organism #3
@ -118,7 +118,7 @@ void draw_bg() {
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void draw_attractant() {
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for(int x = 0; x<PANEL_WIDTH; x++) {
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for(int y = 0; y<PANEL_HEIGHT; y++){
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if (attractant[x][y] > 20) {
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if (attractant[x][y] > 0) {
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matrix->drawPixel(x, y, matrix->color565(
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int((255.0 / 255.0) * attractant[x][y]),
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int((80.0 / 255.0) * attractant[x][y]),
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@ -130,6 +130,108 @@ void draw_attractant() {
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}
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}
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void setupGaussianKernel(float* kernel, int width, float sigma) {
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float sum = 0.0;
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for(int i = 0; i < width; i++) {
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//kernel[width+i] = exp( -(i*i) / (2 * sigma * sigma)) / (PI * 2 * sigma * sigma);
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kernel[i] = exp(-0.5f * (i * i) / (sigma * sigma));
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sum += kernel[width];
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}
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for(int i; i < width; i++) {
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kernel[i] = sum/width;
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}
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Serial.printf("%f %f %f\n", kernel[0], kernel[1], kernel[2]);
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}
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#define GAUSS_WIDTH 5
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#define GAUSS_SIGMA 1.0
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#define DECAY_FACTOR 0.9
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void gaussian_blur() {
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float kernel[GAUSS_WIDTH];
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uint8_t first_pass[PANEL_WIDTH][PANEL_HEIGHT];
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memset(first_pass, (uint8_t) 0, sizeof first_pass);
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setupGaussianKernel(kernel, GAUSS_WIDTH, GAUSS_SIGMA);
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// horizontal pass
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for (int x = 0; x < PANEL_WIDTH; x++) {
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for(int y = 0; y < PANEL_HEIGHT; y++) {
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float sum = attractant[x][y] * kernel[0]; //0.0;
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int additions = 1;
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for (int x_offset = 1; x_offset < GAUSS_WIDTH; x_offset++) {
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if (is_in_bounds(x+x_offset, y)) {
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sum += attractant[x + x_offset][y] * kernel[x_offset];
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additions++;
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}
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if (is_in_bounds(x-x_offset, y)) {
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sum += attractant[x - x_offset][y] * kernel[x_offset];
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additions++;
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}
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}
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first_pass[x][y] = (int) round(sum/GAUSS_WIDTH * DECAY_FACTOR);
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}
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}
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// vertical pass
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for (int x = 0; x < PANEL_WIDTH; x++) {
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for(int y = 0; y < PANEL_HEIGHT; y++) {
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float sum = first_pass[x][y] * kernel[0]; //0.0;
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int additions = 1;
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for (int y_offset = 1; y_offset < GAUSS_WIDTH; y_offset++) {
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if (is_in_bounds(x, y + y_offset)) {
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sum += first_pass[x][y + y_offset] * kernel[y_offset];
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additions++;
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}
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if (is_in_bounds(x, y - y_offset)) {
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sum += first_pass[x][y - y_offset] * kernel[y_offset];
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additions++;
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}
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}
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attractant[x][y] = (int) round((sum/GAUSS_WIDTH) * DECAY_FACTOR);
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}
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}
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}
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#define BLUR_KERNEL_SIZE 3
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void box_blur() {
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uint8_t first_pass[PANEL_WIDTH][PANEL_HEIGHT];
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memset(first_pass, (uint8_t) 0, sizeof first_pass);
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// horizontal pass
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for (int x = 0; x < PANEL_WIDTH; x++) {
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for(int y = 0; y < PANEL_HEIGHT; y++) {
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int sum = attractant[x][y]; //0.0;
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int additions = 1;
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for (int x_offset = 1; x_offset < BLUR_KERNEL_SIZE; x_offset++) {
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if (is_in_bounds(x+x_offset, y)) {
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sum += attractant[x + x_offset][y];
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additions++;
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}
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if (is_in_bounds(x-x_offset, y)) {
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sum += attractant[x - x_offset][y];
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additions++;
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}
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}
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first_pass[x][y] = (int) round((sum/additions) * DECAY_FACTOR);
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}
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}
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// vertical pass
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for (int x = 0; x < PANEL_WIDTH; x++) {
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for(int y = 0; y < PANEL_HEIGHT; y++) {
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float sum = first_pass[x][y]; //0.0;
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int additions = 1;
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for (int y_offset = 1; y_offset < BLUR_KERNEL_SIZE; y_offset++) {
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if (is_in_bounds(x, y + y_offset)) {
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sum += first_pass[x][y + y_offset];
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additions++;
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}
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if (is_in_bounds(x, y - y_offset)) {
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sum += first_pass[x][y - y_offset];
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additions++;
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}
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}
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attractant[x][y] = (int) round((sum/additions) * DECAY_FACTOR);
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}
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}
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}
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void loop() {
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matrix ->flipDMABuffer();
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//matrix->clearScreen();
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@ -176,9 +278,12 @@ void loop() {
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agents[a].heading += AGENT_ANGLE * (PI * 2);
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}
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}
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delay(10);
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iterations++;
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if (iterations % 64 == 0) {
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//gaussian_blur();
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box_blur();
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}
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if (iterations >= NUM_ITERATIONS) {
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init_attractant();
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init_agents();
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