Algorithms/Find approximate maximum
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Method 1
[edit | edit source]Code Java
[edit | edit source] public int findApproimateMax(int[] i_aryTb) {
final int factorA = 100;
int o_intMax = i_aryTb[0];
int p_countMax = 1;
for (int p_intI = 1; p_intI < i_aryTb.length; p_intI++) {
if ( i_aryTb[p_intI] > o_intMax ) {
o_intMax = i_aryTb[p_intI];
p_countMax = 0;
} else {
p_countMax = p_countMax + 1;
if ( p_countMax >= factorA )
return o_intMax;
} // end if
} // end loop
return o_intMax;
} //end method
Algorithm
[edit | edit source]Method : findApproimateMax(i_aryTb)
define a constant call factorA and assign 100 define o_intMax is integer and assign i_aryTb[0]; define p_countMax is integer and assign 1 for loop = 1 to (i_aryTb.length - 1) do, index if ( i_aryTb[index] > o_intMax ) then o_intMax := i_aryTb[index]; p_countMax := 0; else p_countMax = p_countMax + 1; if ( p_countMax bigger or equal factorA ) then return o_intMax and terminate the method; end if end if end loop return o_intMax;
Method 2
[edit | edit source]Code java
[edit | edit source] public int findMax(int[] i_aryTB,int numberOfSecond) {
if ( numberOfSecond <= 0 ) {
numberOfSecond = -1;
} // end if
final int factorA = 100;
long p_logStart = System.currentTimeMillis;
long p_logFinish = p_logStart + (numberOfSecond * 1000);
int o_intMax = i_aryTb[0];
for ( int p_intI= 1; p_intI < i_aryTb.length; p_intI++) {
if ( i_aryTb[p_intI] > o_intMax ) {
o_intMax = i_aryTb[intI];
} // end if
if ( p_intI % factorA == 0 ) {
if ( p_logFinish <= System.currentTimeMillis && numberOfSecond != -1) {
return o_intMax;
} // end if
} // end if
} // end loop
o_intMax;
} // end method
Algorithm
[edit | edit source]Method : findMax(i_aryTB, numberOfSecond)
if numberOfSecond <= 0 then numberOfSecond := -1; end if define a constant factorA := 100; define p_logStart become := current_time; define p_logFinish := p_logStart + ( numberOfSecond ); define o_intMax := i_aryTb[0]; looping from 1 to (aryTb.length - 1), p_intI begin if ( aryTb[p_intI] > o_intMax ) then o_intMax := aryTb[p_intI]; end if; if ( the remainder of p_intI / factorA is zero ) then begin if ( p_logFinish <= current_time and numberofSecond not equal -1 ) then return o_intMax; terminate the method; end if end if end looping return o_intMax;
Method 3
[edit | edit source]Code java
[edit | edit source] public int findApproximateMax(int[] i_intaryTb,final int i_oneStepLength) {
int o_max = i_intaryTb[0];
for (int intI = 0; intI < i_intaryTb; intI += i_oneStepLength)
if ( i_intaryTb[intI] > o_max )
o_max = i_intaryTb[intI];
return o_max;
} // end method
Algorithm
[edit | edit source]Method : findApproximateMax(i_intaryTb,i_one_stepLength)
define o_max and assign i_intaryTb[0]; looping from 0 to i_intaryTb.length -1 ,index += i_one_stepLength if ( index >= i_intaryTb.length ) then break the looping; if ( i_intaryTb[index] > o_max ) then o_max = i_intaryTb[index]; end if end looping return o_max;
Method 4
[edit | edit source]Code java
[edit | edit source]import java.util.Random();
//Assume noOfRandom < 1_intaryTb.length;
public int findApproximateMax(int[] i_intaryTb,int noOfRanomd) {
int[] p_intaryRes = generateTheRadnomIndex(noOfRandom);
int o_intMax = i_intaryTb[p_intaryRes[0]];
for ( int intJ = 1; intJ < p_intaryRes.length; intJ++) {
int p_intK = p_intaryRes[intJ];
if ( p_intK >= 0 && p_intK < i_intaryTb.length ) {
if ( i_intaryTb[p_intK] > o_intMax) {
o_intMax = p_intaryRes[p_intK];
} // end if
} // end if
} // end loop
return o_intMax;
} // end method
private int[] generateTheRandomIndex(int nRandom) {
int[] o_intaryRes = new int[nRandom];
for (int i = 0; i < nRandom; i++)
o_intaryRes[i] = -1;
for ( int j = 0; j < nRandom; j++) {
int p_intK =findRandomIndex(nRandom);
while ( haveIndex(o_intaryRes,p_intK) ) {
p_intK =findRandomIndex(nRandom);
} // end while loop
o_intaryRes[j] = p_intK;
} // end loop
return o_intaryRes;
} // end method
private boolean haveIndex(int[] i_aryRes,int index) {
for (int i = 0; i < i_aryRes.length; i++)
if ( i_aryRes[i] == index)
return true;
return false;
} // end method
static Random gen = new Random();
private int findRandomIndex(int n) {
return gen.nextInt(n);
} // end method