Task: | Tontti |
Sender: | testUser |
Submission time: | 2015-10-11 00:22:58 +0300 |
Language: | Java |
Status: | READY |
Result: | 14 |
group | verdict | score |
---|---|---|
#1 | ACCEPTED | 14 |
#2 | WRONG ANSWER | 0 |
#3 | WRONG ANSWER | 0 |
test | verdict | time | group | |
---|---|---|---|---|
#1 | ACCEPTED | 0.19 s | 1 | details |
#2 | ACCEPTED | 0.18 s | 1 | details |
#3 | ACCEPTED | 0.17 s | 1 | details |
#4 | ACCEPTED | 0.17 s | 1 | details |
#5 | ACCEPTED | 0.18 s | 1 | details |
#6 | WRONG ANSWER | 0.36 s | 2 | details |
#7 | WRONG ANSWER | 0.34 s | 2 | details |
#8 | ACCEPTED | 0.33 s | 2 | details |
#9 | ACCEPTED | 0.32 s | 2 | details |
#10 | ACCEPTED | 0.31 s | 2 | details |
#11 | WRONG ANSWER | 0.86 s | 3 | details |
#12 | WRONG ANSWER | 0.91 s | 3 | details |
#13 | ACCEPTED | 0.78 s | 3 | details |
#14 | ACCEPTED | 0.81 s | 3 | details |
#15 | ACCEPTED | 0.83 s | 3 | details |
Code
import java.util.Random; /** * Created by Frans on 5.10.2015. */ public class Tontti{ static int height; static int width; static int[][] kenttaSumma; //static int[][] kentta; static int wantedTrees; static int lastSize; static double multiplier; static long runAmountB; static long runAmountBU; static long runAmountBD; static long runAmountL; static long runAmountL2; /*static final int testInt = 100000*1; static int seed = 1606; //(int) (Math.random()*10000); static int did = 0; */ public static void main(String[] args){ IO io = new IO(); int foundArea = 0; int minSize = (int) (Math.sqrt(wantedTrees) + 0.99); multiplier = 0; //int trees = 0; /*//todo long aika = System.nanoTime(); Random generator = new Random(seed); int futureWidth = 2000; int futureHeight = 2000; int futureWantedTrees = (int) (4 + 0 * Math.pow(10, 1)); height = futureHeight; width = futureWidth; wantedTrees = futureWantedTrees; kenttaSumma = new int[width + 1][height + 1]; kentta = new int[width + 1][height + 1]; String[] lines = new String[height + 1]; for (int y = 1; y <= height; y++) { lines[y] = ""; for (int x2 = 1; x2 <= width; x2++) { if (generator.nextDouble() > 0.2) { lines[y] = lines[y] + "."; } else { lines[y] = lines[y] + "*"; } } } */ height = io.nextInt(); width = io.nextInt(); wantedTrees = io.nextInt(); kenttaSumma = new int[width+1][height+1]; //calculate trees and save it in to array and summed area table for (int y = 1; y <= height; y++) { final char[] line = io.next().toCharArray(); //final char[] line = lines[y].toCharArray(); int sumRow = 0; for (int x = 1; x <= width; x++) { if (line[x - 1] == '*') { sumRow++; //trees++; //kentta[x][y]=1; } kenttaSumma[x][y] = sumRow + kenttaSumma[x][y - 1]; int maxSize = min(x, y); if (maxSize >= minSize) { foundArea += countAreasS(maxSize, minSize, x, y); } } lastSize = minSize; } io.println(foundArea); /* aika = (System.nanoTime()-aika)/1000000; io.println("---"); io.println("Time: " + aika); io.println("Loops Binary: " + runAmountB/1000000.0); io.println(" -high: " + runAmountBU/1000000.0); io.println(" -low: " + runAmountBD/1000000.0); io.println("Loops Linear: " + runAmountL/1000000.0); io.println("Loops Linear: " + runAmountL2/1000000.0); io.println(multiplier); io.println(did); */ io.close(); } //rekursiivinen binaarihaku // x2 = x -1 // y2 = y -1 private static int countAreasB(int maxSize,int minSize, int x, int y, int prevSize, double weight){ int areasFound = 0; int tSize = (int) (((maxSize*(1.0+weight) + minSize*(1.0-weight))/2.0)); if (tSize == prevSize){ tSize = (int) (((maxSize + minSize)/2.0)); } //lopetaan kun sama on jo katsottu if (prevSize != tSize){ prevSize = tSize; runAmountB ++; int sum = kenttaSumma[x][y]+kenttaSumma[x-tSize][y-tSize]-kenttaSumma[x][y-tSize]-kenttaSumma[x-tSize][y]; if(sum > wantedTrees){ runAmountBU ++; //tSize = (int) (Math.sqrt(tSize*tSize-(sum-wantedTrees))+0.999); //pitkalle johdettu matemaattinen optimointi multiplier = max(multiplier - 0.1, -0.95); areasFound += countAreasB(tSize, minSize, x, y, prevSize,multiplier); }else if (sum < wantedTrees){ runAmountBD ++; tSize = (maxSize - tSize == 1)?maxSize+1:tSize; //estetaan pyoristysvirhe multiplier = min(multiplier+0.1,0.95); areasFound += countAreasB(maxSize, tSize, x, y, prevSize,multiplier); }else { //molemmat suunnat ovat mahdollisia --> kokeillaan kaikki lahella olevat areasFound ++; /* if (wantedTrees > testInt) { areasFound += countAreasL(tSize + 1, maxSize, x, y, 1); areasFound += countAreasL(tSize - 1, minSize, x, y, -1); }*/ areasFound += findSize(tSize, maxSize, x, y, 1); areasFound += findSize(tSize, minSize, x, y, -1); lastSize = prevSize; } } return areasFound; } //rekursiivinen binaarihauen alku // x2 = x -1 // y2 = y -1 private static int countAreasS(int maxSize,int minSize, int x, int y){ int areasFound = 0; int tSize = lastSize; //int tSize = min(max(lastSize,minSize),maxSize); int prevSize = tSize; runAmountB ++; int sum = kenttaSumma[x][y]+kenttaSumma[x-tSize][y-tSize]-kenttaSumma[x][y-tSize]-kenttaSumma[x-tSize][y]; if(sum > wantedTrees){ runAmountBU ++; //tSize = (int) (Math.sqrt(tSize*tSize-(sum-wantedTrees))+0.999); //pitkalle johdettu matemaattinen optimointi areasFound += countAreasB(tSize, minSize, x, y, prevSize,0.9); }else if (sum < wantedTrees){ runAmountBD ++; tSize = (maxSize - tSize == 1)?maxSize+1:tSize; //estetaan pyoristysvirhe areasFound += countAreasB(maxSize, tSize, x, y, prevSize,-0.9); }else { //molemmat suunnat ovat mahdollisia --> kokeillaan kaikki lahella olevat areasFound ++; /* if (wantedTrees > testInt) { areasFound += countAreasL(tSize + 1, maxSize, x, y, 1); areasFound += countAreasL(tSize - 1, minSize, x, y, -1); }*/ areasFound += findSize(tSize, maxSize, x, y, 1); areasFound += findSize(tSize, minSize, x, y, -1); } return areasFound; } //suoraviivainen haku, yksitellen // x2 = x-1 // y2 = y-1 private static int countAreasL(int startSize,int endSize, int x, int y, int direction){ int areasFound = 0; runAmountL ++; for (int tSize=startSize; direction*tSize<=endSize*direction; tSize=tSize+direction){ runAmountL2 ++; int sum = kenttaSumma[x][y]+kenttaSumma[x-tSize][y-tSize]-kenttaSumma[x][y-tSize]-kenttaSumma[x-tSize][y]; if (sum == wantedTrees){ areasFound ++; lastSize = tSize; }else{ break; } } return areasFound; } //rekursiivinen binaarihaku tyhjille kohdille private static int findSize(int startSize,int endSize, int x, int y,int direction){ startSize += direction; int foundArea = 0; if (direction*(endSize-startSize) <=4) { foundArea = countAreasL(startSize,endSize,x,y,direction); }else{ int tSize = (int) ((startSize + endSize) / 2.0); int sum = kenttaSumma[x][y] + kenttaSumma[x - tSize][y - tSize] - kenttaSumma[x][y - tSize] - kenttaSumma[x - tSize][y]; if (sum < wantedTrees) { foundArea = findSize(tSize, endSize, x, y,direction); }else if (sum > wantedTrees) { foundArea = findSize(startSize, tSize, x, y,direction); }else{ foundArea = (tSize - startSize)*direction; foundArea += findSize(tSize, endSize, x, y,direction); } } return foundArea; } //just for lulz private static int max(final int a, final int b){ return (a>b)?a:b; } private static int min(final int a, final int b){ return (a<b)?a:b; } private static double min(final double a, final double b){ return (a<b)?a:b; } private static double max(final double a, final double b){ return (a>b)?a:b; } }
Test details
Test 1
Group: 1
Verdict: ACCEPTED
input |
---|
10 10 1 ......*... .......*.. *..*....*. *....*.... ... |
correct output |
---|
94 |
user output |
---|
94 |
Test 2
Group: 1
Verdict: ACCEPTED
input |
---|
10 10 5 ********** ********** ********** ********** ... |
correct output |
---|
0 |
user output |
---|
0 |
Test 3
Group: 1
Verdict: ACCEPTED
input |
---|
10 10 10 **...*...* *..*.**.*. ...**.*..* *...**.*.. ... |
correct output |
---|
4 |
user output |
---|
4 |
Test 4
Group: 1
Verdict: ACCEPTED
input |
---|
10 10 5 ****...... *.*.**..** ....*.*..* ...*.***.. ... |
correct output |
---|
16 |
user output |
---|
16 |
Test 5
Group: 1
Verdict: ACCEPTED
input |
---|
10 10 2 **.***..*. ...*.*.... .***.*...* ***.***..* ... |
correct output |
---|
30 |
user output |
---|
30 |
Test 6
Group: 2
Verdict: WRONG ANSWER
input |
---|
500 500 1 ................................. |
correct output |
---|
9552040 |
user output |
---|
3842044 |
Test 7
Group: 2
Verdict: WRONG ANSWER
input |
---|
500 500 5 ................................. |
correct output |
---|
1536063 |
user output |
---|
218216 |
Test 8
Group: 2
Verdict: ACCEPTED
input |
---|
500 500 25000 **...*...**..*.*..*.**.*..*.*.... |
correct output |
---|
288 |
user output |
---|
288 |
Test 9
Group: 2
Verdict: ACCEPTED
input |
---|
500 500 12500 **.**.*..*...*.**...*.***........ |
correct output |
---|
786 |
user output |
---|
786 |
Test 10
Group: 2
Verdict: ACCEPTED
input |
---|
500 500 5000 .*.*.**..*.*.**.**..*..**...*.... |
correct output |
---|
1763 |
user output |
---|
1763 |
Test 11
Group: 3
Verdict: WRONG ANSWER
input |
---|
2000 2000 1 ................................. |
correct output |
---|
489611392 |
user output |
---|
229032549 |
Test 12
Group: 3
Verdict: WRONG ANSWER
input |
---|
2000 2000 5 ................................. |
correct output |
---|
120725884 |
user output |
---|
8215160 |
Test 13
Group: 3
Verdict: ACCEPTED
input |
---|
2000 2000 400000 ..*..**.**.**.*.***...**.*..**... |
correct output |
---|
1849 |
user output |
---|
1849 |
Test 14
Group: 3
Verdict: ACCEPTED
input |
---|
2000 2000 200000 ***.*....*.*..*....**..*..*.*.... |
correct output |
---|
2665 |
user output |
---|
2665 |
Test 15
Group: 3
Verdict: ACCEPTED
input |
---|
2000 2000 80000 **.**...*.***.**....**.*....*.... |
correct output |
---|
5587 |
user output |
---|
5587 |