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merge into: Siphalor:backup-finish
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Siphalor:master Siphalor:final Siphalor:SolveFuction_with_Jacobi_Gauss Siphalor:backup-finish
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pull from: Siphalor:SolveFuction_with_Jacobi_Gauss
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Siphalor:final Siphalor:SolveFuction_with_Jacobi_Gauss Siphalor:master Siphalor:backup-finish

3 Commits
backup-fin ... SolveFucti

Author SHA1 Message Date
Simon
20e98a1105 SolveFuction_gauss_jacobi_working 2020-03-10 19:51:15 +01:00
Simon
8bd26b9a9c jacobi and gauss solve function working 2020-03-10 19:43:16 +01:00
Siphalor
077a54af18 More basic structure for solve 2020-02-24 15:20:02 +01:00
1 changed files with 66 additions and 9 deletions
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67
main.c
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@@ -51,7 +51,7 @@ int main(int argc, char* argv[]) {
strncpy(filePath, argv[1], MAX_FILE_PATH_LENGTH); strncpy(filePath, argv[1], MAX_FILE_PATH_LENGTH);
} else { } else {
puts("Please enter the path of the file you'd like to open"); puts("Please enter the path of the file you'd like to open");
int result = scanf("%" STR(MAX_FILE_PATH_LENGTH) "[^\n]", filePath); int result = scanf("%s" STR(MAX_FILE_PATH_LENGTH) "[^\n]", filePath);
if(result == EOF || result == 0 || filePath[0] == 0) { if(result == EOF || result == 0 || filePath[0] == 0) {
return 0; return 0;
} }
@@ -255,6 +255,65 @@ void flushStdin(void) {
Vector* solve(Method method, Matrix* A, Vector* b, Vector* x, double e) { Vector* solve(Method method, Matrix* A, Vector* b, Vector* x, double e) {
Vector* vectors = malloc(sizeof(Vector) * (MAX_ITERATION_STEPS + 1)); Vector* vectors = malloc(sizeof(Vector) * (MAX_ITERATION_STEPS + 1));
initVector(&vectors[0], b->n);
memcpy(vectors[0].data, x->data, b->n * sizeof(double));
int vectorCount = 1;
double temp;
double delta = 0.0;
if (method == 0){
do {
delta= 0.0;
initVector(&vectors[vectorCount],b->n);
for(int i=0; i<b->n; i++){
temp=0.0;
for(int j=0; j<b->n; j++){
if(j!=i){
temp= temp+A->data[i][j]*vectors[vectorCount-1].data[j];
}
}
vectors[vectorCount].data[i]=(b->data[i]-temp)/A->data[i][i];
delta=fmax(fabs(vectors[vectorCount].data[i]-vectors[vectorCount-1].data[i]),delta);
}
printVector(&vectors[vectorCount]);
vectorCount++;
} while (delta > e && vectorCount < MAX_ITERATION_STEPS);
}
if (method ==1){
do{
delta = 0.0;
if (vectorCount==1){
initVector(&vectors[vectorCount], b->n);
memcpy(vectors[vectorCount].data, x->data, b->n * sizeof(double));}
else {
initVector(&vectors[vectorCount], b->n);
memcpy(vectors[vectorCount].data, vectors[vectorCount-1].data, b->n * sizeof(double));}
for (int i = 0; i<b->n; i++){
temp=0.0;
for (int j=0; j<b->n; j++){
if (j!=i){
temp = temp + A->data[i][j]*vectors[vectorCount].data[j];
}
}
vectors[vectorCount].data[i] = (b->data[i]-temp)/A->data[i][i];
delta=fmax(fabs(vectors[vectorCount].data[i]-vectors[vectorCount-1].data[i]),delta);
}
printVector(&vectors[vectorCount]);
vectorCount++;
}while(delta > e && vectorCount < MAX_ITERATION_STEPS);
}
// MAX_ITERATION_STEPS enthält die maximal zulässige Anzahl an Iterationsschritten (100) // MAX_ITERATION_STEPS enthält die maximal zulässige Anzahl an Iterationsschritten (100)
// Die einzelnen Vektoren müssen noch mit initVector initialisiert werden // Die einzelnen Vektoren müssen noch mit initVector initialisiert werden
@@ -263,11 +322,9 @@ Vector* solve(Method method, Matrix* A, Vector* b, Vector* x, double e) {
// on success // on success
// Sei x die Anzahl der durchgeführten Iterationschritte. Dann setzt vectors[x+1].n = 0. Damit weiß das folgende Programm wie viele Schritte getätigt wurden. // Sei x die Anzahl der durchgeführten Iterationschritte. Dann setzt vectors[x+1].n = 0. Damit weiß das folgende Programm wie viele Schritte getätigt wurden.
return vectors; vectors[vectorCount].n=0;
// on failure return vectors;
free(vectors);
return NULL;
} }
inline Matrix* createMatrix(void) { inline Matrix* createMatrix(void) {