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Create a function removeNonAlphabets(char * inputFileName, char * outputFileName) in C or C++ that is passed as parameters: an input file name and an output file name. The function then reads the input file using read system call and removes all non-alphabets. It then writes the data to output file using write system call. You will need to see open, read, write, and close system calls.

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44

Disk-management-system-in-c-linux-

practical-case-study-e-operating-systems-programming--300698-1-introduction-in-this-workshop-you-will-be-implementing-a-file-system-simulator-loosely-based-on-historic-file-systems-the-file-system-will-be-have-the-following-properties--it-is-a-single-level-directory-system--the-directory-entry-has-the-following-format-struct-entry--char-user-char-name9-char-extension4-short-blockcount-short-block8--with-the-name-and-extension-fields-being-c-strings-this-structure-is-32-bytes-in-size--the-disk-size-is-160-kbyte-this-is-roughly-one-side-of-a-5-1-4-00-inch-disk--the-smallest-unit-of-allocation-is-1-kbyte--the-main-directory-occupies-the-first-block-of-the-disk-block-0-and-its-size-is-fixed-at-1-block-so-there-can-only-be-32-files-in-this-file-system--as-the-directory-always-occupies-only-the-first-block-therefore-no-control-information-about-it-needs-to-be-stored-in-the-directory-ie-no--entry--the-only-user-is-user-1--user-1-is-not-a-valid-user-and-could-be-used-to-mark-free-directory-entries--alongside-the-directory-you-also-need-a-bitmap-that-is-capable-of-representing-all-of-the-blocks-available-on-the-disk-this-can-be-a-free-space-bitmap-or-an-allocation-bitmap-this-is-your-choice-this-structure-is-not-stored-on-the-disk-but-would-be-computed-by-the-operating-system-when-the-disk-was-inserted-you-are-not-supposed-to-implement-the-actual-storage-only-the-control-structures-of-the-file-system-when-implementing-the-free-bitmap-you-must-use-a-bitmap-ie-it-should-be-an-array-but-each-element-of-the-array-should-represent-several-blocks-1-2-programming-tasks-when-your-program-starts-it-will-assume-that-the-disk-is-unformatted-you-should-provide-a-menu-that-implements-the-following-options-initialise-disk-initialise-disk-control-structures-setting-the-first-block-of-the-disk-to-used-in-the-bitmap-and-marking-all-directory-entries-as-being-available-list-files-in-the-directory-list-the-names-extensions-and-block-counts-of-all-the-valid-files-in-the-directory-display-the-free-bitmap-print-the-value-of-each-of-the-bits-in-the-bitmap-this-need-not-be-pretty-just-a-long-list-of-1s-and-0s-is-sufficient-opencreate-file-scans-the-directory-and-if-the-name-provided-doesnt-exist-then-adds-that-file-to-the-directory-this-file-will-be-used-in-all-subsequent-operations-until-a-new-file-is-opened-or-it-is-deleted-read-file-list-the-blocks-occupied-by-the-currently-open-file-not-the-content-of-these-blocks-as-you-dont-store-this-information-write-file-allocate-another-block-to-the-currently-open-file-you-should-not-preallocate-blocks-for-the-file-you-should-allocate-the-first-available-block-by-scanning-the-bitmap-for-the-first-block-that-is-available-each-write-shall-add-another-block-to-the-file-until-there-are-no-more-slots-to-allocate-blocks-to-or-the-disk-runs-out-of-blocks-there-are-only-8-slots-available-for-each-file-delete-file-deallocate-all-blocks-for-the-current-file-in-the-bitmap-and-marks-as-free-the-directory-entry-for-that-file-you-need-to-pay-close-attention-to-multiple-boundary-conditions-which-exist-in-this-file-system-including-the-total-size-of-the-disk-maximum-size-of-a-file-maximum-number-of-files-etc-2-3-file-fsh-ifndef-fsh-define-fsh--prevent-multiple-inclusion--includestdinth--fsh--various-definitions-for-osp-practical-case-study-e---the-bitmap--extern-uint8t-bitmap20--160kb-disk-with-1kb-blocks--160-bits-for-bitmap---20-bytes---the-directory-entry--struct-entry--char-user-char-name9-char-extension4-short-blockcount-short-block8---the-directory--extern-struct-entry-directory32--extern-means-its-defined-in-another-file-prevents-multiple-definition-errors--int-togglebitint-block--toggles-the-value-of-the-bit-block-in-the-external-array-bitmap-returns-the-current-value-of-the-bit-does-not-validate-block--int-blockstatusint-block--returns-the-status-of-block-in-the-external-array-bitmap-returns-0-if-bitmap-bit-is-0-not-0-if-bitmap-bit-is-1-does-not-validate-block--endif-3-4-file-fsc--fsc-some-useful-functions-for-osp-practical-case-study-e--includefsh-uint8t-bitmap20-struct-entry-directory32-int-togglebitint-block--int-elemblock8-int-posblock8-int-mask1pos-bitmapelemmask-return-bitmapelemmask--int-blockstatusint-block--int-elemblock8-int-posblock8-int-mask1pos-return-bitmapelemmask--5-file-mainc-includestdioh--stdioh-will-be-found-in-the-system-path--includefsh--fsh-will-be-found-in-the-local-path--int-mainint-ac-charav--printfplease-make-me-usefuln-return-0--4-6-file-makefile-all-casee-casee-maino-fso-cc--o-5
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45

Lab-2--Time-complexity-of-non-recursive-functions-

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46

Alpha_Beta_Prunning

Python
2
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47

MIPS32-Assembly-Language

Assembler that supports a subset of the MIPS32 assembly language. The assembler is implemented in C and executed on Linux.
C
2
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48

fazeelkhalid

Config files for my GitHub profile.
2
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49

fazeelkhalid.github.io

HTML
2
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50

Advance-shell-in-c-language

it will handel all external, some internal command like cd, exit, jobs and help, also handel pipe and background and fore ground jobs
C
2
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51

Data-structure-Labs

C++
2
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52

Lab1-Create-a-template-class--Matrix--

1. An overloaded constructor which takes the values of rows and columns, and declares the required memory for the matrix. Matrix(int rows, int columns) 2. Copy Constructor to deep copy another matrix Matrix(Matrix const &obj) . 3. Insert function to insert an element in the given row number and column number void insertElement(T const& element, int rowNo, int colNo) 4. An overloaded + operator to add corresponding elements of two matrices. If there is a mismatch of number of rows or columns for the matrices, the operator will print an error. Matrix<T> operator+(Matrix const& obj) 5. A function named β€œprint” to print the matrix in a neat and readable way. void print(); 6. Transpose function to take transpose of the matrix. (Convert rows into columns and vice versa). void transpose() 7. A destructor to delete the memory. ~Matrix()
C++
2
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53

Design-and-Analysis-of-Algorithms--Spring-2021-Assignment-4

Problem 1 The spread of third wave of COVID-19 in Pakistan has resulted in closure of academic Institutes. The management of FAST Lahore decided to save your academic year by conducting online sessions (video lectures). There are total n videos that need to be streamed one after the other. Each video vi consists of bi bits that needs to be sent at a constant rate over a period of ti seconds. There is only one connection allowed so two videos can’t be sent at a time. This means scheduling of videos is required (an order in which to send these videos). Whichever order is chosen, there cannot be any delays between the end of one video and the start of the next. The connection does not want its user taking up too much bandwidth, so it imposes the following constraint, using a fixed parameter r: For each natural number t > 0, the total number of bits you send over the time interval from 0 to t cannot exceed r*t. A schedule is considered valid if it satisfies the constraint imposed by the connection. You are a computer science expert and management of FAST need your services. Given a set of n video streams specified by its number of bits bi and its time duration ti, they need to determine whether there exists a valid schedule that satisfies connection parameter r. For example you have 3 videos with (b1,t1)=(2000,1), (b2,t2)=(6000,2) and (b3,t3)=(2000,1) also r=5000. The schedule that runs videos in order 1, 2, 3, is valid because at time t=1 the first stream is sent and 2000 < 5000*1 at time t=2 2000+3000(half of second video)<5000*2 similar calculation can be done to check the constraint for t=3 and t=4. a. Design an efficient algorithm that takes a set of n streams each specified by bi and ti along with r and determines whether a valid schedule exists or not. b. Analyze the running time of your algorithm as a function of n. c. Prove that your algorithm works (Give informal argument). Problem 2 Suppose that instead of always selecting the first activity to finish, we instead select the last activity to start that is compatible with all previously selected activities. Describe how this approach is a greedy algorithm, and prove that it yields an optimal solution. Problem 3 Suppose that we have a set of activities to schedule among a large number of lecture halls, where any activity can take place in any lecture hall. We wish to schedule all the activities using as few lecture halls as possible. Give an efficient greedy algorithm to determine which activity should use which lecture hall. Problem 4 Alice wants to throw a party and is deciding whom to call. She has n people to choose from, and she has made up a list of which pairs of these people know each other. She wants to pick as many people as possible, subject to two constraints: at the party, each person should have at least five other people whom they know and five other people whom they don't know. Give an efficient algorithm that takes as input the list of n people and the list of pairs who know each other and outputs the best choice of party invitees. Give the running time in terms of n.
2
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54

TREX-GAME-coal-project--intel-8080

For this assignment you will work in group of two team member, in case you are unable to find partner you can work alone (but you will need my permission). You cannot working in group of more than 2. You will submit assignment in one. asm file on google classroom (link will be provided soon) Due data of assignment is: 23rd Dec 2020 (no extension possible as that is last week of classes) Plagiarism will result in negative marking that will seriously affect your grade and can also result in F TREX GAME. In this assignment you will be creating a T-Rex game. In this game a dinosaur is running and has to jump over the hurdles. The more hurdles it crosses the more it will score. You can play this game online at https://elgoog.im/t-rex/ and get familiar with it
Assembly
2
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55

Design-Finite-Automata

Problem 1: For languages L1 to L10 over alphabets {a,b} do the following a) Enumerate some elements b) Draw a Deterministic Finite Automata ο‚· L1: The language of all strings containing even number of a’s and each a is followed by at least one b. ο‚· L2:The language that has even length and odd number of a’s. ο‚· L3:The language of all strings in which every pair of adjacent b’s appear before any pair of adjacent a’s. ο‚· L4:The language of all strings containing no more than one occurrence of the string aa. (the string aaa should be viewed as containing 2 occurrences of aa) ο‚· L6: The language of all strings that begins and end with a triple letter( aaa or bbb) ο‚· L7: The language of all strings containing at least two a’s and at most one b. Problem 2a: For languages L1 to L10 over alphabets {0,1} do the following a) Enumerate some elements b) Draw a Deterministic Finite Automata ο‚· L1: strings over {0,1} such that their decimal equivalent is multiple of 5 Eg: {0, 101,1010…..} ο‚· L2: all strings over {0,1} that start with 0 and end with 010 and do not have 000 as part of a string. ο‚· L3: all the string x in which n 0 (x)%3=0 and n 1 (x)%3!=0 ο‚· L4: all the string x in which n 0 (x)%3=0 and n 1 (x)%3=0 ο‚· L5: L4 U L3 ο‚· L6= L1’ School of Computer SciencePage2 Problem 2a: Run DFA of L1 of problem 2 for following strings, and answer which ones are accepted and which are rejected {000111, 101000, 10110100,0000100000}
2
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56

Operating-System_Assignment-1

1) Write a C program that accepts a file name and a substring as command line argument and prints the number of occurrences of substring in the given file on the console. If the file does not exist, print some error on the screen. 2) Write a program to manage record of student registration on file. Enter your details and the details of two of your classmates. Roll no, Name and Email should be saved as student details. Example Record: Name: Waleed Akram Khan Roll No. L17-4268 Email: [email protected] Take input via command line argument or user input. Your program should do the following: a. Allow Adding students b. Read student record from file. (Program must take input from user to read a record. E.g. β€œ0” to read your record, β€œ1” and β€œ2” to read record of fellow student.) c. Delete student record in file. (Program must take input from user to delete a record. E.g. β€œ0” to delete your record, β€œ1” and β€œ2” to delete record of fellow student.) 3) Write a program that reverses all the characters of words that are not vowels in a given file.
C
2
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57

concatinate-and-delete-data

concatinate two doubly linked list such that copy datra of list2 in to list2. secondly design a function that delete all data except given key
C++
2
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58

Design-and-Analysis-of-Algorithms--Spring-2021-Assignment-3

Problem 1 Suppose you want to place bill boards to advertise about your new business on the roads of your city. The idea is to place billboards only on the junctions to get maximum visibility as lots of people pass through those junctions. Placing a bill board cost you X Rs. You want to place these bill boards such that each road of the city is covered (i.e. one board must be placed at least to one of the junctions connecting that road). Your objective is to place the boards such that all roads are covered with minimum cost. Being a computer science expert, you model the road network as a graph where roads are edges and junctions are vertices. One of your friends asks you to apply greedy approach to minimize your cost. He asks you to place a board on the junction/vertex that has maximum degree (this way maximum number of roads will be covered) and then place the next board on the junction/vertex that has maximum uncovered roads. Keep doing this until all roads are covered. Is this greedy strategy optimal? If yes then give an informal correctness proof. Otherwise give a counter example. Problem 2 You are recently appointed as an intern of company ABC for n weeks. You team lead has assigned you n tasks t1, t2, t3, ... , tn. You have to submit one task every week but you can do these tasks in any order. Each task i requires hi hours to complete (h1 hours for task t1, h2 hours for task t2 and so on). If you submit task ti on week j then you will be paid hi*(n-j)$. You want to maximize your earning. Give a greedy algorithm that can determine the order in which you should perform the tasks to maximize your income. Give n informal proof of correctness for you algorithm. Problem 3 We use Huffman's algorithm to obtain an encoding of alphabet {a, b, c} with frequencies fa, fb, fc. In each of the following cases, either give an example of frequencies (fa; fb; fc) that would yield the specified code, or explain why the code cannot possibly be obtained (no matter what the frequencies are). (a) Code: {0, 10, 11} (b) Code: {0, 1, 00} (c) Code: {10, 01, 00} Problem 4 Ternary Huffman. Trimedia Disks Inc. has developed ternary hard disks. Each cell on a disk can now store values 0, 1, or 2 (instead of just 0 or 1). To take advantage of this new technology, we need a modified Huffman algorithm for compressing sequences of characters from an alphabet of size n, where the characters occur with known frequencies f1, f2, ..., fn. Your algorithm should encode each character with a variable-length code word over the values 0, 1, 2 such that no code word is a prefix of another code word and so as to obtain the maximum possible compression. a. Design an algorithm for finding optimal code. b. Analyze the running time of your algorithm as a function of n, the number of unique characters. c. Prove that your algorithm works (Give informal argument).
2
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59

chatgpt

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