void NanoShellRun(void) { char cmd[COMMAND_MAX_LENGTH]; int i, ret; ns_printf(BOLD_BLUE("\tNaSH ---A Nano Shell program.\n")); ns_printf(UNDER_YELLOW("Copyright(c) Long.Luo. All Rights Reserved!\n\n")); while (1) { ns_printf(BOLD_GREEN("NanoShell") "> "); ns_gets(cmd, COMMAND_MAX_LENGTH); for (i = 0; cmd[i] != 0 && i < COMMAND_MAX_LENGTH; i++) { if (cmd[i] == '\n' || cmd[i] == '\r') { cmd[i] = '\0'; break; } } ret = Parse(cmd); if (ret < 0) { ns_printf(BOLD_YELLOW("Command not found: %s\n"), cmd); } else if (ret > 0) { ns_printf(BOLD_RED("Error executing command: %s\n"), cmd); } } }
static int default_help (void) { int i; t_printf ("\n" BOLD_GREEN("TinyShell available commands:") "\n"); for (i = 0; commands[i].command_name != 0; i++) { t_printf(BOLD_YELLOW("%s") " - " BOLD_CYAN("%s\n"), commands[i].command_name, (commands[i].description==0)? "No desc. available" : commands[i].description); } t_printf ("\r\n"); return 0; }
static int default_help (void) { int i; USART_fputs ("\r\n" BOLD_GREEN("TinyShell available commands:") "\r\n", DBGU_USART); for (i = 0; commands[i].command_name != 0; i++) { USART_fprintf(DBGU_USART, BOLD_YELLOW("%s") " - " BOLD_CYAN("%s\r\n"), commands[i].command_name, (commands[i].description==0)? "No desc. available" : commands[i].description); } USART_fputs ("\r\n",DBGU_USART); return 0; }
int help(void) { int i = 0; // Print some header text. ns_printf("\n" BOLD_GREEN("NanoShell available commands:") "\n"); ns_printf("------------------\n"); for (i = 0; commands[i].command_name != 0; i++) { // Print the command name and the brief description. ns_printf(BOLD_YELLOW("%s") " - " BOLD_CYAN("%s\n"), commands[i].command_name, (commands[i].pcHelp==0)? "No Help. available" : commands[i].pcHelp); } ns_printf ("\r\n"); return 0; }
void TinyShellRun (void) { char cmd[COMMAND_MAX_LENGTH]; int i, ret; while (1) { t_printf (BOLD_GREEN("TinyShell") "> "); t_gets (cmd, COMMAND_MAX_LENGTH); for (i = 0; cmd[i] != 0 && i < COMMAND_MAX_LENGTH; i++) if (cmd[i] == '\n' || cmd[i] == '\r') { cmd[i] = '\0'; break; } ret = parse (cmd); if (ret < 0) t_printf (BOLD_YELLOW("Command not found: %s\n"), cmd); else if (ret > 0) t_printf (BOLD_RED("Error executing command: %s\n"), cmd); } }
void TinyShellRun (void *pvParameters) { char cmd[COMMAND_MAX_LENGTH]; int i, ret; while (1) { USART_fputs (BOLD_GREEN("TinyShell") "> ", DBGU_USART); USART_fgets (cmd, COMMAND_MAX_LENGTH, DBGU_USART); for (i = 0; cmd[i] != 0 && i < COMMAND_MAX_LENGTH; i++) if (cmd[i] == '\n' || cmd[i] == '\r') { cmd[i] = '\0'; break; } ret = parse (cmd); if (ret < 0) USART_fprintf (DBGU_USART, BOLD_YELLOW("%s: %s\r\n"), "Command not found", cmd); else if (ret > 0) USART_fprintf (DBGU_USART, BOLD_RED("%s: %s\r\n"), "Error executing command", cmd); } }
int pso_enable_verbosity (void) { _pso_be_verbose = 1; USART_fprintf (DBGU_USART, "%s\r\n", "PSO verbosity " BOLD_GREEN("ON")); return 0; }