//############################################################################ // Programmation IV - 2002 - Week 02 //############################################################################ object M0 { def gcd(a: Int, b: Int): Int = if (b == 0) a else gcd(b, a % b) def factorial(n: Int): Int = if (n == 0) 1 else n * factorial(n - 1) Console.println(gcd(14,21)) Console.println(factorial(5)) Console.println } //############################################################################ object M1 { def cube(x: Int): Double = x * x * x def sumInts(a: Int, b: Int): Double = if (a > b) 0 else a + sumInts(a + 1, b); def sumCubes(a: Int, b: Int): Double = if (a > b) 0 else cube(a) + sumCubes(a + 1, b); def sumReciprocals(a: Int, b: Int): Double = if (a > b) 0 else 1.0/a + sumReciprocals(a + 1, b); def sumPi(n: Int): Double = { def element(x: Int): Double = 4.0/(4*x+1) - 4.0/(4*x-1); def sumElements(a: Int, b: Int): Double = if (a > b) 0 else element(a) + sumElements(a + 1, b); 4 + sumElements(1,n) } Console.println(sumInts(1,4)) Console.println(sumCubes(1,4)) Console.println(sumReciprocals(1,4)) Console.println(sumCubes(1, 10) + sumReciprocals(10, 20)) Console.println("pi = " + sumPi(20)) Console.println } //############################################################################ object M2 { def id(x: Int): Double = x; def cube(x: Int): Double = x * x * x; def reciprocal(x: Int): Double = 1.0/x; def sum(f: Int => Double, a: Int, b: Int): Double = if (a > b) 0 else f(a) + sum(f, a + 1, b); def sumInts(a: Int, b: Int): Double = sum(id, a, b); def sumCubes(a: Int, b: Int): Double = sum(cube, a, b); def sumReciprocals(a: Int, b: Int): Double = sum(reciprocal, a, b); def sumPi(n: Int): Double = { def element(x: Int): Double = 4.0/(4*x+1) - 4.0/(4*x-1); 4 + sum(element, 1, n) } Console.println(sumInts(1,4)) Console.println(sumCubes(1,4)) Console.println(sumReciprocals(1,4)) Console.println(sumCubes(1, 10) + sumReciprocals(10, 20)) Console.println("pi = " + sumPi(20)) Console.println } //############################################################################ object M3 { def sum(f: Int => Double, a: Int, b: Int): Double = if (a > b) 0 else f(a) + sum(f, a + 1, b); def sumInts(a: Int, b: Int): Double = sum((xXXXXX => xXXXXX), a, b); def sumCubes(a: Int, b: Int): Double = sum((x => x * x * x), a, b); def sumReciprocals(a: Int, b: Int): Double = sum((x => 1.0/x), a, b); def sumPi(n: Int): Double = 4 + sum((x => 4.0/(4*x+1) - 4.0/(4*x-1)), 1, n); Console.println(sumInts(1,4)) Console.println(sumCubes(1,4)) Console.println(sumReciprocals(1,4)) Console.println(sumCubes(1, 10) + sumReciprocals(10, 20)) Console.println("pi = " + sumPi(20)) Console.println } //############################################################################ object M4 { def sum(f: Int => Double): (Int, Int) => Double = { def sumF(a: Int, b: Int): Double = if (a > b) 0 else f(a) + sumF(a + 1, b); sumF } def sumInts = sum(x => x) def sumCubes = sum(x => x * x * x) def sumReciprocals = sum(1.0/_) def sumPi = { n: Int => 4 + sum(x => 4.0/(4*x+1) - 4.0/(4*x-1))(1, n) } Console.println(sumInts(1,4)) Console.println(sumCubes(1,4)) Console.println(sumReciprocals(1,4)) Console.println(sumCubes(1, 10) + sumReciprocals(10, 20)) Console.println("pi = " + sumPi(20)) Console.println } //############################################################################ object M5 { def sum(f: Int => Double): (Int, Int) => Double = { (a, b) => if (a > b) 0 else f(a) + sum(f)(a + 1, b) } def sumInts = sum(x => x) def sumCubes = sum(x => x * x * x) def sumReciprocals = sum(x => 1.0/x) def sumPi = { n: Int => 4 + sum(x => 4.0/(4*x+1) - 4.0/(4*x-1))(1, n) } Console.println(sumInts(1,4)) Console.println(sumCubes(1,4)) Console.println(sumReciprocals(1,4)) Console.println(sumCubes(1, 10) + sumReciprocals(10, 20)) Console.println("pi = " + sumPi(20)) Console.println } //############################################################################ object M6 { def sum(f: Int => Double)(a: Int, b: Int): Double = if (a > b) 0 else f(a) + sum(f)(a + 1, b); def sumInts = sum(x => x)_ def sumCubes = sum(x => x * x * x)_ def sumReciprocals = sum(x => 1.0/x)_ def sumPi = { n: Int => 4 + sum(x => 4.0/(4*x+1) - 4.0/(4*x-1))(1, n) } Console.println(sumInts(1,4)) Console.println(sumCubes(1,4)) Console.println(sumReciprocals(1,4)) Console.println(sumCubes(1, 10) + sumReciprocals(10, 20)) Console.println("pi = " + sumPi(20)) Console.println } //############################################################################ object M7 { def sum(f: Int => Double)(a: Int, b: Int): Double = { def iter(a: Int, result: Double): Double = if (a > b) result else iter(a + 1, f(a) + result); iter(a, 0) } def sumInts = sum(x => x)_ def sumCubes = sum(x => x * x * x)_ def sumReciprocals = sum(x => 1.0/x)_ def sumPi = { n: Int => 4 + sum(x => 4.0/(4*x+1) - 4.0/(4*x-1))(1, n) } Console.println(sumInts(1,4)) Console.println(sumCubes(1,4)) Console.println(sumReciprocals(1,4)) Console.println(sumCubes(1, 10) + sumReciprocals(10, 20)) Console.println("pi = " + sumPi(20)) Console.println } //############################################################################ object M8 { def product(f: Int => Double)(a: Int, step: Int, b: Int): Double = if (a > b) 1 else f(a) * product(f)(a + step, step, b); def productPi = { n: Int => product(x=>4.0*x*x/(2*x-1)/(2*x-1))(1,1,n)/n } val pi = 2 * product(x => x * x)(2, 2, 40) / product(x => x * x)(1, 2,40)/40; Console.println("pi = " + productPi(20)) Console.println("pi = " + pi) Console.println } //############################################################################ object M9 { def accumulate[t](combiner: (t, t) => t, nullValue: t, f: Int => t, next: Int => Int)(a: Int, b: Int): t = if (a > b) nullValue else combiner(f(a), accumulate(combiner, nullValue, f, next)(next(a), b)) def inc(x: Int) = x + 1 def sum(f: Int => Double): (Int, Int) => Double = accumulate((x: Double, y: Double) => x + y, 0d, f, inc) def product(f: Int => Double): (Int, Int) => Double = accumulate((x: Double, y: Double) => x * y, 1d, f, inc) def sumInts = sum(x => x) def sumCubes = sum(x => x * x * x) def sumReciprocals = sum(x => 1.0 / x) def sumPi = { n: Int => 4 + sum(x => 4.0/(4*x+1) - 4.0/(4*x-1))(1, n) } def productPi = { n: Int => product(x=>4.0*x*x/(2*x-1)/(2*x-1))(1,n)/n } val pi = 2*product(x => 2*x*2*x)(1,20)/product(x =>(2*x-1)*(2*x-1))(1,20)/40 Console.println(sumInts(1, 4)) Console.println(sumCubes(1, 4)) Console.println(sumReciprocals(1, 4)) Console.println(sumCubes(1, 10) + sumReciprocals(10, 20)) Console.println("pi = " + sumPi(20)) Console.println("pi = " + productPi(20)) Console.println("pi = " + pi) Console.println } //############################################################################ object MA { val tolerance = 0.0001 def abs(x: Double) = if (x < 0) -x else x def isCloseEnough(x: Double, y: Double) = abs((x - y) / x) < tolerance def fixedPoint(f: Double => Double)(firstGuess: Double) = { def iterate(guess: Double): Double = { val next = f(guess); Console.println(next); if (isCloseEnough(guess, next)) next else iterate(next) } iterate(firstGuess) } def sqrt(x: Double) = fixedPoint(y => (y + x / y) / 2)(1.0) Console.println("sqrt(2) = " + sqrt(2)) Console.println } //############################################################################ object MB { val tolerance = 0.0001; def abs(x: Double) = if (x < 0) -x else x; def isCloseEnough(x: Double, y: Double) = abs((x - y) / x) < tolerance; def fixedPoint(f: Double => Double)(firstGuess: Double) = { def iterate(guess: Double): Double = { val next = f(guess); Console.println(next); if (isCloseEnough(guess, next)) next else iterate(next) } iterate(firstGuess) } def averageDamp(f: Double => Double)(x: Double) = (x + f(x)) / 2; def sqrt(x: Double) = fixedPoint(averageDamp(y => x/y))(1.0); Console.println("sqrt(2) = " + sqrt(2)) Console.println } //############################################################################ object MC { def sum(f: Int => Double)(a: Int, b: Int): Double = { def iter(a: Int, result: Double): Double = { if (a > b) result else iter(a + 1, result + f(a)) } iter(a, 0) } def product(f: Int => Double)(a: Int, b: Int): Double = { def iter(a: Int, result: Double): Double = { if (a > b) result else iter(a + 1, result * f(a)) } iter(a, 1) } def factorial(n: Int) = product(x => x)(1 , n) Console.println( "1 + 2 + .. + 5 = " + sum(x => x)(1, 5)); Console.println( "1 * 2 * .. * 5 = " + product(x => x)(1, 5)); Console.println; Console.println( "1^2 + 2^2 + .. + 5^2 = " + sum(x => x*x)(1, 5)); Console.println( "1^2 * 2^2 * .. * 5^2 = " + product(x => x*x)(1, 5)); Console.println; Console.println( "factorial(0) = " + factorial(0)) Console.println( "factorial(1) = " + factorial(1)) Console.println( "factorial(2) = " + factorial(2)) Console.println( "factorial(3) = " + factorial(3)) Console.println( "factorial(4) = " + factorial(4)) Console.println( "factorial(5) = " + factorial(5)) Console.println } //############################################################################ object MD { def reduce(op: (Double,Double) => Double, zero:Double)(f: Int => Double)(a: Int,b: Int): Double = { def iter(a: Int, result: Double): Double = { if (a > b) result else iter(a + 1, op(result, f(a))) } iter(a, zero) } def plus (x:Double,y:Double) = x+y; val sum: (Int => Double) => (Int, Int) => Double = reduce(plus , 0); def times(x:Double,y:Double) = x*y; val product: (Int => Double) => (Int, Int) => Double = reduce(times, 1); def factorial(n: Int) = product(x => x)(1 , n) Console.println( "1 + 2 + .. + 5 = " + sum(x => x)(1, 5)) Console.println( "1 * 2 * .. * 5 = " + product(x => x)(1, 5)) Console.println; Console.println( "1^2 + 2^2 + .. + 5^2 = " + sum(x => x*x)(1, 5)) Console.println( "1^2 * 2^2 * .. * 5^2 = " + product(x => x*x)(1, 5)) Console.println; Console.println( "factorial(0) = " + factorial(0)) Console.println( "factorial(1) = " + factorial(1)) Console.println( "factorial(2) = " + factorial(2)) Console.println( "factorial(3) = " + factorial(3)) Console.println( "factorial(4) = " + factorial(4)) Console.println( "factorial(5) = " + factorial(5)) Console.println } //############################################################################ object ME { def reduce(op: (Double,Double) => Double, zero:Double)(f: Int => Double)(a: Int,b: Int): Double = { def iter(a: Int, result: Double): Double = { if (a > b) result else iter(a + 1, op(result, f(a))) } iter(a, zero) } def sum: (Int => Double) => (Int, Int) => Double = reduce((x,y) => x + y, 0); def product: (Int => Double) => (Int, Int) => Double = reduce((x,y) => x * y, 1); def factorial(n: Int) = product(x => x)(1 , n) Console.println( "1 + 2 + .. + 5 = " + sum(x => x)(1, 5)) Console.println( "1 * 2 * .. * 5 = " + product(x => x)(1, 5)) Console.println; Console.println( "1^2 + 2^2 + .. + 5^2 = " + sum(x => x*x)(1, 5)) Console.println( "1^2 * 2^2 * .. * 5^2 = " + product(x => x*x)(1, 5)) Console.println; Console.println( "factorial(0) = " + factorial(0)) Console.println( "factorial(1) = " + factorial(1)) Console.println( "factorial(2) = " + factorial(2)) Console.println( "factorial(3) = " + factorial(3)) Console.println( "factorial(4) = " + factorial(4)) Console.println( "factorial(5) = " + factorial(5)) Console.println } //############################################################################ object MF { def fib(x: Int): Int = if (x <= 1) x else fib(x - 2) + fib(x - 1) Console.println("fib(0) = " + fib(0)) Console.println("fib(1) = " + fib(1)) Console.println("fib(2) = " + fib(2)) Console.println("fib(3) = " + fib(3)) Console.println("fib(4) = " + fib(4)) Console.println("fib(5) = " + fib(5)) Console.println("fib(6) = " + fib(6)) Console.println("fib(7) = " + fib(7)) Console.println("fib(8) = " + fib(8)) Console.println("fib(9) = " + fib(9)) } //############################################################################ object MG { def fib(x: Int) = { def loop(n: Int, prev: Int, fibn: Int): Int = if (n == x) fibn else loop(n + 1, fibn, fibn + prev) if (x == 0) 0 else loop(1, 0, 1) } Console.println("fib(0) = " + fib(0)) Console.println("fib(1) = " + fib(1)) Console.println("fib(2) = " + fib(2)) Console.println("fib(3) = " + fib(3)) Console.println("fib(4) = " + fib(4)) Console.println("fib(5) = " + fib(5)) Console.println("fib(6) = " + fib(6)) Console.println("fib(7) = " + fib(7)) Console.println("fib(8) = " + fib(8)) Console.println("fib(9) = " + fib(9)) } //############################################################################ object MH { def power(x: Double, y: Int): Double = if (y <= 0) 1 else if (y % 2 == 0) power(x * x, y / 2) else x * power(x, y - 1); Console.println("power(0,0) = " + power(0,0)) Console.println("power(0,1) = " + power(0,1)) Console.println("power(0,2) = " + power(0,2)) Console.println("power(0,3) = " + power(0,3)) Console.println("power(0,4) = " + power(0,4)) Console.println("power(0,5) = " + power(0,5)) Console.println("power(0,6) = " + power(0,6)) Console.println("power(0,7) = " + power(0,7)) Console.println("power(0,8) = " + power(0,8)) Console.println Console.println("power(1,0) = " + power(1,0)) Console.println("power(1,1) = " + power(1,1)) Console.println("power(1,2) = " + power(1,2)) Console.println("power(1,3) = " + power(1,3)) Console.println("power(1,4) = " + power(1,4)) Console.println("power(1,5) = " + power(1,5)) Console.println("power(1,6) = " + power(1,6)) Console.println("power(1,7) = " + power(1,7)) Console.println("power(1,8) = " + power(1,8)) Console.println Console.println("power(2,0) = " + power(2,0)) Console.println("power(2,1) = " + power(2,1)) Console.println("power(2,2) = " + power(2,2)) Console.println("power(2,3) = " + power(2,3)) Console.println("power(2,4) = " + power(2,4)) Console.println("power(2,5) = " + power(2,5)) Console.println("power(2,6) = " + power(2,6)) Console.println("power(2,7) = " + power(2,7)) Console.println("power(2,8) = " + power(2,8)) Console.println Console.println("power(3,0) = " + power(3,0)) Console.println("power(3,1) = " + power(3,1)) Console.println("power(3,2) = " + power(3,2)) Console.println("power(3,3) = " + power(3,3)) Console.println("power(3,4) = " + power(3,4)) Console.println("power(3,5) = " + power(3,5)) Console.println("power(3,6) = " + power(3,6)) Console.println("power(3,7) = " + power(3,7)) Console.println("power(3,8) = " + power(3,8)) Console.println Console.println("power(4,0) = " + power(4,0)) Console.println("power(4,1) = " + power(4,1)) Console.println("power(4,2) = " + power(4,2)) Console.println("power(4,3) = " + power(4,3)) Console.println("power(4,4) = " + power(4,4)) Console.println("power(4,5) = " + power(4,5)) Console.println("power(4,6) = " + power(4,6)) Console.println("power(4,7) = " + power(4,7)) Console.println("power(4,8) = " + power(4,8)) Console.println Console.println("power(5,0) = " + power(5,0)) Console.println("power(5,1) = " + power(5,1)) Console.println("power(5,2) = " + power(5,2)) Console.println("power(5,3) = " + power(5,3)) Console.println("power(5,4) = " + power(5,4)) Console.println("power(5,5) = " + power(5,5)) Console.println("power(5,6) = " + power(5,6)) Console.println("power(5,7) = " + power(5,7)) Console.println("power(5,8) = " + power(5,8)) Console.println } //############################################################################ object Test { def main(args: Array[String]): Unit = { M0 M1 M2 M3 M4 M5 M6 M7 M8 M9 MA MB MC MD ME MF MG MH () } } //############################################################################