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https://github.com/mintycube/dwmblocks.git
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Add .clang-format
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.clang-format
Normal file
2
.clang-format
Normal file
@ -0,0 +1,2 @@
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BasedOnStyle: Google
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IndentWidth: 4
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371
main.c
371
main.c
@ -12,12 +12,12 @@
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#define LEN(arr) (sizeof(arr) / sizeof(arr[0]))
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#define MAX(a, b) (a > b ? a : b)
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#define BLOCK(cmd, interval, signal) \
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{ "echo \"$(" cmd ")\"", interval, signal }
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{ "echo \"$(" cmd ")\"", interval, signal }
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typedef const struct {
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const char* command;
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const unsigned int interval;
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const unsigned int signal;
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const char *command;
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const unsigned int interval;
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const unsigned int signal;
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} Block;
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#include "config.h"
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@ -35,7 +35,7 @@ typedef const struct {
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#define LEADING_DELIMITER 0
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#endif
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static Display* dpy;
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static Display *dpy;
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static int screen;
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static Window root;
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static unsigned short statusContinue = 1;
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@ -48,265 +48,256 @@ static int execLock = 0;
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// Longest UTF-8 character is 4 bytes long
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static char outputs[LEN(blocks)][CMDLENGTH * 4 + 1 + CLICKABLE_BLOCKS];
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static char statusBar[2][LEN(blocks) * (LEN(outputs[0]) - 1) + (LEN(blocks) - 1 + LEADING_DELIMITER) * (LEN(DELIMITER) - 1) + 1];
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static char
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statusBar[2]
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[LEN(blocks) * (LEN(outputs[0]) - 1) +
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(LEN(blocks) - 1 + LEADING_DELIMITER) * (LEN(DELIMITER) - 1) + 1];
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void (*writeStatus)();
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int gcd(int a, int b) {
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int temp;
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while (b > 0) {
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temp = a % b;
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a = b;
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b = temp;
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}
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return a;
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int temp;
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while (b > 0) {
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temp = a % b;
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a = b;
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b = temp;
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}
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return a;
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}
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void closePipe(int* pipe) {
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close(pipe[0]);
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close(pipe[1]);
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void closePipe(int *pipe) {
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close(pipe[0]);
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close(pipe[1]);
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}
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void execBlock(int i, const char* button) {
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// Ensure only one child process exists per block at an instance
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if (execLock & 1 << i)
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return;
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// Lock execution of block until current instance finishes execution
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execLock |= 1 << i;
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void execBlock(int i, const char *button) {
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// Ensure only one child process exists per block at an instance
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if (execLock & 1 << i) return;
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// Lock execution of block until current instance finishes execution
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execLock |= 1 << i;
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if (fork() == 0) {
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close(pipes[i][0]);
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dup2(pipes[i][1], STDOUT_FILENO);
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close(pipes[i][1]);
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if (fork() == 0) {
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close(pipes[i][0]);
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dup2(pipes[i][1], STDOUT_FILENO);
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close(pipes[i][1]);
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if (button)
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setenv("BLOCK_BUTTON", button, 1);
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execl("/bin/sh", "sh", "-c", blocks[i].command, (char*)NULL);
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exit(EXIT_FAILURE);
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}
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if (button) setenv("BLOCK_BUTTON", button, 1);
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execl("/bin/sh", "sh", "-c", blocks[i].command, (char *)NULL);
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exit(EXIT_FAILURE);
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}
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}
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void execBlocks(unsigned int time) {
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for (int i = 0; i < LEN(blocks); i++)
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if (time == 0 || (blocks[i].interval != 0 && time % blocks[i].interval == 0))
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execBlock(i, NULL);
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for (int i = 0; i < LEN(blocks); i++)
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if (time == 0 ||
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(blocks[i].interval != 0 && time % blocks[i].interval == 0))
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execBlock(i, NULL);
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}
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int getStatus(char* new, char* old) {
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strcpy(old, new);
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new[0] = '\0';
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int getStatus(char *new, char *old) {
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strcpy(old, new);
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new[0] = '\0';
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for (int i = 0; i < LEN(blocks); i++) {
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for (int i = 0; i < LEN(blocks); i++) {
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#if LEADING_DELIMITER
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if (strlen(outputs[i]))
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if (strlen(outputs[i]))
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#else
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if (strlen(new) && strlen(outputs[i]))
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if (strlen(new) && strlen(outputs[i]))
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#endif
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strcat(new, DELIMITER);
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strcat(new, outputs[i]);
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}
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return strcmp(new, old);
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strcat(new, DELIMITER);
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strcat(new, outputs[i]);
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}
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return strcmp(new, old);
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}
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void updateBlock(int i) {
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char* output = outputs[i];
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char buffer[LEN(outputs[0]) - CLICKABLE_BLOCKS];
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int bytesRead = read(pipes[i][0], buffer, LEN(buffer));
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char *output = outputs[i];
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char buffer[LEN(outputs[0]) - CLICKABLE_BLOCKS];
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int bytesRead = read(pipes[i][0], buffer, LEN(buffer));
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// Trim UTF-8 string to desired length
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int count = 0, j = 0;
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while (buffer[j] != '\n' && count < CMDLENGTH) {
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count++;
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// Trim UTF-8 string to desired length
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int count = 0, j = 0;
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while (buffer[j] != '\n' && count < CMDLENGTH) {
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count++;
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// Skip continuation bytes, if any
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char ch = buffer[j];
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int skip = 1;
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while ((ch & 0xc0) > 0x80)
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ch <<= 1, skip++;
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j += skip;
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}
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// Skip continuation bytes, if any
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char ch = buffer[j];
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int skip = 1;
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while ((ch & 0xc0) > 0x80) ch <<= 1, skip++;
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j += skip;
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}
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// Cache last character and replace it with a trailing space
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char ch = buffer[j];
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buffer[j] = ' ';
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// Cache last character and replace it with a trailing space
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char ch = buffer[j];
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buffer[j] = ' ';
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// Trim trailing spaces
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while (j >= 0 && buffer[j] == ' ')
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j--;
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buffer[j + 1] = 0;
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// Trim trailing spaces
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while (j >= 0 && buffer[j] == ' ') j--;
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buffer[j + 1] = 0;
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// Clear the pipe
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if (bytesRead == LEN(buffer)) {
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while (ch != '\n' && read(pipes[i][0], &ch, 1) == 1)
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;
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}
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// Clear the pipe
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if (bytesRead == LEN(buffer)) {
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while (ch != '\n' && read(pipes[i][0], &ch, 1) == 1)
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;
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}
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#if CLICKABLE_BLOCKS
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if (bytesRead > 1 && blocks[i].signal > 0) {
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output[0] = blocks[i].signal;
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output++;
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}
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if (bytesRead > 1 && blocks[i].signal > 0) {
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output[0] = blocks[i].signal;
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output++;
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}
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#endif
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strcpy(output, buffer);
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strcpy(output, buffer);
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// Remove execution lock for the current block
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execLock &= ~(1 << i);
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// Remove execution lock for the current block
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execLock &= ~(1 << i);
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}
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void debug() {
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// Only write out if text has changed
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if (!getStatus(statusBar[0], statusBar[1]))
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return;
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// Only write out if text has changed
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if (!getStatus(statusBar[0], statusBar[1])) return;
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write(STDOUT_FILENO, statusBar[0], strlen(statusBar[0]));
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write(STDOUT_FILENO, "\n", 1);
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write(STDOUT_FILENO, statusBar[0], strlen(statusBar[0]));
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write(STDOUT_FILENO, "\n", 1);
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}
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int setupX() {
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dpy = XOpenDisplay(NULL);
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if (!dpy)
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return 1;
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dpy = XOpenDisplay(NULL);
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if (!dpy) return 1;
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screen = DefaultScreen(dpy);
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root = RootWindow(dpy, screen);
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return 0;
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screen = DefaultScreen(dpy);
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root = RootWindow(dpy, screen);
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return 0;
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}
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void setRoot() {
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// Only set root if text has changed
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if (!getStatus(statusBar[0], statusBar[1]))
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return;
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// Only set root if text has changed
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if (!getStatus(statusBar[0], statusBar[1])) return;
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XStoreName(dpy, root, statusBar[0]);
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XFlush(dpy);
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XStoreName(dpy, root, statusBar[0]);
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XFlush(dpy);
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}
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void signalHandler() {
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struct signalfd_siginfo info;
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read(signalFD, &info, sizeof(info));
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unsigned int signal = info.ssi_signo;
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struct signalfd_siginfo info;
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read(signalFD, &info, sizeof(info));
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unsigned int signal = info.ssi_signo;
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switch (signal) {
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case SIGALRM:
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// Schedule the next timer event and execute blocks
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alarm(timerTick);
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execBlocks(timer);
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switch (signal) {
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case SIGALRM:
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// Schedule the next timer event and execute blocks
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alarm(timerTick);
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execBlocks(timer);
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// Wrap `timer` to the interval [1, `maxInterval`]
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timer = (timer + timerTick - 1) % maxInterval + 1;
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return;
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case SIGUSR1:
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// Update all blocks on receiving SIGUSR1
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execBlocks(0);
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return;
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}
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// Wrap `timer` to the interval [1, `maxInterval`]
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timer = (timer + timerTick - 1) % maxInterval + 1;
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return;
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case SIGUSR1:
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// Update all blocks on receiving SIGUSR1
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execBlocks(0);
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return;
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}
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for (int j = 0; j < LEN(blocks); j++) {
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if (blocks[j].signal == signal - SIGRTMIN) {
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char button[] = {'0' + info.ssi_int & 0xff, 0};
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execBlock(j, button);
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break;
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}
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}
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for (int j = 0; j < LEN(blocks); j++) {
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if (blocks[j].signal == signal - SIGRTMIN) {
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char button[] = {'0' + info.ssi_int & 0xff, 0};
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execBlock(j, button);
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break;
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}
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}
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}
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void termHandler() {
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statusContinue = 0;
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}
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void termHandler() { statusContinue = 0; }
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void setupSignals() {
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sigset_t handledSignals;
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sigemptyset(&handledSignals);
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sigaddset(&handledSignals, SIGUSR1);
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sigaddset(&handledSignals, SIGALRM);
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sigset_t handledSignals;
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sigemptyset(&handledSignals);
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sigaddset(&handledSignals, SIGUSR1);
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sigaddset(&handledSignals, SIGALRM);
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// Append all block signals to `handledSignals`
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for (int i = 0; i < LEN(blocks); i++)
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if (blocks[i].signal > 0)
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sigaddset(&handledSignals, SIGRTMIN + blocks[i].signal);
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// Append all block signals to `handledSignals`
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for (int i = 0; i < LEN(blocks); i++)
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if (blocks[i].signal > 0)
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sigaddset(&handledSignals, SIGRTMIN + blocks[i].signal);
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// Create a signal file descriptor for epoll to watch
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signalFD = signalfd(-1, &handledSignals, 0);
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event.data.u32 = LEN(blocks);
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epoll_ctl(epollFD, EPOLL_CTL_ADD, signalFD, &event);
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// Create a signal file descriptor for epoll to watch
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signalFD = signalfd(-1, &handledSignals, 0);
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event.data.u32 = LEN(blocks);
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epoll_ctl(epollFD, EPOLL_CTL_ADD, signalFD, &event);
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// Block all realtime and handled signals
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for (int i = SIGRTMIN; i <= SIGRTMAX; i++)
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sigaddset(&handledSignals, i);
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sigprocmask(SIG_BLOCK, &handledSignals, NULL);
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// Block all realtime and handled signals
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for (int i = SIGRTMIN; i <= SIGRTMAX; i++) sigaddset(&handledSignals, i);
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sigprocmask(SIG_BLOCK, &handledSignals, NULL);
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// Handle termination signals
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signal(SIGINT, termHandler);
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signal(SIGTERM, termHandler);
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// Handle termination signals
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signal(SIGINT, termHandler);
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signal(SIGTERM, termHandler);
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// Avoid zombie subprocesses
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struct sigaction sa;
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sa.sa_handler = SIG_DFL;
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sigemptyset(&sa.sa_mask);
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sa.sa_flags = SA_NOCLDWAIT;
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sigaction(SIGCHLD, &sa, 0);
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// Avoid zombie subprocesses
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struct sigaction sa;
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sa.sa_handler = SIG_DFL;
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sigemptyset(&sa.sa_mask);
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sa.sa_flags = SA_NOCLDWAIT;
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sigaction(SIGCHLD, &sa, 0);
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}
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void statusLoop() {
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// Update all blocks initially
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raise(SIGALRM);
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// Update all blocks initially
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raise(SIGALRM);
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struct epoll_event events[LEN(blocks) + 1];
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while (statusContinue) {
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int eventCount = epoll_wait(epollFD, events, LEN(events), -1);
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for (int i = 0; i < eventCount; i++) {
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unsigned short id = events[i].data.u32;
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if (id < LEN(blocks))
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updateBlock(id);
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else
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signalHandler();
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}
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struct epoll_event events[LEN(blocks) + 1];
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while (statusContinue) {
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int eventCount = epoll_wait(epollFD, events, LEN(events), -1);
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for (int i = 0; i < eventCount; i++) {
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unsigned short id = events[i].data.u32;
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if (id < LEN(blocks))
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updateBlock(id);
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else
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signalHandler();
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}
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if (eventCount != -1)
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writeStatus();
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}
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if (eventCount != -1) writeStatus();
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}
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}
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void init() {
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epollFD = epoll_create(LEN(blocks));
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event.events = EPOLLIN;
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epollFD = epoll_create(LEN(blocks));
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event.events = EPOLLIN;
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for (int i = 0; i < LEN(blocks); i++) {
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// Append each block's pipe to `epollFD`
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pipe(pipes[i]);
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event.data.u32 = i;
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epoll_ctl(epollFD, EPOLL_CTL_ADD, pipes[i][0], &event);
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for (int i = 0; i < LEN(blocks); i++) {
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// Append each block's pipe to `epollFD`
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pipe(pipes[i]);
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event.data.u32 = i;
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epoll_ctl(epollFD, EPOLL_CTL_ADD, pipes[i][0], &event);
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// Calculate the max interval and tick size for the timer
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if (blocks[i].interval) {
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maxInterval = MAX(blocks[i].interval, maxInterval);
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timerTick = gcd(blocks[i].interval, timerTick);
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}
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}
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// Calculate the max interval and tick size for the timer
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if (blocks[i].interval) {
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maxInterval = MAX(blocks[i].interval, maxInterval);
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timerTick = gcd(blocks[i].interval, timerTick);
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}
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}
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setupSignals();
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setupSignals();
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}
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int main(const int argc, const char* argv[]) {
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if (setupX()) {
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fprintf(stderr, "dwmblocks: Failed to open display\n");
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return 1;
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}
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int main(const int argc, const char *argv[]) {
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if (setupX()) {
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fprintf(stderr, "dwmblocks: Failed to open display\n");
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return 1;
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}
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writeStatus = setRoot;
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for (int i = 0; i < argc; i++)
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if (!strcmp("-d", argv[i]))
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writeStatus = debug;
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writeStatus = setRoot;
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for (int i = 0; i < argc; i++)
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if (!strcmp("-d", argv[i])) writeStatus = debug;
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init();
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statusLoop();
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init();
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statusLoop();
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XCloseDisplay(dpy);
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close(epollFD);
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close(signalFD);
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for (int i = 0; i < LEN(pipes); i++)
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closePipe(pipes[i]);
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XCloseDisplay(dpy);
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close(epollFD);
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close(signalFD);
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for (int i = 0; i < LEN(pipes); i++) closePipe(pipes[i]);
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return 0;
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return 0;
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}
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