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Para usar os scripts, o arquivo deve ser salvo como "fput.c". | |||
<source lang='c'> | <source lang='c'> | ||
// Libraries | // Libraries | ||
Linha 24: | Linha 26: | ||
// Constants | // Constants | ||
const double k = 0 | const double k = 1.0; | ||
const double m = 1. | const double m = 1.0; | ||
const double alpha = | const double alpha = 0.25; | ||
const double dt | const double dt = 0.01; | ||
const double tmax | const double tmax = 11000.0; | ||
const int step = 10; // Number of iterations needed to save one "frame" | |||
const double start_reg = 9000.0; // Time before start saving the data | |||
const double length = 20.0; | const double length = 20.0; | ||
Linha 42: | Linha 46: | ||
int i; | int i; | ||
int count = 0; | |||
double t = 0.0; | double t = 0.0; | ||
double *pos, *vel, *acc; | double *pos, *vel, *acc; | ||
Linha 80: | Linha 85: | ||
// Save to file | // Save to file | ||
for (i=0; i<=N; i++) fprintf(file, "%f %f\n", length/N*i, pos[i]); | if (t >= start_reg && count >= step){ | ||
for (i=0; i<=N; i++) fprintf(file, "%f %f\n", length/N*i, pos[i]); | |||
fprintf(file, "\n\n"); | |||
count = 0; | |||
} | |||
else count++; | |||
// Update the current time | // Update the current time | ||
t += dt; | t += dt; | ||
} | } | ||
Edição atual tal como às 19h08min de 3 de maio de 2022
Para usar os scripts, o arquivo deve ser salvo como "fput.c".
// Libraries
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#include <assert.h>
// Defines
#define PI 3.14159265358979323846
// Prototypes
double *zero_array(int);
double *initial_condition(double, int);
double acceleration(double *, double, double, double);
double velocity(double, double, double, double);
double position(double, double, double, double);
// Constants
const double k = 1.0;
const double m = 1.0;
const double alpha = 0.25;
const double dt = 0.01;
const double tmax = 11000.0;
const int step = 10; // Number of iterations needed to save one "frame"
const double start_reg = 9000.0; // Time before start saving the data
const double length = 20.0;
const int N = 32;
// Main
int main(){
// Variables
int i;
int count = 0;
double t = 0.0;
double *pos, *vel, *acc;
double acc_new = 0.0;
// Output
FILE *file;
// char output[50];
char filename[] = "../data/output.dat";
// Generate inicial conditions for
pos = initial_condition(length, N); // position
vel = zero_array(N); // velocity
acc = zero_array(N); // acceleration
// Output file
// sprintf(output, filename);
// file = fopen(output, "w");
file = fopen(filename, "w");
// Time loop
while (t < tmax){
// Velocity verlet
for (i=1; i<N; i++){
pos[i] = position(pos[i], vel[i], acc[i], dt);
}
for (i=1; i<N; i++){
acc_new = acceleration((pos+i), k, m, alpha);
vel[i] = velocity(vel[i], acc[i], acc_new, dt);
acc[i] = acc_new;
}
// Save to file
if (t >= start_reg && count >= step){
for (i=0; i<=N; i++) fprintf(file, "%f %f\n", length/N*i, pos[i]);
fprintf(file, "\n\n");
count = 0;
}
else count++;
// Update the current time
t += dt;
}
// Close the output file
fclose(file);
// Free the pointers
free(pos);
free(vel);
free(acc);
return 0;
}
// Functions
// Generate an array of zeros (double) with size N
double *zero_array(int N){
assert(N>0);
int i;
double *pointer;
// Calloc initializes every element with 0.0
pointer = (double *)calloc(N, sizeof(double));
if (pointer != NULL){
return(pointer);
}
else {
fprintf(stderr,"Error in routine zero_array\n");
exit(8);
}
}
// Generate an array with the initial condition determined by the FPUT original problem, N elements with x values ranged from 0 to length.
double *initial_condition(double length, int N){
assert(N>0);
int i;
double *pointer;
double step = length/N;
pointer = (double *)calloc(N, sizeof(double));
if (pointer != NULL){
for (i=0; i<=N; ++i) *(pointer+i) = sin(PI*(step*i)/length);
return(pointer);
}
else {
fprintf(stderr,"Error in routine initial_condition\n");
exit(8);
}
}
// Velocity-Verlet method
// Updates the acceleration
double acceleration(double *pos, double k, double m, double alpha){
return k/m * (pos[1] + pos[-1] - 2*pos[0]) * (1.0 + alpha * (pos[1] - pos[-1]));
}
// Updates the velocity
double velocity(double vel_old, double acc, double acc_new, double dt){
return vel_old + 0.5*(acc+acc_new)*dt;
}
// Updates the position
double position(double pos_old, double vel, double acc, double dt){
return pos_old + vel*dt + 0.5*acc*dt*dt;
}