasnodar managers FC Akhmat Grozny managers FC Arsenal Tula managers FC Leon Saturn Ramenskoye managers
Caldermac Studios is a stained glass manufacturer in Lisburn, County Antrim responsible for most of the late-20th century- and early-21st-century-ecclesiastical stained glass. It is the preeminent Northern Irish stained glass manufacturer of church glass. Works “Good Shepherd” memorial window (1979) to Mary Tipping of Bellevue, Strabane Road, with Caldermac Studios maker’s mark, first stained glass window on the left side of the north nave wall in St. Eugene's Church of Ireland Church (Ardstraw Parish Church) (1724), Newtownstewart, County Tyrone, Northern Ireland BT78 4AA References British stained glass artists and manufacturers Culture in Belfast
The West Frisian dialect () is a Dutch dialect spoken in the contemporary West Friesland region, Wieringen, Wieringermeer, the coastal area from Den Helder to Castricum, and the island of Texel. It is a Hollandic Dutch dialect but is influenced by West Frisian (Dutch: Westerlauwers Fries, a language of Friesland Province distinct from Dutch), which is related. The dialect in itself is not a fixed one, as there is a diverse number of subdialects (sometimes referred to as the West Frisian dialect group) that consists of some widely spoken regional dialects, namely Wierings in Wieringen, Tessels or Texels in Texel and the dialect of Vlieland known as Vlielands, which has fallen into disuse. The smaller regions and villages, such as Zijpe, Andijk, Enkhuizen and Schagen, have some distinct differences between them. Slightly more different from the rest of the group is Derpers, the dialect of the village Egmond aan Zee. The dialect descends from an older form of the Hollandic dialect. Only about 7-9% of the people speak the strong dialect or a mixture of strong and light. The light dialect is much more widely spoken but is also slowly beginning to become lighter and sound more like Dutch. Since the 1970s, there has been more interest in reading and writing the dialect. Little had been written before then, as it was mostly a spoken language by common people. See also Low Franconian languages Languages of the Netherlands Dutch dialects
Maihuenia is a genus of cactus (family Cactaceae) and the sole genus of the subfamily Maihuenioideae, which is the smallest subfamily of the Cactaceae. The genus comprises two cushion-forming, mucilaginous species. They are found at high elevation habitats of Andean Argentina and Chile. Its name is the Latinized version of maihuén, a local Chilean name for these cacti. Species References Cactaceae genera Cacti of South America Flora of the Andes Flora of Argentina Flora of Chile Maihuenioideae
Mary Forsyth is a pioneer of women's rugby union, in England and internationally. Biography Forsyth was born in Pittsburgh, US. She was a high school athletics prospect when she enrolled at Penn State University in 1977. She had to set aside her athletics aspirations as she had to work to pay for her tuition. She soon discovered that her college had a women's rugby team so she switched from athletics to rugby. She represented Penn State for four years and continued her rugby career when she returned to Pittsburgh. In 1985, Forsyth moved to London for work and lived only yards away from England's first women's rugby club in Finchley. She joined the Richmond Rugby Club where she met Deborah Griffin, Alice Cooper, and Sue Dorrington. In 1988, She made her sole international appearance for England against Sweden. Forsyth was part of the organising committee for the inaugural women's Rugby World Cup in 1991 and was its financial controller. Most of the committee meetings were held in a boardroom in central London where Forsyth worked then. Seven days before the tournament began, she gave birth to her first child. Although she missed most of the World Cup, she still managed to fulfill her role, and made it to the final with her newborn baby, husband and mother. World Rugby Hall of Fame Forsyth, Cooper, Dorrington, and Griffin will be inducted into the World Rugby Hall of Fame in a special ceremony during the 2021 Rugby World Cup semi-finals at Eden Park on November 5, 2022. References Living people Year of birth missing (living people) English female rugby union players American female rugby union players England women's international rugby union players
Kingsway Mansions is a three-story apartment block dating back from 1928 that has Cape Dutch and classical design elements in the decoration of the balconies and the gables along the main façade towards Kingsway Avenue. The building has 27 units with 21 of its apartments being 100 square metres and the remaining 6 ‘studios” 65 square metres each. History Kingsway Mansions takes its name from the road which it faces, which was once lined with tall blue gum trees. The building was designed by the prominent architect P. Rogers Cook who with the practice of J.C. Cooke and Cowan was responsible for an impressive collection of Art Deco buildings in central Johannesburg and for a number of theatres and movie houses including The Playhouse in Durban and Capital Theatre in Pretoria. The intended extension of the wings on the undeveloped land adjacent to Kingsway Mansions was never carried out, and the main entrance was positioned on the western side of Henley Road to give easy access to the property. For many years, the tenants included members of the Johannesburg Country Club, whose main entrance was directly across the road. When the SABC moved from the city centre to Auckland Park, tenants reflected the convenience for broadcasters, announcers, actors, and show-business people involved in radio and later TV productions. Among the people who have lived there over the years have been scriptwriter Dannie Folbeck, TV presenter Donna Werzel, actor Richard Haines, the actor / director Robert Whitehead, musician John Oakley Smith, publisher Ivan Beek and art gallery owner Trent Reed. The present tenant profile includes SABC executives, university lecturers and other professionals. Current ownership The current owner, Patrick Corben, purchased this “rent controlled” block in 1990, from Lionel Waldman whose family had previously owned the building for some 40 years. Mr Corben also purchased the adjacent house at 77 Richmond Avenue, to ensure that the site was not developed to the detriment of Kingsway Mansions. References Residential buildings in Johannesburg Residential buildings completed in 1928 1928 establishments in South Africa
Sharafuddin Lutfillaev (born 9 September 1990) is an Uzbekistani judoka. He won a medal at the 2019 World Judo Championships. Personal life Sharafuddin Lutfillaev is the first judoka in the Uzbekistan to have NFT. Lutfillaev's official NFT was released in April 2022. References External links 1990 births Living people Uzbekistani male judoka Place of birth missing (living people) Judoka at the 2014 Asian Games Asian Games competitors for Uzbekistan Judoka at the 2020 Summer Olympics Olympic judoka for Uzbekistan 21st-century Uzbekistani people
The Medical Journal of Australia (MJA) is a peer-reviewed medical journal published 22 times a year. It is the official journal of the Australian Medical Association, published by Wiley on behalf of the Australasian Medical Publishing Company. The journal publishes editorials, original research, guideline summaries, narrative reviews, perspectives, medical education, reflections, and letters. The full text of every issue since January 2002 is available online. History Early origins The journal was established in 1856, when communication between Australian states and other English-speaking nations entailed long delays. The journal was both a platform for Australian medical research, as well as educational reviews summarising research done overseas. It has since been renamed several times: Australian Medical Journal (1856–1895) Intercolonial Quarterly Journal of Medicine and Surgery (1895–1896) Intercolonial Medical Journal of Australasia (1896–1909) Australian Medical Journal (1910–1914) Medical Journal of Australia (1914–present, with volume numbering restarting at 1) Elsevier In 2015, then editor-in-chief Stephen Leeder was suddenly removed after criticising the decision to outsource production of the journal to the global publishing giant Elsevier. Leerder's concerns revolved around an incident in 2009 when Elsevier accepted payments from pharmaceutical company Merck & Co. to publish journals such as the Australasian Journal of Bone & Joint Medicine, which had the appearance of peer-reviewed academic works but were in fact promoting Merck. Following the decision to sack Leeder, all but one of the journal's editorial advisory committee resigned and wrote to Australian Medical Association president Brian Owler asking him to review the decision. Nicholas Talley succeeded Stephen Leeder as editor-in-chief in September 2015 and the editorial advisory group was subsequently reconstituted. Wiley From January 2019, the journal is published by Wiley. Print distribution remains with the Australasian Medical Publishing Company and editorial direction and decisions remain with the journal. Publishing and access Having previously published under a subscription model, the journal changed in January 2012 to make all of its research articles free to read online. The journal converted to a hybrid model in January 2019: Authors can either pay an article processing fee to publish fully open access (gold open access) or archive the submitted version of their article in online repositories (green open access). In order to demonstrate commitment to Australian Indigenous health and health awareness, the journal makes all Indigenous health articles free to access without charging authors. MJA InSight MJA InSight is a newsletter for medical professionals produced by the MJA. Articles are written primarily by doctors. An overview is provided each week by its medical editor, Dr. Ruth Armstrong. It has the largest medical-newsletter subscription membership in Australia. MJA InSight is published by the Australasian Medical Publishing Company, the publishers of the MJA. The newsletter informs clinicians of key developments and research in medicine and health. Abstracting and indexing The journal is abstracted and indexed in: According to the Journal Citation Reports, the journal had a 2022 impact factor of 11.4, ranking it 17th out of 167 in the category "General and Internal Medicine". See also List of medical journals References External links Publications established in 1856 General medical journals English-language journals Biweekly journals Wiley (publisher) academic journals
Robert "Bob" McCallum Blumenthal (7 February 1931, Chicago – 8 November 2012) was an American mathematician, specializing in probability theory. He is known for Blumenthal's zero-one law. Biography He received his Ph.D. in mathematics from Cornell University in 1956 under Gilbert Hunt with thesis An Extended Markov Property. Blumenthal became in 1956 an instructor at the University of Washington, was eventually promoted to full professor, and in 1997 retired there. He was on sabbatical for the academic year 1961–1962 at the Institute for Advanced Study in Princeton and for the academic year 1966–1967 in Germany. Upon his death he was survived by his wife and two sons. Selected publications Articles with R. K. Getoor: with R. K. Getoor: with R. K. Getoor and D. B. Ray: with R. K. Getoor: with R. K. Getoor: Books with R. K. Getoor: References 1931 births 2012 deaths 20th-century American mathematicians 21st-century American mathematicians Probability theorists Cornell University alumni University of Washington faculty
Moca radiata is a moth in the family Immidae. It was described by Thomas de Grey in 1897. It is found in the Democratic Republic of the Congo and Gabon. The wingspan is 17–18 mm. The forewings are dark olive grey, with orange-ochreous lines marking the interspaces between the veins, the extreme base of the costa is narrowly orange ochreous. A distinct orange-ochreous line, commencing near the base beneath the costa, follows the upper edge of the cell to the middle of the wing length, this is followed by some spots of the same colour about the upper angle of the cell, diverging obliquely downwards and nearly joining the outer end of a median streak of the same colour, which terminates in the direction of the base at half the length of the cell. There is also a line of the same colour along the fold and some suffusion of orange-ochreous scales beneath it. Beyond the end of the cell a series of 9 or 10 separate orange-ochreous lines diverge fan like between the veins, and are margined, at their outer ends, by a distinct semicircle of the olive-grey ground colour, which is followed by an orange-ochreous space, also semicircular, but not attaining the margins, the apical space being dark olive grey. The hindwings are brown. References Moths described in 1897 Immidae Moths of Africa
Henry Crosoer (1765–?) was an English cricketer of the late 18th century who played for Kent. His name was sometimes given as Crozoer. Crosoer was born at Bridge, Kent and seems to have been a wicketkeeper-batsman. He made eight known first-class appearances for Kent sides between 1786 and 1790. References English cricketers Kent cricketers English cricketers of 1701 to 1786 1765 births Year of death unknown English cricketers of 1787 to 1825 East Kent cricketers People from Bridge, Kent Wicket-keepers
Sodium calcium edetate (sodium calcium EDTA), also known as edetate calcium disodium among other names, is a medication primarily used to treat lead poisoning, including both short-term and long-term lead poisoning. Sodium calcium edetate came into medical use in the United States in 1953. Chelation agent Sodium calcium edetate is in the chelating agent family of medication. It is a salt of edetate with two sodium and one calcium atoms. It works by binding to a number of heavy metals, which renders them almost inert and allows them to leave the body in the urine. Edetate disodium is a different formulation which does not have the same effects. Medical use Sodium calcium edetate's primary use is to treat lead poisoning, for which it is an alternative to succimer. It is given by slow injection into a vein or into a muscle. For lead encephalopathy sodium calcium edetate is typically used together with dimercaprol. It may also be used to treat plutonium poisoning. It does not appear to be useful for poisoning by tetra-ethyl lead. Side effects Common side effects include pain at the site of injection. Other side effects may include kidney problems, diarrhea, fever, muscle pains, and low blood pressure. Benefits when needed in pregnancy are likely greater than the risks. History Sodium calcium edetate came into medical use in the United States in 1953. It is on the World Health Organization's List of Essential Medicines. References External links Calcium compounds Chelating agents used as drugs Organic sodium salts World Health Organization essential medicines
Polybius' Histories ( Historíai) were originally written in 40 volumes, only the first five of which are extant in their entirety. The bulk of the work was passed down through collections of excerpts kept in libraries in the Byzantine Empire. Polybius, a historian from the Greek city of Megalopolis in Arcadia, was taken as a hostage to Rome after the Roman victory in the Third Macedonian War (171–168 BC), and there he began to write an account of the rise of Rome to a great power. Content Polybius' Histories begin in the year 264 BC and end in 146 BC (Polybius was born around 200 BC and died around 117 BC). He is primarily concerned with the 53 years in which Ancient Rome became a dominant world power. This period, from 220–167 BC, saw Rome subjugate Carthage and gain control over Hellenistic Greece. Books I through V cover the affairs of important states at the time (Ptolemaic Egypt, Hellenistic Greece, Macedon) and deal extensively with the First and Second Punic Wars. In Book VI he describes the Roman Constitution and outlines the powers of the consuls, Senate and People. The differences between the first set of states, namely, Athens and Thebes, and the second set which consists of those of Sparta, Crete, Mantinea and Carthage he asserted, on the ground that the states of Athens and Thebes followed an "abnormal" growth. By "abnormal" Polybius means that these states due both the rise to the pinnacle of their power and the downfall to the caprice of fortune. It is chiefly because the Athenians had such leaders as Themistocles, and the Thebans Pelopidas and Epaminondas, that the two states have on their side the favors of fortune for a time. The view of Polybius on the age of Pericles might, to some extent, be considered as contrary to what most modern historians thought was the Golden Age of Greece. He then compares the political system of the Roman state to that of the Cretans, the Spartans, and shows in what aspect the laws of Rome are superior to those of the Carthaginians. He concludes that the success of the Roman state was based on their mixed constitution, which combined elements of a democracy, aristocracy, and monarchy. The remainder of the Histories discusses the period in which Rome came to dominate the Mediterranean, from the defeat of Hannibal in 201 BC to the destruction of Carthage and the Greek city-state of Corinth in 146 BC. Polybius on tyche Tyche, which means fate or fortune, plays an integral role in Polybius’ understanding of history. Tyche takes on a double meaning in his work. It can mean fortune or happenstance, but tyche was also personified as a goddess according to Hellenistic convention. The exploration of Tyche is also the impetus for Polybius beginning his work, in that he discusses the fortunate events that led to Rome’s domination of the Mediterranean. Polybius on government In Book VI Polybius digresses into an explanation of the Roman constitution and he shows it to be mixed. The purpose for this is involved in the Hellenistic nature of the work, particularly his Greek audience. Greeks at this time believed that the strength of a state is manifested in the strength of its constitution. The mixed constitution was touted as the strongest constitution as it combined Aristotle's three integral types of government: monarchy, aristocracy and democracy. Polybius, again in imitation of Aristotle, makes further distinction in the forms of government by including the nefarious counterparts to the ones mentioned above; tyranny, oligarchy, and ochlocracy. These governments, according to Polybius, cycle in a process called anacyclosis or kyklos, which begins with monarchy and ends with ochlocracy. Polybius in English The first English translation, made by Christopher Watson, was published in London in 1568 as The hystories of the most famous and worthy cronographer Polybius. F. W. Walbank wrote a comprehensive commentary on the Histories in three volumes, which was published between 1957 and 1979. See also Herodotus Thucydides Xenophon References Bibliography Editions of The Histories Polybius; Frank W. Walbank, Ian Scott-Kilvert (1979). The Rise of the Roman Empire. Penguin Classics. . Modern works Mogens Herman Hansen 1995, Sources for the Ancient Greek City-State: Symposium, August, 24-27 1994, Kgl. Danske, Videnskabernes Selskab, 376 pages Brian McGing, Polybius' Histories. Oxford University Press, Oxford, 2010. Frank William Walbank, A Historical Commentary on Polybius, Oxford University Press, 1957–1979. ——, Polybius, Berkeley and Los Angeles, University of California Press, 1972. ——, Polybius, Rome and the Hellenistic World, Essays and Reflections, Cambridge University Press, 2002. External links English and Greek version The Histories Translation by W. R. Paton (Loeb edition) Short introduction to the life and work of Polybius Polybius and the Founding Fathers: the separation of powers Ancient Greek works 2nd-century BC history books Roman-era Greek historiography Political philosophy in ancient Greece
Paris–Brest–Paris (PBP) is a long-distance cycling event. It was originally a 1,200 km () bicycle race from Paris to Brest and back to Paris in 1891. The last time it was run as a race was 1951. The most recent edition of PBP was held on 20 August 2023. In 1931 amateur cyclists were separated from professionals. There are two independent long distance bicycle tours. One is the brevet (also called randonnée) organised by the Audax Club Parisien, in which cyclists ride individually. The goal is to make it within 90 hours, but with no competition. This is held every four years. The other is an audax organised by the Union des Audax Françaises where cyclists ride in a group, held every five years. The brevet As in all brevet events, there is emphasis on self-sufficiency. Riders buy supplies anywhere along the course, but support by motorized vehicles is prohibited except at checkpoints. There is a 90-hour limit and the clock runs continuously. Many riders sleep as little as possible, sometimes catching a few minutes beside the road before continuing. Participants must first complete a series of brevets (randonneuring events) within the same calendar year as PBP. The time frame is different for Australia and Oceania, so riders can qualify in summer. A series consists of 200 km, 300 km, 400 km and 600 km. Each can be replaced by a longer ride. Prior to 2007, the qualifying rides had to be completed from shortest to longest. Where once PBP was contested by a few professionals as a demonstration of the bicycle's potential, today the focus is on the ordinary rider. PBP continues to attract competitive riders. Despite insistence that it isn't a race, PBP offers trophies and prestige to the first finishers. Controls In 2015, the controls were in the following towns. All controls except for St Quentin and Brest are visited in both the westbound and eastbound directions. Saint-Quentin-en-Yvelines (start and finish) Dreux Mortagne-au-Perche Villaines-la-Juhel Fougères Tinténiac Quédillac Loudéac Saint-Nicolas-du-Pélem Carhaix-Plouguer Brest The 2019 event started and ended at the National Sheepfold, Rambouillet. History Pierre Giffard of Le Petit Journal staged the first Paris-Brest et retour. Despite changes, Paris–Brest–Paris continues to this day as the oldest long-distance cycling road event. 1891 In an era when diamond safety frames and pneumatic tires were taking over from high-wheelers with solid rubber tires, Paris-Brest was an "épreuve," a test of the bicycle's reliability. Giffard promoted the event through editorials signed "Jean-sans-Terre." He wrote of self-sufficient riders carrying their own food and clothing. Riders would ride the same bicycle for the duration. Only Frenchmen were allowed to enter, and 207 participated. The first (1891) Paris-Brest saw Michelin's Charles Terront and Dunlop's Jiel-Laval contest the lead. Terront prevailed, passing Jiel-Laval as he slept during the third night, to finish in 71 hours 22 minutes. Both had flats that took an hour to repair but enjoyed an advantage over riders on solid tires. Ultimately, 99 of the 207 finished. The race was a coup for Le Petit Journal, bringing circulation increases. However, the logistics were daunting enough that organizers settled on a ten-year interval between editions. 1891 Quadricycle Perhaps the most unusual entrant was a petrol-powered Peugeot Type 3 Quadricycle, driven by Auguste Doriot and Louis Rigoulot. In order to publicly prove its reliability and performance Armand Peugeot had persuaded Pierre Giffard to have its progress certified by his network of monitors and marshals, the distance being about three times further than any road vehicle had travelled before. After a 3-day journey from Valentigny to Paris, they started immediately behind the bicycles. They covered 200 kilometres on the first day and 160 km on the second, but then lost 24 hours when a gear failed near Morlaix. After effecting a repair using local resources (a shoemaker's tools) they arrived at Brest after dark where they were received by a large crowd and the local Peugeot bicycle dealer. For comparison, by the time Doriot and Rigoulot had reached Brest, Charles Terront and Jiel Laval had already returned to Paris. The next day they set off for Paris where they completed the trip 6 days after the cyclists. 1901 to 1951 The 1901 Paris-Brest was sponsored not only by Le Petit Journal but L'Auto-Velo, edited by Henri Desgrange. For the first time, professionals were segregated from the "touriste-routier" group (in which a 65-year-old finished in just over 200 hours). The newspapers organized a telegraph system to relay results to their Paris presses, and the public followed the exploits of Maurice Garin, who won in just over 52 hours over 112 other professionals. So many newspapers were sold that Géo Lefèvre at L'Auto suggested an even bigger race, the Tour de France. Under Henri Desgrange's leadership, the first Tour happened in 1903. The 1911 event saw pack riding rather than solo breaks. Five riders stayed together until nearly the last control, Emile Georget finally pulling away from Ernest Paul to finish in 50 hours and 13 minutes. The 1921 event, following World War I, was small, with 43 professionals and 65 touriste-routiers. It was fought between Eugène Christophe and Lucien Mottiat, Mottiat finally prevailing in 55 hours 7 minutes. In 1931, there was a change in the regulations. Proposed by André Griffe (president of the Union des Audax Cyclistes Parisiens), Desgrange (president of l'Auto) replaced the touriste-routier group by an Audax, where cyclists rode in groups of 10 at an average 20kmh (22.5kmh since 1961). Many people disliked that change. So Camille Durand (president of the Audax Club Parisien, ACP) organised another PBP at the same time on the same road. Cyclists could ride individually (French allure libre) and there was a limit of 96 hours. 57 participated, among them two women, a tandem with two men, four mixed tandems and a triplet. The 1931 professional event saw victory by Australian Hubert Opperman with a sprint on the finish velodrome after his long solo breakaway was neutralized just outside Paris. Opperman's finishing time was a record 49 hours 21 minutes, despite constant rain. His diet included 12 pounds of celery, which he thought an important energy source (celery's energy content is minuscule, but it may have been a source of fluid and salt). Owing to World War II, the 1941 PBP was postponed to 1948, when L'Equipe sponsored the event. Of 52 pros, Albert Hendrickx proved strongest, winning in a sprint over fellow Belgian François Neuville. Three years later, the 1951 event saw Maurice Diot win in a record time of 38 hours 55 minutes. It is the last time PBP has been raced by professionals and from then on the course used smaller roads and more hills. Diot won a sprint over breakaway companion Eduoard Muller after waiting for Muller to fix a puncture in Trappes, 22 km from the finish. 1956 to present: amateur event Though listed on the professional calendar in 1956 and 1961, too few racers signed up to make the event happen. Nonetheless, hundreds of randonneurs turned out. And the randonneur division even featured racing, René Herse-sponsored Roger Baumann winning over Lheuillier in 52 hours 19 minutes. PBP was held every five years between 1956 and 1975, with more participants and less media coverage. From 1948 until the 1980s, the randonneur event included a "Challenge des Constructeurs" for the bicycle maker with the three best-placed riders. René Herse won this "Challenge" every time from 1948 until 1971, and again in 1975. No other builder won the "Challenge" more than once. The Belgian former professional Herman de Munck came 5th in 66, first in 71, 75, 79 and 83. He was disqualified in 79, most believe unfairly. De Munck continues to place highly, finishing the 1999 PBP 109th place at the age of 60. The randonneur Paris–Brest–Paris has always allowed women to participate. In 1975, Chantal de la Cruz and Nicole Chabriand lowered the women's time to 57 hours. In 1979, Suzy de Carvalho finished in 57h02m. American Scott Dickson came third in 1979, though at just less than 49 hours he was four hours behind the winners. In 1983 he again came third, this time by only one hour. He won his first PBP in 1987 by breaking away in Brest, aided by a tailwind and a few strong riders from the "touring" group, which that year started many hours before the "racing" group. Dickson also won in 1991 and in 1995. Susan Notorangelo set a women's record of 54 hours 40 minutes in 1983, this was bettered in 1995 when by Brigitte Kerlouet 44 hours 14 minutes. American Melinda Lyon finished as first woman in 1999 and 2003. In 2007 the first woman was Christiane Thibault, and in 2011 it was Isabelle Esclangon, both from France. The 2007 Paris–Brest–Paris was the first poor weather event since 1987. It was the worst weather PBP riders had faced since 1956. 30.2% failed to finish. Time limits There are three groups of riders: The vedettes ("stars") are elite riders and have a time limit of 80 hours, although some will complete the ride considerably faster. The vedettes are first to depart on the Sunday afternoon. The touristes are the largest group and have a time limit of 90 hours, departing in waves on the Sunday evening. The randonneurs are a smaller group and have a time limit of 84 hours (representing the minimum average speed of 14.3km/h). This group departs early on the Monday morning. Winners Although the History of PBP website mentions that PBP started as a race, according to the official PBP website "the organizers strongly feel that PBP is not a race". This is an extremely important aspect of randonneuring, where "riders aim to complete the course within specified time limits, and receive equal recognition regardless of their finishing order." So there is no actual "winner," but a "first finisher." Professional era Amateur era Pastry The Paris–Brest, a French dessert made of choux pastry and a praline flavoured cream, with a circular shape representative of a tyre or wheel, was reportedly created in 1891 to commemorate the race. It became popular with participants, partly because of its energy-giving high caloric value, and is now found in pâtisseries all over France. Notes References External links The PBP Hub. Eric Fergusson's site focuses on history, photos, stats and links. http://www.randonneurs.bc.ca/pbp/main.html Bill Bryant, A Short History of Paris–Brest–Paris, Randonneurs USA . The definitive English language history of PBP http://www.rusa.org/pbphistory.html McCray, Phil. 1989. "PBP — 1891 to 1991" Journal of the International Randonneurs This source provided much of the historical background for this article. Available on "The PBP Hub" : http://www.randonneurs.bc.ca/pbp/books-collections/journal-IR-1989/mccray-hist/main.html Fleur Whitlock: A Film of the 2003 Paris–Brest–Paris event : http://www.pbp-films.com Paris Brest Paris, the long ride toward a distant dawn A documentary about Paris Brest Paris. Recurring sporting events established in 1891 1891 establishments in France Cycle races in France Sport in Brest, France Cycling in Paris Defunct cycling races in France Road bicycle races Ultra-distance cycling
UNITRA the Association of Polish consumer electronics manufacturers was established in 1961 and lasted in its original structure until 1989. After the systemic transformation, consumer products under the Unitra brand name reappeared on the market. Domain of activity Although the brand operated as an association of manufacturers, it had its own R & D Department. Unitra's equipment was also fabricated for the world's leading manufacturers such as the Japanese company Sanyo. Sanyo SXM-80 column speakers can be named, among others, as the result of this cooperation. In the areas where the brand lacked an adequate technological base, it entered into cooperation with manufacturers from other countries. Radio Cassette Recorder Boombox Unitra-Sankei TCR-101 makes an example of such cooperation with the Japanese enterprise Sankei. Territorial scope Products of various manufacturers operating under the common brand name were available in all the countries of Central and Eastern Europe including Poland, Czechoslovakia, Hungary and the Baltic States – Lithuania, Latvia, Estonia. Significant dates Founding In 1961, as a result of a merger of two smaller manufacturers’ associations, one organization named the Electronic and Telecommunication Engineering Industry Association UNITRA was founded. Throughout the whole period of its operation more than 60 different enterprises were members of the Association. Systemic changes As a result of the political transformation in 1989, manufacturers’ associations were disbanded. Individual companies became independent and continued their activity with varying degrees of success. Reunion The idea of founding an association of manufacturers reappeared in the 21st century. Currently, the equipment made under the Unitra brand name is fabricated by manufacturers specializing in audio category. List of associated manufactures Each of these establishments used the name UNITRA, along with a stylized U trademark, before its own name. References Mieczysław Hutnik, Tadeusz Pachniewicz, Zarys historii polskiego przemysłu elektronicznego do 1985r, SEP, Zeszyt Historyczny nr 2, Warszawa 1994. Electronics companies of Poland Polish brands
Zygaena formosa is a species of moth in the Zygaenidae family. It is found in Asia minor, Syria and Turkey.In Seitz it is described. — The colour of the wings of the much smaller [than the similar Zygaena olivieri group ] formosa H.-Sch. (7i), from Asia Minor and Syria, is far lighter pale rosy, the abdomen, however, being black except a narrow belt. — In malatiana Stgr. ( i. 1.) [now Zygaena formosa ssp. malatiana Rebel, 1901 ] (7h) this belt is broader, comprising the 2—3 penultimate segments; Malatia, east of the Antitaurus. References Moths described in 1852 Zygaena
```objective-c /* * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following disclaimer * in the documentation and/or other materials provided with the * distribution. * * Neither the name of Google Inc. nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef WebContentSecurityPolicy_h #define WebContentSecurityPolicy_h namespace blink { enum WebContentSecurityPolicyType { WebContentSecurityPolicyTypeReport, WebContentSecurityPolicyTypeEnforce, WebContentSecurityPolicyTypeLast = WebContentSecurityPolicyTypeEnforce }; } // namespace blink #endif ```
The bronzy inca (Coeligena coeligena) is a species of hummingbird in the "brilliants", tribe Heliantheini in subfamily Lesbiinae. It is found in Bolivia, Colombia, Ecuador, Peru, and Venezuela. Taxonomy and systematics The bronzy inca and most other members of genus Coeligena were at one time placed in genus Helianthea but have been in their current placement since the mid-1900s. The species has these six subspecies: C. c. ferruginea Chapman (1917) C. c. columbiana Elliot, DG (1876) C. c. coeligena Lesson, R (1833) C. c. zuliana Phelps & Phelps Jr. (1953) C. c. obscura Berlepsch & Stolzmann (1902) C. c. boliviana Gould (1861) Description The bronzy inca is about long. Males weigh about and females about . Males have a long, straight, black bill, often with some yellow at the base of the mandible; the female's bill is also straight and black but somewhat longer. The species is the drabbest member of genus Coeligena, some others of which are rather dramatically plumaged. Adult males of the nominate subspecies are mostly dark bronzy brown with a maroon sheen above; the lower back is greenish. They have a white spot behind the eye. Their throat and chest have white spots and dusky gray streaks, and the rest of the underparts are reddish brown. The forked tail is bronze. Adult nominate females are essentially the same as males but for bill length and a less forked tail, and juveniles resemble the adult female. Subspecies C. c. zuliana is slightly more greenish and less bronzy than the nominate. C. c. columbiana is smaller than the nominate and has more of an olive shade. C. c. ferruginea is similar to the nominate but with less white on the throat and a tawny wash to the underparts. C. c. obscura is the darkest subspecies, with a blackish back and a grayish, not white, throat. C. c. boliviana has dark green spots on the crown and a bronzy blackish purple tail. Distribution and habitat The subspecies of bronzy inca are distributed thus: C. c. ferruginea, Colombia's Central and Western Andes C. c. columbiana, Andes from northwestern Venezuela's Lara state south into Colombia's Eastern Andes to Huila Department C. c. coeligena, northern Venezuela from Falcón east to Miranda C. c. zuliana, Serranía del Perijá of northern Colombia and northwestern Venezuela C. c. obscura, east slope of the Andes from Colombia's Nariño Department south through Ecuador and Peru C. c. boliviana, east slope of the Andes of central and southeastern Bolivia The bronzy inca primarily inhabits the edges of humid pre-montane forest, though it also occurs in more open landscapes of scattered trees and in coffee plantations. In elevation it ranges between . Behavior Movement The bronzy inca makes some seasonal movements that have not been fully defined. Feeding The bronzy inca forages for nectar by trap-lining, visiting a circuit of a wide variety of flowering plants. It seldom feeds above the mid-story of the forest, though it has been observed feeding in the canopy. In addition to nectar it captures small arthropods by hawking and hover-gleaning. Breeding The bronzy inca's breeding season spans from November to March. It builds a cup nest of moss and plant fibers, typically above ground and well hidden in vegetation. The female alone incubates the clutch of two eggs for 15 to 16 days; fledging occurs 22 to 24 days after hatch. Vocalization What is thought to be the bronzy inca's song is "a continuous series of single rather sweet 'tseet' notes". Its calls include single "tsee" or "tzeet" notes, usually during flight. Status The IUCN has assessed the bronzy inca as being of Least Concern. It has a very larger range, and though its population size is unknown it is believed to be stable. It occurs in several protected areas, and because it readily accepts some human-altered landscapes deforestation does not appear to be a major threat. References Further reading bronzy inca Birds of the Northern Andes bronzy inca Taxa named by René Lesson Taxonomy articles created by Polbot
```c++ /Segment tree or segtree is a basically a binary tree used for storing the intervals or segments. Each node in the segment tree represents an interval. Consider an array A of size N and a corresponding segtree T: The root of T will represent the whole array A[0:N-1]. Each leaf in the segtree T will represent a single element A[i] such that 0 <= i < N. The internal nodes in the segtree tree T represent union of elementary intervals A[i:j] where 0 <= i < j < N./ #include <iostream> #include <math.h> using namespace std; #define MAX 100 int tree[MAX] = {0}; int lazy[MAX] = {0}; //Updating the tree by incrementing elements within range [l, r] with value val int update(int node, int start, int end, int l, int r, int val); //Function to find sum and maximum value in the array within the query [l,r] int func(int start, int end, int l, int r, int node, int choice); //Constructing tree void construct(int arr[], int start, int end, int node); int main() { int arr[] = {1, 2, 3, 4, 5}; int n = sizeof(arr)/sizeof(arr[0]); int node = 0; int start = 0; //Constructing the tree construct(arr, start, n - 1, node); // Updating the value in the array from index 0 to index 3 by adding value 4 in it. update(node, start, n - 1, 0, 3, 4); //After updating the array becomes [5,6,7,8,5] cout << "1.Sum\n"; cout << "2.Maximum\n"; cout << "3.Quit"; int choice; do { cout << "\nEnter your choice: "; cin >> choice; switch(choice) { case 1: // To get the sum of updated array from index 1 to index 4 // Sum of updated array [5,6,7,8,5] cout << "\nUpdated sum of value in given range = " << func(start, n-1, 1, 4,node,choice); break; case 2: // To get the maximum value in updated array from index 1 to index 4 // Maximum value of the updated array cout << "\nUpdated maximum value in given range = " << func(start, n-1, 1, 4,node,choice); break; case 3: cout << "Exit \n"; break; } } while(choice != 3); return 0; } // A recursive function that constructs Segment Tree for // array[start..end]. void construct(int arr[], int start, int end, int node) { // out of range as start can never be greater than end if (start > end) return ; // If there is one element in array, store it in // current node of segment tree and return if (start == end) { tree[node] = arr[start]; return; } // If there are more than one elements, then // left and right subtrees and store the sum // of values in this node int mid = (start + end) / 2; construct(arr, start, mid, node * 2 + 1); construct(arr, mid + 1, end, node * 2 + 2); tree[node] = tree[node * 2 + 1] + tree[node * 2 + 2]; } //Function to find sum and maximum value in the array within the query [l, r] int func(int start, int end, int l, int r, int node, int choice) { if (lazy[node] != 0) { // Make pending updates to this node. tree[node] += (end - start + 1) * lazy[node]; if (start != end) { // Mark child as lazy lazy[node * 2 + 1] += lazy[node]; // Mark child as lazy lazy[node * 2 + 2] += lazy[node]; } // Reset it lazy[node] = 0; } // Current segment is not within range [l, r] if (start > end \|\| start > r \|\| end < l) return 0; // Current segment is totally within range [l, r] if (start >= l && end <= r) return tree[node]; int mid = (start + end) / 2; //To find sum if (choice == 1) return func(start, mid, l, r, 2node+1, choice) + func(mid+1, end, l, r, 2node+2, choice); //To find max value if (choice == 2) return max(func(start, mid, l, r, 2node+1, choice),func(mid+1, end, l, r, 2node+2, choice)); } int update(int node, int start, int end, int l, int r, int val) { if (lazy[node] != 0) { // This node needs to be updated // Update it tree[node] += (end - start + 1) * lazy[node]; if (start != end) { lazy[node * 2 + 1] += lazy[node]; lazy[node * 2 + 2] += lazy[node]; } lazy[node] = 0; } // out of range if (start > end \|\| start > r \|\| end < l) return 0; / Current segment is totally within range [l, r] if (start >= l && end <= r) { tree[node] += (end - start + 1)val; if (start != end) { // Not leaf node lazy[node 2 + 1] += val; lazy[node * 2 + 2] += val; } return 0; } // If not a leaf node, recur for children. int mid = (start + end) / 2; // Updating left child update(node * 2 + 1, start, mid, l, r, val); // Updating right child update(node * 2 + 2, mid + 1, end, l, r, val); // Use the result of children calls to update this node tree[node] = tree[node * 2 + 1] + tree[node * 2 + 2]; } /* 1.Sum 2.Maximum 3.Quit Enter your choice: 1 Updated sum of value in given range = 26 Enter your choice: 2 Updated maximum value in given range = 8 */ ```
Robert Anthony Daly (born December 8, 1936) is an American business executive who has led organizations such as CBS Entertainment, Warner Bros., Warner Music Group, and the Los Angeles Dodgers. Daly currently serves as a non-executive advisor to Paramount Pictures, where he provides counsel on a number of strategic areas. Daly also serves as Chair of the Board of Directors for the American Film Institute, an organization he has been involved with for many years. Additionally, he is a member of the Academy of Motion Picture Arts and Sciences, the UCLA School of Theater, Film and Television’s Dean’s Advisory Board and the UCLA Executive Board for the Medical Sciences. In 2006, he joined the board of the USC Annenberg School for Communication. Daly completed his term as chairman of the board of trustees for the children's charity Save the Children in February 2010. In addition, Daly serves as president of Rulemaker, Inc., an investment consulting company. He is also chairman of DonorsChoose.org, an organization which provides material assistance to teachers in the public school system and whose slogan is, “Teachers ask. You choose. Students learn.” Daly is also a Founding Director of the Geffen Playhouse. Biography Early life Daly was born and grew up Brooklyn, New York, the youngest of six children. Daly attended his first Dodgers game when he was six years old and has stated that the '55 Dodgers are his favorite team and Jackie Robinson is his hero. After graduating high school, Daly applied for a job as an office boy at CBS to help support his mother and soon after got promoted but left CBS when he was drafted into the United States Army in which he described as "When I was in the Army, they had theaters on the base and, for some reason or other, I went to the movies any time I could go, and I took notes. I don’t know why. It wasn’t my job at CBS; I just took notes." After leaving the army, Daly returned to CBS. Education and career at CBS Robert A. Daly attended Brooklyn College and Hunter College. He received an Honorary Doctorate of Fine Arts from the American Film Institute, as well as a Doctorate of Humane Letters from Trinity College (Connecticut). Daly began as a gofer for the Columbia Broadcasting System in 1955, before beginning a career path to "president of entertainment". In addition to his duties as chief of television operations at CBS, Daly was also responsible for CBS Theatrical Films, which was formed in October 1979. During his 25-year association with CBS, Daly served in various posts, including executive vice president of CBS Television Network and vice president of business affairs. Warner Bros. Having left CBS, he joined Warner Bros. on December 1, 1980. His titles were chairman of the board and co-chief executive officer. One year later, he was named chairman of the board and chief executive officer and appointed Terry Semel president and chief operating officer. Daly resumed his previous title on March 30, 1994, when he announced he would share his office with Semel. On November 16, 1995, Daly and Semel added the Warner Music Group to their responsibilities and also became chairmen and co-chief executive officers of Warner Music Group. On July 15, 1999, Daly and Semel announced they would not seek to renew their contracts with Time Warner (the parent company of Warner Bros. and the parent company at the time of the Warner Music Group), which expired at the end of 1999. During the Daly/Semel era at Warner Bros., they were credited for 16 consecutive years of record earnings; for more than 400 major motion pictures (that garnered 13 Best Picture Oscar nominations, three of which were winners: Chariots of Fire, Driving Miss Daisy and Unforgiven); for thousands of hours of top-rated, top-quality and record-breaking television series (including China Beach, Murphy Brown, Friends and ER); for creating the current model of co-financing motion pictures while retaining worldwide distribution; and for extending and revitalizing such world renowned brands as Batman, Superman and Looney Tunes characters into franchises, licensed products and into worldwide retail stores. Other accomplishments by Daly and Semel include developing the leading distribution operations in the world for feature films, television and home video as well as the emerging technologies; pioneering the creation and use of DVD; creating The WB Network; being at the forefront of marketing films, series and animation on the Internet; and for generally diversifying the studio into a global leader in every aspect of the entertainment industry. Daly and Semel and their partnership were immortalized on September 30, 1999 as the pair put their hands and footprints in the same cement square in the forecourt of Grauman's Chinese Theatre, only the second studio executives in history to do so. However, some people felt the two had been stretched too far in trying to oversee such a massive conglomerate. In a 1997 interview that Mr. Daly gave for the New York Times it is said "Mr. Daly brushed aside the notion that he and Mr. Semel are stretched too thin. 'If we were, we wouldn't have taken the job...'[.]" Los Angeles Dodgers Daly went to the Los Angeles Dodgers baseball organization after 19 years at Warner Bros. He served as managing partner, chairman and chief executive officer of the Los Angeles Dodgers, overseeing all operations of the organization during the time they were owned by News Corp. During the four year period Daly ran the organization, he took great pride in rebuilding the farm system. Daly and his partners sold the team in 2004, and he remains a fan. Save The Children Daly completed his term as chairman of the board of trustees for Save the Children on February 28, 2010. In his five years as Board Chair, he oversaw annual program growth averaging 13.5 percent, serving 48 million children in 2008. He also spearheaded the creation of Save the Children's first domestic response unit in the United States, which has proven successful in responding to disasters such as Hurricane Katrina, Gustave and Ike. In his final months as chairman, Daly was actively involved in the Haitian earthquake relief effort. Personal life Daly's first marriage was to philanthropist and arts dealer Nancy MacNeil, but the couple divorced in 1991. MacNeil passed away in 2009 at the age of 68. Daly married lyricist Carole Bayer Sager in 1996. The couple live in Los Angeles. Daly also owns a ranch where he raises chickens, sheep, goats, miniature horses and plants tomatoes. Daly has three children from his marriage with MacNeil, a stepson with Bayer Sager and eight grandchildren. References 1936 births Living people American chief executives of professional sports organizations American chief operating officers American film studio executives Brooklyn College alumni CBS executives Hunter College alumni Los Angeles Dodgers executives Presidents of CBS Entertainment University of California, Los Angeles people University of Southern California people Warner Bros. people
Dionisio Petra, O.S.B. (1630 – June 1698) was a Roman Catholic prelate who served as Bishop of Capri (1683–1698). Biography Dionisio Petra was born in Vasto Girardi, Italy in 1630 and ordained a priest in the Order of Saint Benedict. On 12 July 1683, he was appointed during the papacy of Pope Innocent XI as Bishop of Capri. He served as Bishop of Capri until his death in June 1698. References External links and additional sources (for Chronology of Bishops) (for Chronology of Bishops) 17th-century Italian Roman Catholic bishops Bishops appointed by Pope Innocent XI 1630 births 1698 deaths Benedictine bishops
In materials science, a partial dislocation is a decomposed form of dislocation that occurs within a crystalline material. An extended dislocation is a dislocation that has dissociated into a pair of partial dislocations. The vector sum of the Burgers vectors of the partial dislocations is the Burgers vector of the extended dislocation. Reaction favorability A dislocation will decompose into partial dislocations if the energy state of the sum of the partials is less than the energy state of the original dislocation. This is summarized by Frank's Energy Criterion: Shockley partial dislocations Shockley partial dislocations generally refer to a pair of dislocations which can lead to the presence of stacking faults. This pair of partial dislocations can enable dislocation motion by allowing an alternate path for atomic motion. In FCC systems, an example of Shockley decomposition is: Which is energetically favorable: The components of the Shockley Partials must add up to the original vector that is being decomposed: Frank partial dislocations Frank partial dislocations are sessile (immobile), but can move by diffusion of atoms. In FCC systems, Frank partials are given by: Thompson tetrahedron For FCC crystals, Thompson tetrahedrons or Thompson notation are an invented notation for more easily describing partial dislocations. In a given unit cell, mark point A at the origin, point B at a/2 [110], point C at a/2[011], and point D at a/2[101]--these points form the vertices of a tetrahedron. Then, mark the center of the opposite faces for each point as α, β, γ, and δ, respectively. With this, the geometric representation of a Thompson tetrahedron is complete. Any combination of Roman letters describes a member of the {111} slip planes in an FCC crystal. A vector made from two Roman letters describes the Burgers vector of a perfect dislocation. If the vector is made from a Roman letter and a Greek letter, then it is a Frank partial if the letters are corresponding (Aα,Bβ,...) or a Shockley partial otherwise (Aβ, Aγ,...). Vectors made from two Greek letters describe stair-rod dislocations. Using Thompson notation, Burgers vectors can be added to describe other dislocations and mechanisms. For example, two Shockley partial dislocations can be added to form a perfect dislocation: Aβ + βC = AC. It is necessary that the interior letters of a given operation match, but many can be added in sequence to describe more complex mechanisms. It is useful to summarize this information using an unfolded Thompson tetrahedron. Lomer–Cottrell lock The Lomer-Cottrell dislocation forms via a more complex dislocation reaction. For example, consider two extended dislocations: DB = Dγ + γB and BC = Bδ + δC. When they meet, it is more energetically favorable to form a single dislocation, DC = DB + BC = Dγ + γB + Bδ + δC = Dγ + γδ + δC. The trailing partials of each extended dislocation now form a stair-rod partial. This structure leads to reduced mobility of the dislocations as the core structure is non-planar (meaning it doesn’t cross along the face of the tetrahedron). This reduction of mobility transforms the Lomer-Cottrell dislocation into an obstacle for other dislocations, thus strengthening the material. Mechanical implications When forming stacking faults, the partial dislocations reach an equilibrium when the repulsive energy between partial dislocations matches the attractive energy of the stacking fault. This means that higher stacking fault energy materials, i.e. those with high shear modulus and large Burgers vectors, will have smaller distance between partial dislocations. Conversely, low stacking fault energy materials will have large distances between partial dislocations. In order to cross slip, both partial dislocations need to change slip planes. The common Friedel-Escaig mechanism requires that the partial dislocations recombine at a point before cross slipping onto a different slip plane. Bringing the partials together entails applying sufficient shear stress to reduce the distance between them, so partial dislocations with low stacking fault energies will inherently be more difficult to bring together and thus more difficult to cross slip. Conversely, high stacking fault energy materials will be easier to cross slip. The more easily a dislocation can cross slip, the more freely the dislocation can move around obstacles–this makes work hardening more difficult. Thus, materials that allow easy cross slip (high stacking fault energy) will see less work hardening and strengthening from methods like solid-solution strengthening. References Crystallographic defects
Holcocera immaculella is a moth in the family Blastobasidae. It is found in North America and Canada, including Ontario, Quebec, Alabama, Arizona, British Columbia, Florida, Maine, Manitoba, Massachusetts, Minnesota, New Brunswick, New York and Tennessee. The larvae feed on the seeds of Picea species. References Moths described in 1930 immaculella
Gołuchowski (feminine: Gołuchowska; plural: Gołuchowscy) is a Polish surname. Notable people with this surname include: Agenor Maria Gołuchowski (1849–1921), Polish-Austrian politician Agenor Romuald Gołuchowski (1812–1875), Polish-Austrian politician Józef Gołuchowski (1797–1858), Polish philosopher See also Polish-language surnames
The NA numbers as assigned by the United States Department of Transportation. See also List of UN numbers References NA numbers
Newport Harbor: The Real Orange County (or simply Newport Harbor) is an MTV reality television series, documenting the lives of several teenagers of affluent families in Newport Harbor, a seaside community located in Orange County, California, United States. It differs from the usual reality show in that it is structured as a traditional narrative (seen more commonly in fictionalized television dramas or soap operas) than a straightforward observant documentary style. The series premiered on August 13, 2007, and concluded on January 2, 2008. The series was created as a successor to Laguna Beach: The Real Orange County to avoid cancelling the series for lack of a fourth season plotline. However, Newport Harbor proved to be unsuccessful and was cancelled after two seasons. Development Laguna Beach: The Real Orange County was initially developed as a documentary of teens living in the wealthy, beachside community of the same name. The first two seasons were successful, which led to the creation of the spin-off, The Hills, though the third season's ratings took a massive dip after the original cast left the series and was replaced by a set of current high school students. With a lack of interest in casting for the fourth season, MTV and the producers considered relocating, scouting numerous other wealthy Southern California towns, including San Marino, Anaheim Hills, Rancho Santa Fe, and Malibu before deciding to base the show in Newport Harbor, an area of the city of Newport Beach. This series was labeled a "love story show", since it seemed most of the series was based around Chrissy Schwartz and Clay Adler. MTV decided to pull the plug on Newport Harbor due to under-performance of ratings. The show was officially cancelled on January 2, 2008. Cast Main Chrissy Schwartz Clay Adler Allie Stockton Grant Newman Sasha Dunlap Chase Cornwell Taylor Geiney Supporting Samantha Kuhns, Allie's friend Steve & Linda Schwartz, Chrissy's dad & mom Art & Carolyn Stockton, Allie's dad & mom Courtney Briglio, Chrissy & Sasha's friend Jasen Ruiz, Clay & Grant's friend Andrew Skjonsby, Clay & Grant's friend Matt "Krutch" Kretschmar, Chase's friend Kylie Cusick & Allie, Chrissy's sorority sisters Billy Hahn, Chrissy's friend Episodes Series overview Season 1 (2007) Filmed from February to August 2007. Season 2: Home for the Holidays (2007–08) Filmed from November to December 2007. Home media The website Amazon.com had struck a deal with many companies to produce DVDs of certain shows, through the CreateSpace service. Using a concept similar to print on demand, Amazon made the discs, cover art, and disc art themselves. The complete series was released on Amazon's website on August 29, 2008, in a three disc set. Both seasons are also available for digital download on iTunes. See also Newport Beach, California The City Living on the Edge The O.C. Baldwin Hills Freshwater Blue References External links Newport Harbor: The Real Orange County at the Internet Movie Database Newport Harbor: The Real Orange County at TV.com The Real Orange County at theRealOC.com 2007 American television series debuts 2008 American television series endings 2000s American reality television series American television spin-offs English-language television shows MTV reality television series Television series about teenagers Television shows set in Newport Beach, California
Uto-Aztecan languages are divided into two groups, Northern and Southern Uto-Aztecan languages. They are spoken in the southwestern United States, north and central Mexico, and in Central America. Northern Uto-Aztecan Ute/Southern Paiute Luke's gospel was completed in 2006 and published by Wycliffe Bible Translators. Shoshone Beverly Crum published her translation of Mark into Shoshone in 1986. This was published by the U.S. Center for World Missions Comanche Mark was translated into Comanche language (Uto-Aztecan languages) by Elliot Canonge of Wycliffe Bible Translators, and was published by the American Bible Society in 1958 as Mark-ha tsaatü narümu'ipü̲.An edition of the Gospel of Mark, containing a Commanche Language Key, was published by authority of Big Cove Baptist Church, Cherokee, NC, and distributed by the Global Bible Society. Northern Paiute John and Joy Anderson of Wycliffe Bible Translators published a translation into Northern Paiute of Mark's gospel in 1977 and the whole New Testament in 1985. Hopi The four gospels was published in 1929 by the American Bible Society. The New Testament was first published in 1972. It seems to mainly have been the work of Jonathan Ekstrom and Starlie "Elsie" Polacca. Southern Uto-Aztecan Nahuatl Shortly after the Spanish conquest of Mexico, Alonso de Molina translated the Doctrina christiana into Nahuatl, which was printed in 1546. The Spanish priest Bernardino de Sahagún attempted to translate the whole Bible into Nahuatl in order to make the Nahua understand the Word of God, but this was forbidden by the Inquisition in Sevilla on 10 May 1576. It was not until the 20th century that the whole New Testament was translated into this language, when Protestant missionaries, at that time mainly from North America, started to translate the Scriptures into several Native Central American languages. Since then, according to the Summer Institute of Linguistics, the New Testament has been translated into 11 varieties of Nahuatl – Northern Puebla Nahuatl [ncj] (1979), Sierra Puebla Nahuatl [azz] (1979), Tetelcingo Nahuatl [nhg] (1980), Eastern Huasteca Nahuatl [nhe] (1984), Western Huasteca Nahuatl [nhw] (1986), Guerrero Nahuatl [ngu] (1987), Michoacán Nahuatl [ncl] (1998), Central Huasteca Nahuatl [nch] (2005), Northern Oaxaca Nahuatl [nhy] (2006), Southeastern Puebla Nahuatl [npl] (2011), and Zacatlán-Ahuacatlán-Tepetzintla Nahuatl [nhi] (2012) –, and the whole Bible into the three varieties Eastern Huasteca Nahuatl [nhe] (2005), Western Huasteca Nahuatl [nhw] (2004), and Central Huasteca Nahuatl [nch] (2005). The Eastern Huasteca Nahuatl translation of the whole Bible and most of the Nahuatl translations of the New Testament have been accessible on internet Bible portals since about 2012. The Protestant Nahuatl Bible translations have been criticized by representatives of the Catholic Church as “full of doctrinal and cultural errors”. After a workshop of Nahuatl-speaking Catholics, mainly priests, from various regions of Mexico, the bishop of San Cristóbal de las Casas, Felipe Arizmendi Esquivel, announced in August 2012 the formation of a catholic National Nahuatl Commission for a single translation of the whole Bible into Nahuatl, which is to be understood by the speakers of different Nahuatl varieties. However, a date for completion has not been mentioned. Nawat/Pipil The Bible is being translated into the Pipil or Nawat language, spoken by a minority in El Salvador. This translation is being done by Alan R. King, a linguist with "Ne Bibliaj Tik Nawat". The Bible is being translated from the original languages. The New Testament is complete, and work is ongoing on the Old Testament. External links Ne Bibliaj O'odham The New Testament in the O'odham language (Uto-Aztecan family) of the O'odham of the Sonoran Desert of southeastern Arizona and northwest Mexico was translated by Dean and Lucille Saxton of Wycliffe Bible Translators. It was published by The World Home Bible League and The Canadian Home Bible League in 1975. Work is being done on the Old Testament. Pima Bajo Portions, 1994 Tarahumara, Central Wycliffe Bible Translators' Tarahumara New Testament was published in the 1972. This was preceded by the gospels and acts being published in 1969. Little Flock Christian Fellowship updated the New testament and published both on the Internet. LFCF's updates were mostly dealing with the orthography. Tarahumara New Testament Tarahumara, Baja New Testament, 2007 Northern Tepehuan The New Testament, translated by Burton William Bascom and Marvel Bascom was published in 1981 by the World Home Bible League. Yaqui The Bible League published John and Mary Dedrick's translation of the New Testament in 1977, a second edition was published in 2003. References Uto-Aztecan languages Uto-Aztecan
Óscar E. Duplan Maldonado (April 17, 1890 - April 23, 1942) was the Mexican ambassador to Colombia from 1933 to 1934. Biography He was born on April 17, 1890, in Pichucalco, Mexico to Dr. Ernesto Duplán. He attended the Model School of Orizaba and Universidad Veracruzana and Universidad Popular Autónoma del Estado de Puebla but did not graduate. He joined the diplomatic service as a secretary at the Embassy of Mexico, Washington, D.C. under Eliseo Arredondo. He served as Ambassador of Mexico to Colombia from 1933 to 1934 He died on April 23, 1942, in Ciudad de México. References 1890 births 1942 deaths Ambassadors of Mexico to Colombia People from Pichucalco
The Baluarte Bridge (), officially the Baluarte Bicentennial Bridge (), is a cable-stayed bridge in Mexico. It is located between the municipalities of Concordia in Sinaloa and Pueblo Nuevo in Durango, along the Durango–Mazatlán highway, Mexico 40D. The bridge has a total length of , with a central cable-stayed span of . With the road deck at above the valley below, the Baluarte Bridge is the third-highest cable-stayed bridge in the world, the seventh-highest bridge overall and the highest bridge in the Americas. Construction of the bridge began in 2008, it was inaugurated in January 2012 and opened to traffic in late 2013. The bridge forms part of a new highway linking the Atlantic and Pacific coasts of northern Mexico and has reduced the travelling time between Durango and Mazatlán from approximately 6 to 2.5 hours. Structure and construction The bridge's four-lane roadway, wide by long, is supported at a height of above the Baluarte riverbed by 12 piers, two of which are also pylons (towers). Each of the two pylons measures at its base, widens to carry the roadway, and tapers to at its top; the taller, P5, is high. 76 steel cables pass over saddles in the pylons to form 152 suspenders in a two plane semi-fan layout. The tallest intermediate pier, P9, is high. It crosses a gorge in the Sierra Madre Occidental mountains with a clearance of below the deck. Its clearance is higher than that of the previous record-holder, France's Millau Viaduct, which has a clearance of . The bridge's central span, long, is also the longest cable-stayed span in North America, longer than that of the John James Audubon Bridge in St. Francisville, Louisiana. Construction on the bridge began on 21 February 2008. The work was carried out by a consortium that included Tradeco Infraestructura, IDINSA, Aceros Corey and VSL México, which was awarded the contract in May 2007 by the Mexican transport and communications ministry, the SCT, beating two other higher-priced bidders. The cost has risen significantly from the original bid of 1.28 billion pesos (US$118 million); according to an SCT official, this is due, among other things, to the number of structures involved in such a project. The work is being funded by Mexico's National Infrastructure Fund (Fonadin) and the Durango-Mazatlán Trust (Fiduma). It is planned that the cost of the bridge will be recovered by concessionary fees from the highway's operator. The choice of a cable-stayed design was made to enable the construction to proceed outward from each of the two main pylons, thus making it unnecessary to build an expensive and time-consuming falsework. By January 2012, the bridge's construction had required the use of 1,500 workers and engineers, of steel and of concrete. of rock were excavated to lay the bridge's foundations. The Baluarte Bridge construction is part of an 18 billion peso (US$1.44 billion) project to build a new highway connecting Durango with Mazatlán across some of Mexico's most rugged mountains. The cost of the bridge itself has been put at 2.18 billion pesos (US$158.7 million). It will replace a notoriously dangerous road over the mountains, which are known locally as "the Devil's Backbone". The old road was built in the 1940s in terrain so difficult that mules had to be used to bring in supplies for the construction workers. It is the only crossing through the mountains for . The new Mazatlán–Durango highway will include 63 tunnels and 32 bridges, eight of which will be over high. When completed, the new highway is expected to slash the travelling time between Durango and Mazatlán from eight hours to two and a half. It is intended to form part of an eventual road link between the Atlantic and Pacific coasts of Mexico. Around 2,000 vehicles are expected to use the bridge daily. Inauguration and economic and social impact The Baluarte Bridge was inaugurated by President Calderón on 5 January 2012. Officials from Guinness World Records were on hand at the inauguration ceremony to certify the bridge as the world's highest cable-stayed bridge. At the time it was about 86 per cent complete. It was finished in late January 2012, and went operational by 2013. Its official name as the "Bicentennial" bridge refers to the 2010 bicentenary of the Mexican declaration of independence from Spain at the start of the Mexican War of Independence in 1810. It had been hoped that the bridge would be inaugurated in the second half of 2010 as part of the bicentennial celebrations, but delays pushed the date back. During the ceremony, Calderón hailed the bridge as a way to "unite the people of northern Mexico as never before." Officials expressed the hope that it would boost trade and tourism in the area, which is one of the most remote parts of Mexico. The region is seriously affected by poverty and lawlessness which has prompted many locals to take up illegal drug farming, smuggling and even highway robbery on the old Durango–Mazatlán road. Poor communications in the region have made it difficult to police. This bridge has deemed Mexico safe since its conception. According to a town administrator in Pueblo Nuevo municipality, the new bridge and road will help to improve security by reducing the region's isolation. Officials have also expressed hopes that it will help to promote economic development. Durango's state government plans to build a new industrial park on a site adjoining the highway, while Sinaloa's governor anticipates a boost in the usage of Mazatlán's port from the increase in cross-country traffic. The project is reported to have created 3,500 jobs directly and a further 12,000 indirectly. Gallery See also List of largest cable-stayed bridges List of highest bridges in the world References External links Flickr photo gallery Images and drawings at highestbridges.com 3D-model “Baluarte Bridge” for Google Earth "New bridge in Mexico comes loaded with big dreams" by Nick Miroff, Washington Post 01/28/2012 See also the YouTube VSL video of mid-construction, about four minutes (NqUAAmeZ49E). Road Traffic backstory Cable-stayed bridges in Mexico Buildings and structures in Durango Buildings and structures in Sinaloa Road-rail bridges Bridges completed in 2012 Transportation in Durango Sierra Madre Occidental
Amarius Tyron Mims (born October 14, 2002) is an American football offensive tackle for the Georgia Bulldogs. Early life and high school Mims grew up in Cochran, Georgia and attended Bleckley County High School. He was rated a five-star recruit and committed to play college football at Georgia over offers from Alabama and Tennessee. College career Mims played in seven games, all off the bench, during his freshman season with the Georgia Bulldogs. After the season, He entered the NCAA transfer portal, but ultimately decided to return to Georgia for his sophomore season. Mims played in the first 12 games of his sophomore season as a reserve. Following an injury to starting right tackle Warren McClendon, he started the 2022 Peach Bowl and the 2023 College Football Playoff National Championship. References External links Georgia Bulldogs bio 2002 births Living people American football offensive tackles Georgia Bulldogs football players Players of American football from Georgia (U.S. state) People from Bleckley County, Georgia
Volume contraction is a decrease in the volume of body fluid, including the dissolved substances that maintain osmotic balance (osmolytes). The loss of the water component of body fluid is specifically termed dehydration. By body fluid compartment Volume contraction is more or less a loss of extracellular fluid (ECF) and/or intracellular fluid (ICF). ECF volume contraction Volume contraction of extracellular fluid is directly coupled to and almost proportional to volume contraction of blood plasma, which is termed hypovolemia. Thus, it primarily affects the circulatory system, potentially causing hypovolemic shock. ECF volume contraction or hypovolemia is usually the type of volume contraction of primary concern in emergency, since ECF is approximately half the volume of ICF and is the first to be affected in e.g. bleeding. Volume contraction is sometimes even used synonymously with hypovolemia. ICF volume contraction Volume contraction of intracellular fluid may occur after substantial fluid loss, since it is much larger than ECF volume, or loss of potassium (K+) see section below. ICF volume contraction may cause disturbances in various organs throughout the body. Dependence on lost solutes Na+ loss approximately correlates with fluid loss from ECF, since Na+ has a much higher concentration in ECF than ICF. In contrast, K+ has a much higher concentration in ICF than ECF, and therefore its loss rather correlates with fluid loss from ICF, since K+ loss from ECF causes the K+ in ICF to diffuse out of the cells, dragging water with it by osmosis. Estimation When the body loses fluids, the amount lost from ICF and ECF, respectively, can be estimated by measuring volume and amount of substance of sodium (Na+) and potassium (K+) in the lost fluid, as well as estimating the body composition of the person. 1. To calculate an estimation, the total amount of substance in the body before the loss is first estimated: where: nb = Total amount of substance before fluid loss Osmb = Body osmolarity before loss (almost equal to plasma osmolality of 275-299 milli-osmoles per kilogram) TBWb = Total body water before loss (approximately 60% of body weight, or using tritiated water or deuterium) 2. The total amount of substance in the body after the loss is then estimated: where: na = Total amount of substance after fluid loss nb = Total amount of substance before fluid loss nlost Na+ = Amount of substance of lost sodium nlost K+ = Amount of substance of lost potassium 3. The new osmolarity becomes: where: Osma = Body osmolarity after loss na = Total amount of substance after fluid loss TBWb = Total body water before loss Vlost = Volume of lost fluid 4. This osmolarity is evenly distributed in the body, and is used to estimate the new volumes of ICF and ECF, respectively: where: VICF a = Intracellular fluid volume after fluid loss nICF a = Amount of substance in ICF after fluid loss Osma = Body osmolarity after loss VICF b = Intracellular fluid volume before fluid loss (approximately 40% of body weight, or subtracting ECF from TBW) Osmb = Body osmolarity before loss (almost equal to plasma osmolality of 275-299 milli-osmoles per kilogram) nlost K+ = Amount of substance of lost potassium In homologous manner: where: VECF a = Extracellular fluid volume after fluid loss nECF a = Amount of substance in ECF after fluid loss VECF b = Extracellular fluid volume before fluid loss (approximately 20% of body weight, or by using inulin) Osmb = Body osmolarity before loss (almost equal to plasma osmolality of 275-299 milli-osmoles per kilogram) nlost K+ = Amount of substance of lost potassium 5. The volume of lost fluid from each compartment: where: VI/ECF b = Intra/Extra-cellular fluid volume before fluid loss VI/ECF a = Intra/Extra-cellular fluid volume after fluid loss See also Contraction alkalosis, the increase in blood pH that occurs as a result of fluid losses References Physiology
The Holden SSX is a concept sports–hatchback prototype car based on the Holden VY Commodore, with a more aggressive edge. The front has a bold, deeper fascia with twin projector headlights, foglamps and an exclusive front grille. The back is totally redesigned and features a deep, aggressive bumper and blackened taillights, plus hatchback entry, making it (Rover SD1 and Holden Torana aside) one of the world's first V8 hatchback cars. The car features a "Kryptonite" green metallic paint job, with a black and silver interior. The dials light up in a deep red when lights are on. The car is a concept only; it formed part of the extensive Holden display at the Sydney International Motor Show from October 18 to October 27, 2002. Engine The SSX is powered by a Generation III/Holden 5.7 L V8 engine generating through all four wheels. This is done though Holden's "crossXtrac" all-wheel drive system, also featured on the Holden Crewman ute, Adventra wagon, HSV Avalanche and HSV Coupé 4. References SSX
Arthur Woodward (18 November 1906 – 7 September 1984) was an English professional footballer. Born in Watford, Hertfordshire, Woodward spent the whole of his professional career at his hometown club. He also played for British truck manufacturer Scammell's football team during the Second World War. Woodward started his career in 1926 as a centre half and wing half, initially retiring in 1942. Player shortages prompted him to come out of retirement in 1944, and Woodward played in a variety of positions, including two full matches as a goalkeeper, before permanently retiring in 1945. He played 391 Football League games, 29 FA Cup ties, and 12 matches in the Football League Third Division South Cup, which Watford won in 1937. Woodward scored 19 goals in all competitions, and a further 3 in his 105 wartime games for the club. Woodward died in Harlesden, Greater London at the age of 77. References Watford F.C. players English Football League players Footballers from Watford 1906 births 1984 deaths English men's footballers Men's association football defenders
Something to Talk About may refer to: Something to Talk About (album), a 1986 album by Anne Murray "Something to Talk About" (Badly Drawn Boy song), a 2002 song by Badly Drawn Boy from the soundtrack to the film About a Boy "Something to Talk About" (Bonnie Raitt song), a 1991 song written by Shirley Eikhard and recorded by Bonnie Raitt Something to Talk About (film), a 1995 romantic comedy-drama film directed by Lasse Hallström "Something to Talk About" (Grey's Anatomy), a 2005 episode of the medical drama TV series Grey's Anatomy Something to Talk About (documentary series), a 2013 series of documentaries presented by Brainstorm Media and DirecTV
14N may refer to: Gnome-Rhône 14N, a World War II French 14-cylinder two-row air-cooled radial engine Kodak DCS Pro 14n, a 2002 professional F-mount digital SLR camera Nitrogen-14 (14N), an isotope of nitrogen See also N14 (disambiguation)
Pool of Radiance: Ruins of Myth Drannor is a Forgotten Realms Dungeons & Dragons role-playing video game released in 2001 by Ubi Soft. It is the fifth and latest game in the Pool of Radiance series. Gameplay Ruins of Myth Drannor takes place from an isometric third-person perspective, similar to the Baldur's Gate series. Unlike Baldur's Gate and other Infinity Engine games, Ruins of Myth Drannor features turn-based combat rather than real-time combat. The game uses three-dimensional characters over pre-rendered two-dimensional backgrounds. The game is a dungeon crawl, with a focus on hack and slash combat and the exploration of large dungeons. Story progression and interaction with other characters is a minimal part of the game, although there is some interaction with non-player characters (NPCs) and other in-game characters. Plot The story is set in the city of New Phlan. A dracolich and his sorcerer queen have seized control of the Mythal, the ancient magic that once protected the long abandoned elven city of Myth Drannor. Once the elven ruin is completely in their thrall, the cult intends to expand its domination one city—and one soul—at a time. Four heroes are sent to Myth Drannor by Elminster to stop the dracolich and the sorcerer queen from using the power of the Mythal to conquer Faerûn. They must travel to all areas of Myth Drannor, including dungeons and catacombs beneath the city, in an attempt to stop evil from taking over the region. Development Producer Chuck Yager said the game was originally designed using the Advanced Dungeons & Dragons 2nd edition rules, but was converted to the 3rd edition rules partway through development. While Baldur's Gate II: Shadows of Amn implemented a few elements from the 3rd edition, Ruins of Myth Drannor was the first game attempting to comprehensively adapt those rules. Reception Sales According to GameSpot's Desslock, Ruins of Myth Drannor "sold extremely well during its first few weeks, but bad word of mouth and reviews crippled future sales". He remarked that certain retailers had placed notes on their displays to warn customers about the title's bugs. In the United States, the game entered NPD Intelect's computer game sales chart at #1 for September 23–29, 2001. It held this position on the following week's chart, before falling to #9 in its third week of release. According to Ubisoft, the game surpassed 150,000 sales in its first 14 days. It finished 20th on NPD Intelect's chart for the month of September overall, and maintained this spot in October. By the first week of November, Ruins of Myth Drannor had sold 55,211 units in the United States. Critical reviews The game received lackluster reviews and was plagued with bugs. One major bug would cause a player's system files to uninstall when the game was removed. Other bugs included problems with installation, saving game files, graphics, and gameplay. Chris Chan of the New Straits Times complained that most of the game is spent "[engaged] with a lot of mindless battles and health and spell recuperation exercises". Mark Meadows of The Wisconsin State Journal called the game "a half-finished adaptation of D&D's new 3rd Edition rules that was rushed out the door despite being over a year late". GameSpy gave a negative review to the game. Later patches fixed some of the stability issues. Branislav Babovic of mania.com commented: "Pool of Radiance: Ruins of Myth Drannor could simply be defined as a disk full of bugs, striving to be a slow Diablo based on AD&D third edition rules". Johnny Wilson for Dragon commented: "I like the way the new edition of the D&D rules have been integrated into the game [...] I'm thrilled with the emphasis on drow and undead, the villains we love to hate". Adaptations A novel based on the game, written by Carrie Bebris, was published by Wizards of the Coast and was also included with the collector's edition of the game, except in Europe. Despite much criticism of the game, opinions on the novel have generally been positive. The Collector's Edition version of the game contained a copy of the book, an original pen and paper module, an audio CD, and a bag of polyhedral dice. The printed adventure was called Pool of Radiance: Attack on Myth Drannor. References Further reading External links 2001 video games Forgotten Realms video games Multiplayer and single-player video games Role-playing video games Stormfront Studios games Tactical role-playing video games Ubisoft games Video games developed in the United States Video games with gender-selectable protagonists Windows-only games Windows games Video games about cults
William Ireland may refer to: William Ireland (Jesuit) (1636–1679), English Jesuit executed during the reign of King Charles II William Henry Ireland (1775–1835), forger of would-be Shakespearean documents and plays William Wotherspoon Ireland (1832–1909), Scottish physician and author William M. Ireland (died 1891), co-founder of the National Grange of the Order of Patrons of Husbandry William Henry Ireland (politician) (1884–?), Ontario merchant and political figure William Ireland (tennis), Romanian tennis player Bill Ireland, founder of the UNLV football program and later athletic director of UNLV
Rocco Basile is an American business executive and philanthropist. He is the founder of Avo Construction, a construction firm based in New York City. Career Rocco founded Avo Construction in 2011, a successor of Basile Builders Group. Basile Builders Group was based in Tribeca. As a philanthropist, Rocco has helped establish an after-school program and is the recipient of the Children's Champion Award from the Children of the City program. He is a member of the board of directors of the Children of the city and has supported ComAlert and Safe Horizon. References 21st-century American philanthropists Year of birth missing (living people) Living people
Phosgenite is a rare mineral consisting of lead carbonate chloride, (PbCl)2CO3. The tetragonal crystals are prismatic or tabular in habit: they are usually colorless and transparent, and have a brilliant adamantine lustre. Sometimes the crystals have a curious helical twist about the tetrad or principal axis. The hardness is 3 and the specific gravity 6.3. The mineral is rather sectile, and consequently was earlier known as corneous lead, (German Hornblei). Name and occurrence The name phosgenite was given by August Breithaupt in 1820, after phosgene, carbon oxychloride, because the mineral contains the elements carbon, oxygen, and chlorine. It was found associated with anglesite and matlockite in cavities within altered galena in a lead mine at Cromford, near Matlock: hence its common name cromfordite. Crystals are also found in galena at Monteponi near Iglesias in Sardinia, and near Dundas in Tasmania. It has also been reported from Laurium, Greece; Tarnowitz, Poland; the Altai district, Siberia; the Touissit mine, near Oujda, Morocco; Sidi Amor ben Salem, Tunisia; Tsumeb, Namibia; Broken Hill, New South Wales; and Boleo, near Santa Rosalía, Baja California Sur. In the US it has been reported from the Terrible mine, Custer County, Colorado; the Stevenson-Bennett mine, Organ Mountains, Doña Ana County, New Mexico; and the Mammoth mine, Tiger, Pinal County, Arizona. Crystals of phosgenite, and also of the corresponding bromine compound PbBr2CO3, have been prepared artificially. See also Barstowite, another lead chloride carbonate References Carbonate minerals Halide minerals Lead minerals Luminescent minerals Minerals in space group 127 Tetragonal minerals
Mayianne Malin Holm Dinesen (born Marianne Dinesen on 29 April 1966 in Nykøbing Mors) is a Danish radio personality, having begun her career hosting the show Straight on DR P3 in 1992. She is perhaps better known for having dated American singer Prince. External links References Danish radio presenters Danish women radio presenters Living people 1996 births People from Morsø Municipality
The Hotel and Restaurant Workers' Union (, HRHL) was a trade union representing hospitality workers in Finland. The union was founded on 14 November 1933, and affiliated to the Finnish Federation of Trade Unions, and then its successor, the Central Organisation of Finnish Trade Unions. In 1960, it had only 4,493 members, but by 1998, this had grown to 48,565, of whom 84.3% were women. In 2000, the union merged with the Technical and Special Trades Union, the Caretakers' Union, and the Business Union, to form the Service Union United. References Hospitality industry trade unions Trade unions established in 1933 Trade unions disestablished in 2000 Trade unions in Finland 1933 establishments in Finland 2000 disestablishments in Finland
The 1966 Wyoming gubernatorial election took place on November 8, 1966. Incumbent Republican Governor Clifford Hansen declined to seek a second term, instead opting to run for the U.S. Senate. Stanley Hathaway, the former Goshen County Prosecuting Attorney, won the Republican primary, and faced attorney Ernest Wilkerson, the Democratic nominee, in the general election. Despite the unfavorable national environment for Democratic candidates, Wilkerson was able to improve on Democrats' performance from the 1962 election, but not enough to defeat Hathaway, who won the election by a decisive margin. Democratic primary Candidates Ernest Wilkerson, attorney Bill Nation, State Representative Jack R. Gage, former Governor of Wyoming Raymond B. Whitaker, former Natrona County Prosecuting Attorney, 1960 Democratic nominee for U.S. Senate Howard Burke, State Representative Republican primary Candidates Stanley Hathaway, former Goshen County Prosecuting Attorney Joe Burke, former State Representative Arthur E. Linde, businessman Results References Wyoming 1966 1966 Wyoming elections November 1966 events in the United States
Zaryszyn (; in old period, probably 600 years ago, was named Zalesie) is a village in the administrative district of Gmina Książ Wielki, within Miechów County, Lesser Poland Voivodeship, in southern Poland. It lies approximately east of Książ Wielki, north-east of Miechów, and north-east of the regional capital Kraków. The village has an approximate population of 350. References Zaryszyn
Francisco Alvarado is a noted playwright of zarzuela in Lineyte-Samarnon (Waray). He was a member and literary luminary of the Sanghiran san Binisaya organization which was founded in 1909 to cultivate the Waray language. Poetry Panhayhay hin Bungtohanon, 1921, Hinagpis ng Isang Taga-Bayan An Marol, 1925, Ang Sampagita Kaadlawon, 1925, Araw Kagab-ihon, 1925, Gabi Nihaga, 1930 Pilipinas, 1931 Anthologies Panulaan At Dulaang Leytenhon-Samarnon Jaime Biron Polo, Editor and translator Ateneo de Manila University Press, 1994 References www.bisaya.com Visayan Literature page—defunct Visayan writers Waray-language writers Filipino writers
Soccer at the 2013 Canada Summer Games may refer to: Men's soccer at the 2013 Canada Summer Games Women's soccer at the 2013 Canada Summer Games
John M. Rosellini (born 1939) is an American former politician in the state of Washington. He served the 34th district from 1967 to 1973. References Living people 1939 births Politicians from Seattle Washington (state) lawyers Democratic Party members of the Washington House of Representatives
Serve & Collect III is the fourth studio album by American hip hop group Boss Hogg Outlawz. It was released on August 30, 2011 through Boss Hogg Outlawz/eOne Music. The album marked the departure of founding members Chris Ward and Killa Kyleon, who left the group prior to the album's release. The album did not chart on the Billboard 200, though it did make it to four other charts including the R&B and rap charts. Track listing Personnel Stayve Jerome Thomas – performer (tracks: 1-14), executive producer M.U.G. – performer (tracks: 2, 4-5, 9-13, 16) Andre "Dre Day" Stephens – performer (tracks: 1-3, 7-8, 11-12, 14) Le$ – performer (tracks: 3-7, 11-14) Larry Wayne Jones, Jr. – performer (tracks: 1, 3, 6, 8-10) S. Witfield – performer (tracks: 12, 15-16) T. Harris – performer (track 15) Mark A. Miller – performer (track 10) Hoodstar Chantz – performer (track 15) King Rashee – performer (track 15) Lil Ray – performer (track 15) Leroy Williams, Jr. – producer (tracks: 2-3, 6-8, 10-12, 14-15, 18), mixing (track 11) Brandon Pitre – producer (tracks: 4-5, 13, 17) Gavin Luckett – producer (tracks: 4-5, 13, 17), mixing & engineering (tracks: 4-5, 13) K.C. Tha Realist – producer (tracks: 1, 9) Justin Rogers – producer (tracks 16) DJ Ryno – mixing (tracks: 1-3, 6-10, 12, 14-15) J.T. – mixing (tracks: 1-3, 6-10, 12, 14-15) Raymond Thomas – mixing (track 16), engineering (tracks: 3, 7, 14, 16), executive producer Derick Tisby – engineering (tracks: 1-2, 6, 8-12) Young Samm – engineering (track 15) Michael George Dean – mastering Mike Frost – artwork & design Chart history References 2011 albums E1 Music albums Slim Thug albums Boss Hogg Outlawz albums Sequel albums
Chukhur Mahalla Mosque (), also called Shefa Ojagi ( in Azerbaijani), was an Azerbaijani mosque located in Shusha. It was under the occupation of Armenian forces since the capture of Shusha on May 8, 1992, until the city's recapture during the 2020 Nagorno-Karabakh war. The mosque was located in the eastern part of Shusha, on N.B. Vazirov Street in the Chukhur Mahalla neighborhood, one of 9 lower neighborhoods of Shusha. Chukhur Mahalla Mosque was one of seventeen mosques in Shusha at the end of the 19th century. The mosque had two minarets. Shusha was founded in the 1750s, and Chukur neighborhood was populated even before the construction of the walls of Shusha castle was completed. The nearby Chukhur Gala supplied the neighbourhood with the famous mineral water of Shusha, and the mosque was among the most valuable monuments of the Shusha State Historical and Architectural Reserve. See also Yukhari Govhar Agha Mosque Ashaghi Govhar Agha Mosque Saatli Mosque Seyidli Mosque Khoja Marjanli Mosque Guyulug Mosque Taza Mahalla Mosque Shahbulag Mosque References External links Karabakh Monuments 18th-century mosques Mosques in Shusha
Fulbourn Institute Football Club is a football club based in Fulbourn, Cambridgeshire, England. The club are currently members of the and play at the Recreation Ground. History The club were established in 1902. The joined the Cambridgeshire League in the 1920s and were Division 3B champions in 1925–26. They were promoted to Division Two, and were known as Fulbourne Athletic for a while, before reverting to their current name at the start of the 1930s. They won the Cambridgeshire Junior Cup in 1931–32 and by 1933 had reached Division 1A. In 1970–71 they were promoted to the Premier Division as Division 1A champions. In 2002–03 they won Senior Division A and were again promoted to the Premier Division, which they went on to win in 2003–04 and 2004–05. Following their second title they were promoted to the Eastern Counties League Division One. Despite finishing in third position, which would have earned them promotion to the Premier Division, the club were forced into resigning from the league at the end of their first season in the ECL as their ground did not meet the league's requirements and planning permission for improvements had not been approved. As a result they dropped into the Senior A Division of the Cambridgeshire League. At the end of the 2007–08 season they were promoted back to the Premier Division after finishing as runners-up, earning promotion to the Premier Division. The following season they won the Premier Division, as well as the Premier Cup and Cambridgeshire Challenge Cup. In 2009–10 they won the Premier Division for the second consecutive season. Honours Cambridgeshire League Premier Division champions 2003–04, 2004–05, 2008–09, 2009–10 Premier League cup winners 1984–85, 1989–90, 2003–04, 2004–05, 2008–09 Senior Division A champions 2002–03 Division 1A champions 1970–71 Division 3B champions 1926–26 Cambridgeshire Challenge Cup Winners 2008–09 Cambridgeshire Junior Cup Winners 1931–32 References External links Club website Football clubs in Cambridgeshire Association football clubs established in 1902 1902 establishments in England Football clubs in England Cambridgeshire County Football League Eastern Counties Football League Institute F.C.
Cal 3 was a proposal to split the U.S. state of California into three states. It was launched in August 2017 by Silicon Valley venture capitalist Tim Draper, who led the effort to have it originally qualify on the November 2018 state ballot as Proposition 9, officially the Division of California into Three States initiative. Proponents of the proposal argued that dividing California into three states would provide fairer and more responsive governance for large regions outside of California’s major cities. In July 2018, the Supreme Court of California pulled it from the ballot for further state constitutional review. Draper officially stopped pushing for the measure soon after. On 12 September 2018, the court permanently removed the measure from all future ballots. The Cal 3 proposal would not have legally split the state immediately; the division would have occurred only if and when the U.S. Congress consented to admit the new states to the Union per Article IV, Section 3 of the U.S. Constitution. Rather, the measure would have established procedures within the state government for the proposed split. There were key procedural differences between the Cal 3 initiative and Draper's previous Six Californias plan, which failed to get enough signatures to qualify for the 2014 ballot. Among the differences, Cal 3 was an initiative to change a California statute, which required fewer petition signatures to qualify for the ballot than a proposed state constitutional amendment like the Six Californias plan. Also, language in the Cal 3 initiative was written so that if it was approved by the voters, the legislative consent required by Section 3 of Article IV "is given by the people" instead of directly by the California State Legislature. As with his previous Six Californias plan, Draper and other proponents of Cal 3 said that the state is too large and ungovernable, and splitting California would produce smaller and more efficient state governments. Similarly to the previous plan, opponents said that such a split would be an unnecessary use of money and resources. Background California history California has been the subject of more than 220 proposals to divide it into multiple states since its admission to the union in 1850, including at least 27 significant proposals in the first 150 years of statehood. Silicon Valley venture capitalist Tim Draper launched Six Californias, a proposed initiative to split California into six states, in December 2013. It failed to obtain sufficient signatures to qualify as a California ballot measure for the 2016 state elections. He spent more than $5 million to try to qualify the proposition for the ballot, including nearly $450,000 for political consultants. Federal precedents Article IV, Section 3 of the U.S. Constitution outlines the procedure for the admission of new U.S. states. It reads: There are several precedents for the creation of new states out of pre-existing ones. Note that the pre-existing state does not disappear but simply gets smaller when the new state is admitted. The original state is not renamed or re-admitted, since it never leaves the union. Congress addresses only the question of admitting the new state. The Commonwealth of Kentucky was admitted in 1792. It was created from the western territory of the Commonwealth of Virginia. The Virginia legislature had already approved release of the land when the old constitution was still in effect (1781-1789). But as the Congress had not acted before the new constitution was enacted, it passed the bill of consent again as a matter of course. North Carolina ceded its western territory to the United States, as the Southwest Territory. The Congress subsequently created it the State of Tennessee in 1796. The State of Georgia likewise ceded the western two-thirds of its post-1783 territory, part of which was disputed with the Spanish Colony of Florida until 1795. That territory was subsequently split in half, with the western portion created the State of Mississippi in 1817 and the eastern portion created the State of Alabama in 1819. Both states and the State of Louisiana (1812) were expanded when the United States acquired Florida from Spain in 1821, and divided the western half of the Florida Panhandle between the three. One instance was related to slavery: In the 1820 Missouri Compromise, abolitionist-leaning states allowed Missouri to be admitted as a slave state subsequent to the Commonwealth of Massachusetts' agreement to release its northeastern territory (accounting for more than 75% of the Commonwealth's land area) for the admission of Maine as a free state. This kept the number of free states and slave states in balance. In fact, the independence of Maine from Massachusetts had been first considered three decades earlier for completely different reasons but the impending admission of Missouri as a slave state provided political momentum to achieve it. One instance was a direct result of the Civil War: When Virginia seceded from the United States in 1861, the people in the northwestern counties of the state refused to support the decision. They formed a provisional Restored Government of Virginia and were admitted to the union as the State of West Virginia in 1863. They were admitted as a slave state and were exempted from the Emancipation Proclamation, on the understanding they would use the time thus allowed to prepare for the eventual abolition of slavery nationwide, which happened with the ratification of the Thirteenth Amendment in December 1865. The admission of Vermont is often mistakenly presumed to be the result of a partition of New York, but that is not the actual history. At the time the American War for Independence began, most of the northern half of what is now Vermont was part of the British Province of Quebec. The southern half and west bank of the Connecticut River Valley had been disputed between New Hampshire and New York for several decades. When New Hampshire surrendered its claim in 1782, New York refused to recognise the grants of land made by New Hampshire decades earlier, which had been the bases for establishing 131 towns and New York's action infuriated Vermonters. The Privy Council in London ruled in favour of the Vermonters but the damage had already been done, so that six months after the Province of New York seceded from the British Empire, the Commonwealth of Vermont seceded from New York, in January 1777. The first Vermont Constitution was adopted in July 1777, and Vermont remained a fully independent nation for 14 years. Negotiations to join the United States were thwarted by perennial objection from New York, which continued to claim Vermont. New York finally surrendered its claim, paving the way for Vermont to ratify the U.S. Constitution on 10 January 1791, and be admitted as the 14th state on 4 March 1791. A similar dispute arose between the State of Ohio and the Territory of Michigan in 1835-36, over which of them had rights to the Maumee Strip, including newly-created Toledo. Ohio's claim was proper, so her consent was necessary for Michigan to become a state if it wanted to have Toledo. A compromise was reached under which Michigan was given the Upper Peninsula instead; and Michigan became a state in January 1837. Ballot qualification process Draper introduced Cal 3 in August 2017. On October 24, 2017, California Secretary of State Alex Padilla gave approval for Draper to begin collecting petition signatures; under California state law, to qualify for the ballot, valid signatures of at least 365,880 registered California voters (five percent of the total votes cast for the Governor of California in the November 2014 general election) were required to be submitted by April 23, 2018. Because Cal 3 is an initiative to change a California statute instead of a state constitutional amendment, it requires fewer petition signatures to qualify for the ballot than the 807,615 that the Six Californias plan needed. On April 12, 2018, eleven days before the deadline, Draper announced that he had collected over 600,000 signatures. On June 13, it was announced that there were sufficient valid signatures. Measure details The Cal 3 measure would add a new article to the California Codes. It outlines three proposed new states, and then calls for the California State Legislature to divide and transform the existing state into the three states. The proposal would then need the approval of voters in California, and then of the Congress of the United States (per Article IV, Section 3 of the U.S. Constitution). Proposed states The Cal 3 plan would divide the state's 58 counties among three states, tentatively named California (nicknamed Cal), Northern California (nicknamed NorCal), and Southern California (nicknamed SoCal). In drawing these new boundaries, Draper aimed to have it so that the three proposed states have nearly equal populations. The following is an envisioned distribution of California's 58 counties into the proposed 3 Californias. Counties in proposed state of California Los Angeles Monterey San Benito San Luis Obispo Santa Barbara Ventura Counties in proposed state of Northern California Alameda Alpine Amador Butte Calaveras Colusa Contra Costa Del Norte El Dorado Glenn Humboldt Lake Lassen Marin Mariposa Mendocino Merced Modoc Napa Nevada Placer Plumas Sacramento San Francisco San Joaquin San Mateo Santa Clara Santa Cruz Shasta Sierra Siskiyou Solano Sonoma Stanislaus Sutter Tehama Trinity Tuolumne Yolo Yuba Counties in proposed state of Southern California Fresno Imperial Inyo Kern Kings Madera Mono Orange Riverside San Bernardino San Diego Tulare State-splitting process If passed by voters, the measure then directs the Governor of California on January 1, 2019 to formally submit the state-splitting request to the U.S. Congress along with the certified elections results, and ask them to grant approval within twelve months. Language in the measure states that for the purposes of Article IV, Section 3 of the U.S. Constitution, the legislative consent for splitting the state "is given by the people". The measure also directs the California State Legislature to divide California's assets and liabilities among the three new states. If the legislature is unable to pass such a plan within 12 months of the U.S. Congress' approval to split California, the assets and liabilities would then be distributed among the three new states based on their populations. Analysis Fiscal and policy implications Because various parts of the state have deep economic ties with the other areas, splitting California would be a very complicated economic and public policy process. Water rights, transportation and infrastructure projects, California's public postsecondary education system, and other public programs are fully integrated throughout the state. The income levels, and therefore the personal tax bases, in the proposed states differ. Based on 2015 values, the proposed (new) California state would rank about 12th among the states in per capita personal income, the new Northern California would be 2nd, and the new Southern California would be 30th. Because the new Southern California would be below the average of the rest of the country, it might struggle financially in its initial years. The new Northern California would have the higher per capita, while the (new) California would have the largest income disparity. The income and wealth differences among the three states would result in different future policies in taxes and public spending. Each new state could adopt different laws, either stricter or more lenient, on these issues than what California currently has on the books. For example, the new states may limit or discontinue Proposition 13's inflexible limits on taxes or Proposition 98's school-funding guarantee. Other programs that could be affected include health programs, social services programs, prisons and other crime-related policies, and transportation projects. These differing policies would result in long-term demographic and economic changes, as various groups of people will want to migrate to those new states with laws more favorable to them. If California's university system were to split under Cal 3, the new Northern California would have both the most University of California campuses and the most California State University campuses. California's prison system is also unequally distributed, with the proposed Southern California housing 55% of California's current prison inmates and the (new) California only housing 13 percent. California's current water issues and water rights would also have to be resolved. The proposed new California would be a net importer of water, as the California Aqueduct would then originate in the new Northern California, and both the Los Angeles Aqueduct and the Colorado River Aqueduct would originate in the new Southern California. Some of these issues might have to be addressed by both the U.S. Congress and the courts. The three states would also have to negotiate other infrastructure projects such as the California High-Speed Rail project and decide whether to continue financing them as multi-state systems. Furthermore, each new state would have to pay various one-time costs to set up separate state governments, new capitols and other administration buildings, and so forth. National political implications The proposed state of Southern California would have populated areas such as the San Joaquin Valley that lean toward the Republican Party, leading legal scholar Vikram Amar to believe that this is a "deal breaker" for the Democratic Party. California is currently a safe state for Democrats with 55 votes in the Electoral College, and therefore splitting the state would also split those guaranteed electoral votes and make the new Southern California a potential swing state. Legal scholar Jonathan Turley told CNN, "Dems consider California to be a single golden empire, it would be hard for them to accept it as three golden empires". Splitting the state would create four new seats in the U.S. Senate, two for each of the two newly created states. Although the proposed Southern California state may be more competitive for the Republican Party, the worst case for them would be that all of these new seats would go Democratic. In any case, Turley explained that the addition of four new senators "could create endless tensions between representatives". As Sabato's Crystal Ball postulates, Democrats might not want to risk losing one third of California's current electoral votes to potentially gain four new Senate seats. Conversely, Republicans also might not want to put those electoral votes into play at the expense of Democrats gaining those Senate seats. Finally, states outside of California may oppose diluting their representation in the Senate. Thus, Congress could easily just opt not to act on the Cal 3 results, much like the Puerto Rico political status plebiscites in which Puerto Rico voters were asked whether they wanted statehood, free association, or independence. Legal issues The Cal 3 plan raises both U.S. and California constitutional issues, which led the California Legislative Analyst's Office to predict in its initiative analysis that the measure would almost certainly be challenged on multiple grounds. A key U.S. constitutional issue is whether a voter initiative is sufficient for the state legislative approval that is required under Section 3 of Article IV for the creation of new states. The voter initiative process was not established by various states until decades after West Virginia split from Virginia in 1863, so there is no clear precedent for this specific case. However, the Supreme Court of California has ruled that a voter initiative is not sufficient for the state legislative consent that is required to call for a U.S. constitutional convention. Another issue is that there is no clear precedent indicating that a single state can be carved up into multiple ones. When West Virginia was admitted to the U.S. as a separate state, most of the new state's counties had in fact supported secession. As Vikram Amar asks, "when Article IV speaks of the need for the consent of the 'States concerned,' does that mean (in the context of a single state that is being subdivided) only consent of the mother state (which is to be divided), or also consent of the newly created states?" For example, what happens if the Cal 3 ballot measure passes statewide, but most of the voters in the proposed (New) California state opposed it? As for California constitutional issues, there is the question as to whether a statutory initiative measure like this one, without any state constitutional amendments, can start a process that fundamentally revises the state government's basic framework. Under the California Constitution, a proposal that substantially alters the state's basic governmental framework must be a state constitutional amendment that originates from either the State Legislature or a constitutional convention, and not from a ballot initiative. As Vikram Amar writes, "Certainly breaking California up alters, as a quantitative matter, most every provision in the constitution, by shrinking its effective reach ... such a division is first and foremost a matter of structure ... what is of greater importance to a state’s overall structure than its geographic boundaries?" There could also be multiple court challenges on how the state's existing liabilities are split among the new states, whether based on a plan passed by the State Legislature, or distributed based on their relative populations (as mandated by the proposal if the State Legislature fails to decide on such a plan). Among the existing liabilities are all the bonds that have been issued as a result of other passed laws or ballot measures. There is also the question as to what to do with all the health and retirement benefits and other compensation owed to the state's current public employees. There are also liabilities mandated by other policies. A number of these bonds, employee plans, and policies are currently unfunded, awaiting revenue from future state budgets. Furthermore, many of these liabilities are mandated by California constitutional amendments, so a case could be made that splitting the state may unconstitutionally impair the contractual rights of all these bondholders and public employees. Legal challenges On July 9, the Planning and Conservation League, an environmental group, became the first party to file a lawsuit to block the measure, asking the Supreme Court of California to pull Cal 3 off the ballot on the aforementioned grounds that it would be a revision to the state constitution that substantially alters the state's basic governmental framework. In their response, Cal 3 supporters on July 12 stated that it was "just another example of how Sacramento politicians, powerful unions and their high-priced lobbyists are trying to hold onto power at the expense of California voters". Draper also wrote a response directly to the court, stating that there is not enough time to properly consider the legal challenge: "I have been given just a day or two to respond to a complex, multi-faceted attack on my Constitutional right to initiative. This Court's long history of jealously guarding the exercise of initiative power should not be cavalierly disregarded now, especially on such a truncated timetable". In a unanimous decision on July 18, the California Supreme Court removed the measure from the 2018 ballot, ordering further legal arguments on whether it can be restored on the 2020 ballot or struck down completely. In its ruling, the court stated that "significant questions have been raised regarding the proposition’s validity and because we conclude that the potential harm in permitting the measure to remain on the ballot outweighs the potential harm in delaying the proposition to a future election." Responding to the court's order, Draper labelled it as "corruption", "the insiders are in cahoots", and that the California Supreme Court justices "probably would have lost their jobs" if Cal 3 passed. On 12 September 2018, in another unanimous decision, the Supreme Court of California permanently removed Cal 3 from all future ballots, stating: Stances on the proposal Support Tim Draper's motivation is basically the same as for his failed Six Californias plan. He has stated that California is ungovernable as is, with the legislature unable to keep pace with issues in all the state's regions, especially in areas such as job creation, education, affordable housing, and water and transportation infrastructure. Furthermore, he believes that the current state government is losing touch with the people of California. According to Draper, splitting up the state would allow the resulting new state governments to be closer to their people than the current California state government. Republican California State Senator Joel Anderson stated that he will vote for Cal 3 as a referendum on the state's Democratic leadership, saying that "there is no greater insult to the one-party rule in California. It's a barometer of the potential unhappiness of the state." Opposition Both the 2018 Republican and Democratic nominees for governor have voiced opposition to the plan. Democratic nominee, then-California Lieutenant Governor Gavin Newsom told reporters on June 13 that "California's success is being a cohesive state, particularly at a time of [U.S. President Donald] Trump and Trumpism. We're now the fifth largest economy in the world. Why would we cede that to splitting the state up into three?" Republican nominee John H. Cox said on June 18 that he does not think Draper's plan is the answer, and that "we need to do a better job of managing the state". The California Republican Party voted overwhelmingly to oppose it at their April convention. Eric C. Bauman, Chairman of the California Democratic Party, said that "it's going to be more money flushed down the toilet. Only one guy is behind it, and everyone is against it". Democratic political consultant Steven Maviglio has stated that it would be cheaper to operate California's current vast statewide government, telling LA Weekly, "It's costly and impractical if you split up the existing system". Maviglio also stated that Cal 3 "doesn’t solve a single problem in the state or add a single job". The California Chamber of Commerce stated that "this measure would instead create an entirely new suite of problems to distract and consumer [sic] voters, political leaders, concerned citizens and ordinary residents". Polling References External links Official website (archived) California secessionism Proposed states and territories of the United States
In religious organizations, the laity () consists of all members who are not part of the clergy, usually including any non-ordained members of religious orders, e.g. a nun or a lay brother. In both religious and wider secular usage, a layperson (also layman or laywoman) is a person who is not qualified in a given profession or does not have specific knowledge of a certain subject. The phrase "layman's terms" is used to refer to plain language that is understandable to the everyday person, as opposed to specialised terminology understood only by a professional. Some Christian churches utilise lay preachers, who preach but are not clergy. The Church of Jesus Christ of Latter-day Saints uses the term lay priesthood to emphasise that its local congregational leaders are unpaid. Terms such as lay priest, lay clergy and lay nun were once used in certain Buddhist cultures, especially Japanese, to indicate ordained persons who continued to live in the wider community instead of retiring to a monastery. Etymology The word laity means "common people" and comes from the , meaning "of the people", from , laos, meaning "people" at large. The word lay (part of layperson, etc.) derives from the Greek word via Anglo-French lai, from Late Latin laicus. Christian laity In many Christian denominations, including the Catholic and the Anglican churches, anyone who is not ordained as a deacon, priest, or bishop is referred to as a layman or a laywoman. Non-ordained preachers or readers are considered part of the laity. Catholic Church The Second Vatican Council (1962–1965) devoted its decree on the apostolate of the laity Apostolicam actuositatem and chapter IV of its dogmatic constitution Lumen gentium to the laity in a sense narrower than that which is normal in the Catholic Church. The normal definition of laity is that given in the Code of Canon Law: The narrower sense in which the Second Vatican Council gave instruction concerning the laity is as follows: In this narrower sense, the Council taught that the laity's specific character is secularity: they are Christians who live the life of Christ in the world. Their role is to sanctify the created world by directing it to become more Christian in its structures and systems: "the laity, by their very vocation, seek the kingdom of God by engaging in temporal affairs and by ordering them according to the plan of God". The laity are full members of the Church, fully share in Church's purpose of sanctification, of "inner union of men with God", acting with freedom and personal responsibility and not as mere agents of the hierarchy. Due to their baptism, they are members of God's family, the Church, and they grow in intimate union with God, "in" and "by means" of the world. It is not a matter of departing from the world as the monks and the nuns do that they sanctify themselves; it is precisely through the material world sanctified by the coming of the God made flesh, i.e. made material, that they reach God. Doctors, mothers of a family, farmers, bank tellers, drivers, by doing their jobs in the world with a Christian spirit are already extending the Kingdom of God. According to the repeated statements of Popes and lay Catholic leaders, the laity should say "we are the Church," in the same way that the saints said that "Christ lives in me." Lay involvement takes diverse forms, including participation in the life of the parish, confraternities, lay apostolates, secular institutes, and lay ecclesial movements. There are also lay ecclesiastical ministries, and where there is a priest shortage, lay people have to take on some functions previously performed by priests. Vatican II afterwards In December 1977, "A Chicago Declaration of Christian Concern" was published. The declaration looked back a decade to the Vatican Council II with appreciation for its "compelling vision of lay Christians in society." As the Declaration interpreted it, the Council viewed the laity's "special vocation" as being the "leaven" for the "sanctification of the world" in their "secular professions and occupations". However, lamented the Declaration, the council's vision has "all but vanished" from the church. The Declaration was signed by forty-seven clergy, religious, and laity that included men and women in many occupations, and it served as the charter for the National Center for the Laity (NCL). The NCL helps lay Catholics respond to their call to change the world through their daily activities and regular responsibilities, and it publishes a monthly online newsletter Initiatives: In Support of Christians in the World. Initiatives: In Support of Christians in the World (January 2015) rejoiced that "50 Years since Vatican II" the increased lay ministry in parishes has "brought fresh vitality". However, the newsletter lamented "the neglect of formation for the lay apostolate in the world". Pope Francis is quoted as confirming this lament. Priests tend to "clericalize the laity" and view their ministry as only "within the Church," discounting their "workaday" ministry. From the start of his papacy Francis called for structural change in the Church which will foster the responsibility of the laity now held "at the edge of the decisions" by "excessive clericalism", and to "create still broader opportunities for a more incisive female presence in the Church". The "missionary transformation of the Church" is seen by some as "the goal of this pontificate", with all the baptized becoming "missionary disciples", Orthodox The Orthodox Church in America's web site has eleven articles regarding its Theology of Lay Ministries. The term "lay ministries" refers to all the "people of God" (from the Greek laos tou Theou) including the ordained. Thus, every Christian has a vocation to ministry. A minority are called to ecclesiastical ministries. The majority are called to serve God and their fellow human beings in some way in the "everyday secular world". The Orthodox Church's assertion that all Christians are "appointed" as ministers is based on Scripture (1 Peter 2:9) and the Church Fathers. The ministry of the laity complements the ministry of the priest in their daily lives in their families, their communities, their work: "in whatever circumstances they find themselves". The most important "lay ministry" can be done anonymously. What one's ministry is depends on the abilities of the person: "landscaping, carpentry, writing, counseling, child care, sports, music, teaching, or just being a good listener". The relation within the laity as the "people of God" between those who are ordained priests and those not ordained is one of cooperation in three areas: (1) in the Liturgy, (2) Church administration, and (3) service (ministry) to others. In spite of the church's teaching about the ministry of the laity in the world, the church gives more recognition to ministry within the institutional church. The "daily ministry" of the laity in their work, in their homes, and in their recreation remains hidden. Priests may intend to support their parishioners' daily ministry, but their priority tends to be recruiting volunteers for the church's programs. Protestantism Anglicanism In the Anglican tradition, all baptized persons are expected to minister in Christ's name. The orders of ministry are thus laypersons, licensed lay ministers (or readers), deacons, priests, and bishops. The ministry of the laity is "to represent Christ and his Church; to bear witness to him wherever they may be; and, according to the gifts given them, to carry on Christ's work of reconciliation in the world; and to take their place in the life, worship, and governance of the Church".<ref>The Book of Common Prayer according to the use of The Episcopal Church, 1979 edition 855. Online at episcopalchurch.org </ref> Much of the ministry of the laity thus takes place outside official church structures in homes, workplaces, schools, and elsewhere. It is "through their continuous participation in political, economic, educational, and kinship institutions" that the laity "powerfully influence the character of these institutions". Laymen also play important roles in the structures of the church. There are elected lay representatives on the various governing bodies of churches in the Anglican communion. In the Church of England, these governing bodies range from a local parochial church council, through Deanery Synods and Diocesan Synods. At the topmost level, the General Synod includes a house of Laity. Likewise, in the Episcopal Church in the USA, the General Convention includes four lay persons from each diocese in the House of Deputies, and each diocesan convention includes lay delegates from the parishes. On the local parish level, lay persons are elected to a church council called a vestry which manages church finances and elects the parish rector. Parish musicians, bookkeepers, administrative assistants, sextons, sacristans, etc., are all roles normally filled by lay persons. At higher levels, diocesan and national offices rely on lay persons in many important areas of responsibility. Often specialized ministries as campus ministers, youth ministers, or hospital chaplains are performed by lay persons. Lay persons serve in worship services in a number of important positions, including vergers, acolytes, lectors, intercessors, ushers. Acolytes include torch bearers, crucifers, thurifers, and boat bearers. Lectors read the lessons from the Bible appointed for the day (except for the Gospel reading, which is read by a Deacon), and may also lead the Prayers of the People. Some specialized lay ministries require special licensing by the bishop: the ministries which require a license vary from province to province. In the Episcopal Church, there are six specialized lay ministries requiring a license: Pastoral Leader, Worship Leader, Preacher, Eucharistic Minister, Eucharistic Visitor, and Catechist. Methodism Lay ministry An early tradition of preaching in the Methodist churches was for a lay preacher to be appointed to lead services of worship and preach in a group (called a circuit) of preaching houses or churches. The lay preacher walked or rode on horseback in a prescribed circuit of the preaching places according to an agreed pattern and timing, and people came to the meetings. After the appointment of ministers and pastors, this lay preaching tradition continued with local preachers being appointed by individual churches, and in turn approved and invited by nearby churches, as an adjunct to the minister or during their planned absences. The United Methodist Church recognizes two types of lay ministries. One is a "lay servant ministry" of (a) assisting or leading local church meetings and worship or of (b) serving as lay missioners to begin new work within the church that requires special training. The other type is the "ministry of the laity" in their daily lives. In addition to being appointed by members of their local churches, local and certified lay speakers of the United Methodist Church (more commonly in the United States) attend a series of training sessions. These training sessions prepare the individual to become a leader within the church. All individuals who are full members of the church are laity, but some go on to become Lay Speakers. Some preachers get their start as Lay Speakers. Local preachers lead the majority of church services in the Methodist Church of Great Britain. The comparable term in the Anglican and Episcopal churches is lay reader. In the Uniting Church in Australia, that was constituted in part from the Methodist Church, persons can be appointed by the congregation as a lay preacher or by the regional presbytery to preside at Communion. Ministry of the laity The Methodist Book of Discipline describes the "Ministry of the Laity" in their daily lives as being "Christ-like examples of everyday living" and "sharing their own faith experiences". Worship leader In the Methodist Church of Great Britain, a "worship leader" is a trained lay person appointed by a Church Council to "take a leading and significant role in the conduct of worship within the life of a Local Church". Presbyterianism Presbyterians do not use the term "lay". Thus the Church of Scotland has "Readers", men and women set apart by presbyteries to conduct public worship. This arises out of the belief in the priesthood of all believers. Ministers are officially 'teaching elders' alongside the 'ruling elders' of the Kirk Session and have equivalent status, regardless of any other office. In the Church of Scotland, as the Established church in Scotland, this gives ruling elders in congregations the same status as Queen's chaplains, professors of theology and other highly qualified ministers. All are humble servants of the people in the congregation and parish. Ministers are simply men and women whose gift is for their role in teaching and possibly pastoral work. They are thus selected for advanced theological education. All elders (teaching and ruling) in meetings of Session, Presbytery, or Assembly are subject to the Moderator, who may or may not be a minister but is always an elder. The Church of Jesus Christ of Latter-day Saints Many leaders in the Church of Jesus Christ of Latter-day Saints are lay ministers. Essentially all male members above the age of 12 who are judged by church leaders to be in good standing are ordained to an office of the priesthood and hold various positions in the church. Most church positions at the local level are unpaid, but the LDS church helps with the living expenses of top church leaders and some others (e.g. mission presidents). Many top church leaders serve in these positions after long secular careers. With the exception of members of the Quorum of the Twelve Apostles, the First Quorum of the Seventy who are at the top of the church hierarchy, and patriarchs, all leadership positions are temporary. Lay Buddhists (Buddha's lay disciples) In Buddhism, a lay Buddhist is known as an upasakā (masc.) or upasikā (fem.). Buddhist laypeople take refuge in the Triple Gem the Buddha, Dhamma (His Teachings), and Sangha (His community of Noble Disciples) and accept the Five Precepts (or the Eight Precepts during Uposatha Days) as discipline for ethical conduct.Five Precepts Dictionary \| Global Oneness . Experiencefestival.com. Retrieved on 2013-12-15. Laymen and laywomen are two of the "Four-fold Assembly". The Buddha referred to his disciples as the "Four-fold Assembly" – the gatherings of 'bhikkhū' (monks), 'bhikkhunī' (nuns), 'upasakā' (laymen), and 'upasikā' (laywomen). In the Mahāparinibbāna Sutta, the Buddha famously said that "He would not pass away until the "Four-fold Assembly" is well-established in the learning and practice of Dhamma, and proficient in propagating His Sublime Teachings." Faith at work The movement to help laity apply their faith to daily life has been divided into three eras by David W. Miller in God at Work. The Social Gospel Era (c. 1890s—1945) The Ministry of the Laity Era (c.1946—1985) The Faith at Work Era (c. 1985—Present) Social Gospel The Social Gospel sought to reform society by the application of biblical principles. Its major proponents were all clergy: Washington Gladden, Charles Monroe Sheldon, and Walter Rauschenbusch. They were better in diagnosing society's ills than finding remedies. The Social Gospel reached its peak just prior to World War I, a war that contradicted its optimism about Christianizing society. The Social Gospel was promulgated by the preaching, writing, and other efforts of clergy on behalf of the laity rather than by the laity themselves. In the early 1930s, the Social Gospel was described as "a preacher's gospel. It has not been the church's gospel. The laity have little share in it." Many were not aware what their clergy believed. Most scholars hold that the Social Gospel movement peaked between 1900 and World War I. There is less agreement about when and why the decline happened. Ministry of the Laity The Ministry of the Laity in daily life premise was stated by Howard Grimes in his The Rebirth of the Laity. "Although it is not alone through our daily work that we exercise our call, there is a special sense in which we do so in that area, since so much of our lives are spent in our occupations as lawyer, doctor, manual laborer, skilled craftsmen, housewife, domestic servant, student, serviceman." In 1988, Dean Reber of the Auburn Theological Seminary wrote a retrospective of the Ministry of the Laity era based on research and survey. His research participants were women and men in equal numbers, aged 20 to 60, from six denominations. Reber found that "all were really interested to link faith with their daily life and work". However, in his survey, Reber found that little had been done in the six denominations to enable laity to make this link. He observed a "preoccupation with activities inside the church", as well as a lack of literature and programs on the subject. For these reasons, attempts to link faith and daily life "fizzled out". For Miller, "hindsight suggests that the institutional church and its leaders never fully embraced or understood lay ministry". Therefore, they stopped promoting the "ministry of the laity" concept to their members. Faith at Work Miller deems "Faith at Work" to be "a bona fide social movement and here to stay". Unlike earlier movements, business people (from evangelical and mainline Protestant denominations, Roman Catholics, Jews, Buddhists, and unaffiliated) initiated the faith at work movement and support it because they want to connect their work and their faith. Management training often includes a faith dimension. Examples of various kinds of faith at work initiatives follow: The Theology of Work Project is an independent international organization that produces materials for "workplace Christians" to teach them what the Bible and the Christian faith can contribute to ordinary work. The National Center for the Laity (NCL) grew out of the 1977 "A Chicago Declaration of Christian Concern." It propagates the Second Vatican Council's teaching about laity's vocation as "daily work". The NCL's primary voice is Initiatives: In Support of Christians in the World. In its January 2015 issue, Initiatives listed worldwide initiatives taken by laity in connecting faith and work. C12 Group offers training laced with Christian principles for CEO/Owners by monthly all-day meetings led by former CEOs. In its name, "C" stands for Christ, "12" stands for its ideal training group size. Group membership costs up to $1,450 per month. Some 1,500 Christian CEO/Owners belong to C12. Denver Institute for Faith & Work is a regional, nonprofit organization dedicated to forming men and women to serve God, neighbor and society through their daily work. The Princeton University Faith & Work Initiative develops resources regarding ethics and vocation at work. It disseminates its learnings by programs for students, academics, and leaders in the marketplace. The Industrial Christian Fellowship helps its "members and others to live out their faith at their work" by research and publications. The Christian Association of Business Executives (CABE) "exists to Inform, Inspire and Influence Christian business people from all church backgrounds and all types of business, as they seek to live out their faith day to day." Workplace as a mission field Some faith at work initiatives focus not on work itself but on the workplace as a "mission field". In this "business as missions" concept, faith at work means "reaching people for Christ in the marketplace", people that career missionaries could not reach. For example, Member Mission "teaches the baptized to see themselves as missionaries out in the world in each of their daily places". See also Lay brother Laypeople (disambiguation) References Further reading Roman Catholic theology of the laity Burkhart, Ernst and López Díaz, Javier (2010, 2011, 2013), Vida cotidiana y santidad en la enseñanza de san Josemaría, 3 vols., Madrid: Rialp Thils, G. (1946), Théologie des réalités terrestres,'' Paris. External links The Code of Canon Law (Roman Catholic Church) The Religions of South Vietnam in Faith and Fact: V. Buddhism in Vietnam (Section E. Definitions and Explanation of Buddhist Terms) Tanner, S., Do Mormon Leaders Receive Financial Support? Gibbs, M., "The Development of a Strong and Committed Laity" Religious terminology
The culminating point in military strategy is the point at which a military force is no longer able to perform its operations. On the offensive, the culminating point marks the time when the attacking force can no longer continue its advance, because of supply problems, the opposing force, or the need for rest. The task of the attacker is to complete its objectives before the culminating point is reached. The task of the defender on the other hand, is to bring the attacking force to its culminating point before its objectives are completed. The concept of a culminating point () was formulated by the Prussian general and military theorist Carl von Clausewitz in his book On War published in 1832 (Book 7, Chapter 5). See also Defence in depth Loss of Strength Gradient Strategic depth References External links The Culminating Point of Attack Culminating Points Military strategy Military terminology Military geography Carl von Clausewitz
Cuesta-Rey (originally 'La flor de Cuesta-Rey' and still printed on the box) is a brand of handmade cigar, founded in 1884 by Angel LaMadrid Cuesta and Peregrino Rey. Cuesta, a Spaniard, had apprenticed in cigar making in Cuba before he met Rey. They formed the company in the Ybor City district of Tampa, Florida to make 'clear Havana' cigars (cigars made in the United States using imported Cuban tobacco). As well as making their own brands they made cigars for other companies such as Nat Sherman. In 1958, Karl Cuesta, Angel's son sold the company to the J.C. Newman Cigar Co. and since the 1980s they have been produced in the Dominican Republic by Tabacalera A. Fuente. Current brands Cabinet Selection Centenario Coleccion Centro Fino Sungrown References R.C. Hacker, The ultimate cigar book (2003, 3rd Ed.) Perelman's Pocket Cyclopedia of Cigars (2006 Ed.), Richard B. Perelman, Bati, Anwer - "The Cigar Companion" (1997, 3rd Ed., Reprinted: 1998-2000, 2003), External links Historical Images for Cuesta-Rey from the University of South Florida http://www.cigarfamily.com Cigar brands History of Tampa, Florida 1884 establishments in Florida
Evandro Rachoni de Lima (born 24 November 1989) is a Brazilian professional footballer who plays for German club TuS Rüssingen, as a goalkeeper. Early and personal life Evandro grew up in Rio de Janeiro. He also holds an Italian passport, which he is eligible for due to his grandfather. His brother-in-law is also a footballer who has played in the Ukrainian Premier League. Career Evandro's early career was spent in Brazil and Angola with Rio Claro, Batatais, Santo André, São Bernardo, Fluminense, Interclube and ASA. He then played in Ukraine with Arsenal Kyiv and FK Retro, but his time there was interrupted by the unrest in that country. During his time in Ukraine his team bus was boarded by gunmen. He moved to London in September 2014, signing for non-league club London Bari a few days later. While playing for London Bari he was scouted by Premier League club West Ham United, and he also had interest from France and the United States. After a brief spell with Concord Rangers, where he made 1 league appearance, he signed for League One club Crawley Town in January 2015, on non-contract terms. He made his debut for Crawley in the Sussex Senior Cup on 13 January 2015. He trialled with Peterborough United, but the transfer fell through after a change in management at the club. After a spell with Bishop's Stortford, he signed for Ilkeston in July 2015. He has been nicknamed "Brazilian Bob" by Ilkeston's fans. He left the club by mutual consent in January 2016. He signed for German club Wormatia Worms in February 2016, making one appearance for the senior team and four appearances for the second team. He moved to SV Gimbsheim in July 2016. After a spell in the United States with Red Force FC, Rachoni returned to Germany, playing with RWO Alzey, and TuS Rüssingen. References 1989 births Living people Brazilian men's footballers Brazilian people of Italian descent Men's association football goalkeepers Rio Claro Futebol Clube players Batatais Futebol Clube players Esporte Clube Santo André players São Bernardo Futebol Clube players Fluminense FC players G.D. Interclube players Atlético Sport Aviação players FC Arsenal Kyiv players Concord Rangers F.C. players Crawley Town F.C. players Bishop's Stortford F.C. players Ilkeston F.C. players Wormatia Worms players Red Force FC players RWO Alzey players Brazilian expatriate men's footballers Brazilian expatriate sportspeople in Angola Expatriate men's footballers in Angola Brazilian expatriate sportspeople in Ukraine Expatriate men's footballers in Ukraine Brazilian expatriate sportspeople in England Expatriate men's footballers in England Brazilian expatriate sportspeople in Germany Expatriate men's footballers in Germany Brazilian expatriate sportspeople in the United States Expatriate men's soccer players in the United States
HD 87643 is a B[e] class binary star embedded in a reflection nebula. The system is described as having "one of the most extreme infrared excesses for this object class". It harbours a large amount of both hot and cold dust, and is surrounded by a debris disk with radius 2.5-3 AU and an extended reflection nebula. and is important for astronomers in their study of stellar formation. All the properties of HD 87643 are highly uncertain. Its distance has been estimated anywhere from one to six kpc. The General Catalogue of Variable Stars classifies it as an Orion variable, a pre-main sequence star, but other authors consider it to be a supergiant B[e] star. It has been confirmed to be a binary star system with the two stars separated by about 52 AU, but the nature of the companion is unknown. References External links The field around HD 87643 Binary stars Nebulae B-type supergiants 087643 Carinae, V640 Carina (constellation) Circumstellar disks J10043028-5839521 CD-58 03005 Orion variables B(e) stars
Richard Mark Johnson (born 27 April 1974) is an Australian former footballer. Johnson played for English club Watford for 12 years, making 278 appearances and achieving back-to-back promotions to reach the Premiership in 1999. Following a loan spell at Northampton Town, he played for Colchester United, Stoke City, Queens Park Rangers, Milton Keynes Dons in England after leaving Watford, before finished his career in the A-League with Newcastle United Jets, New Zealand Knights and Wellington Phoenix. Johnson is currently academy director at Watford, having held a variety of administrative positions at the club since 2018. Club career Johnson was born in Kurri Kurri, New South Wales and played for Weston Workers Bears before moving to England to become a professional. He joined the youth ranks of Watford, and made his league début in the closing stages of the 1991–92 season. Johnson's ability to shoot accurately and powerfully from long distance secured him the "Goal of the Season" award for the 1994–95 season, for a 30-yard shot in a game against Wolves. Often in and out of the side for much of his early Watford career, Johnson became an integral part of Graham Taylor's re-shaped Watford side as it started the 1997–98 season. He formed a central midfield partnership with Micah Hyde that was to help drive Watford to the 1997–98 Division Two Championship. Johnson was also to show his long-range shooting skills in the 4–0 victory over rivals Luton Town at Kenilworth Road, scoring the first goal. The Hyde-Johnson axis continued into the 1998–99 season, with Johnson playing in Watford's drive to the play-offs and picking up a winners medal in the 2–0 final victory over Bolton. Johnson was to play a limited part in Watford's first Premiership season, with injuries sustained in August and January keeping him out for two months each time. Playing in a match against Manchester United on 29 April 2000 Johnson ruptured knee ligaments. He did not return until 28 April 2001, featuring in the final three games of the 2000–01 season. However, Johnson suffered a relapse, and he missed all of the 2001–02 season. He returned intermittently in the autumn of 2002, but after picking up another injury was sent on loan to Northampton Town for a month in February 2003 to gain fitness. He scored one goal - against Watford's rivals Luton Town - in 6 games for the Cobblers. Returning to Watford, Johnson featured in the final few games of the season, but still struggling for fitness and a first-team place he was released in October 2003. He had played 277 times for the Hornets in 11 years at the club, scoring 22 goals. He subsequently joined Colchester, playing a singular game for the Us in the Football League Trophy. After just a month in Essex, Johnson joined Stoke City. He played nine times for the Potters before joining Queens Park Rangers in February 2004, who were driving towards promotion from Division Two. Johnson played 11 times in Rangers' run-in, helping them to secure second position and automatic promotion. Johnson started the 2004–05 season in the first-team, but found the step-up to the Championship too demanding and slipped out of the team at the end of August. In October 2004 he was loaned to Milton Keynes Dons for whom he played three times. Returning to QPR, he was unable to regain his place and he was released at the end of the season having not played another game for the London club. A-League Johnson moved back to Australia, joining home-town club Newcastle United Jets in the newly formed A-League. Johnson played a key part in Jets' first season where the team managed a respectable 4th place under then manager Richard Money, starting 20 out of 23 games. However, in the 2006 off-season he moved to A-League club New Zealand Knights for the final year of their existence. In May 2007 Johnson signed for newly formed A-League team Wellington Phoenix FC. In March 2007, Johnson had been arrested for drink driving in Newcastle and had subsequently been sentenced to eight months in prison. He appealed against this verdict and the sentence was amended to a suspended sentence and a fine, allowing him to take up his contract with Wellington. On 11 February 2009, Johnson announced he would be retiring from professional football at the end of the 2008–09 A-League season. Post-playing career In January 2019, Johnson was appointed technical director at National League South side Wealdstone, while continuing in his role as business development manager at his former club Watford. After three years in his previous role at the club, Johnson became head of academy partnerships at Watford in February 2021. Three months later, he was appointed academy director at the club. International career Johnson won his first and only full cap for the Australian national team against the Czech Republic on 29 March 2000. He also played for the Australian national team twice against a Brazilian 'B' side. Career statistics Sources: A. The "Other" column constitutes appearances and goals in the Anglo-Italian Cup, Football League Trophy and Football League play-offs. International Source: Honours Watford Football League First Division Playoff Winner: 1998–99 Football League Second Division Winner: 1997–98 References External links Oz Football profile 1974 births Living people People from Kurri Kurri Soccer players from New South Wales Australian men's soccer players Australia men's international soccer players Watford F.C. players Northampton Town F.C. players Colchester United F.C. players Stoke City F.C. players Queens Park Rangers F.C. players Milton Keynes Dons F.C. players Newcastle Jets FC players New Zealand Knights FC players Premier League players English Football League players A-League Men players Wellington Phoenix FC players Australian expatriate men's soccer players Expatriate men's association footballers in New Zealand Expatriate men's footballers in England Men's association football midfielders Watford F.C. non-playing staff Australian expatriate sportspeople in England Australian expatriate sportspeople in New Zealand

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