#include #include #include #include "source/scpi_parser.h" void cmd_APPL_SIN_cb(const SCPI_argval_t *args) { printf("cb APPLy:SINe\n"); } void cmd_APPL_TRI_cb(const SCPI_argval_t *args) { printf("cb APPLy:TRIangle\n"); } void cmd_FREQ_cb(const SCPI_argval_t *args) { printf("cb FREQuency %d\n", args[0].INT); } void cmd_DISP_TEXT_cb(const SCPI_argval_t *args) { printf("cb DISPlay:TEXT %s, %d\n", args[0].STRING, args[1].BOOL); } void cmd_DATA_BLOB_cb(const SCPI_argval_t *args) { printf("cb DATA:BLOB %f, <%d>\n", args[0].FLOAT, args[1].BLOB_LEN); } void cmd_DATA_BLOB_data(const uint8_t *bytes) { printf("blob item: %s\n", bytes); } void cmd_STQENq_cb(const SCPI_argval_t *args) { printf("STATUS:QUEUE:ENABLE:NEXT?\n"); } void cmd_STQEq_cb(const SCPI_argval_t *args) { printf("STATUS:QUEUE:ENABLE?\n"); } void cmd_STQE_cb(const SCPI_argval_t *args) { printf("STATUS:QUEUE:ENABLE %d\n", args[0].BOOL); } const SCPI_command_t scpi_commands[] = { { .levels = {"APPLy", "SINe"}, .params = {SCPI_DT_INT, SCPI_DT_FLOAT, SCPI_DT_FLOAT}, .callback = cmd_APPL_SIN_cb }, { .levels = {"APPLy", "TRIangle"}, .params = {SCPI_DT_BOOL, SCPI_DT_FLOAT, SCPI_DT_FLOAT}, .callback = cmd_APPL_TRI_cb }, { .levels = {"FREQuency"}, .params = {SCPI_DT_INT}, .callback = cmd_FREQ_cb }, { .levels = {"DISPlay", "TEXT"}, .params = {SCPI_DT_STRING, SCPI_DT_BOOL}, .callback = cmd_DISP_TEXT_cb }, { .levels = {"DATA", "BLOB"}, .params = {SCPI_DT_FLOAT, SCPI_DT_BLOB}, .callback = cmd_DATA_BLOB_cb, .blob_chunk = 4, .blob_callback = cmd_DATA_BLOB_data }, { .levels = {"STATus", "QUEue", "ENABle", "NEXT?"}, .callback = cmd_STQENq_cb }, { .levels = {"STATus", "QUEue", "ENABle?"}, .callback = cmd_STQEq_cb }, { .levels = {"STATus", "QUEue", "ENABle"}, .params = {SCPI_DT_BOOL}, .callback = cmd_STQE_cb }, {0} // end marker }; void scpi_send_byte_impl(uint8_t b) { putchar(b); } const char *scpi_device_identifier(void) { return "FEL CVUT,DDS1,0,0.1"; } int main() { char buf[256]; // SCPI_REG_QUEST.CURR = 1; // SCPI_REG_QUEST_EN.u16 = 0xFFFF; // printf("0x%x\n", SCPI_REG_QUEST.u16); // scpi_status_update(); // return 0; // const char *inp = "*IDN?\n"; // const char *inp = "FREQ 50\n"; // const char *inp = "DISP:TEXT 'ban\\\\ana', OFF\nDISP:TEXT \"dblquot!\", 1\r\nFREQ 50\r\n"; //const char *inp = "FOO\nDATA:BLOB 13.456, #216AbcdEfghIjklMnop\nFREQ 50\r\nAPPLY:MOO\n"; //const char *inp = "STAT:QUE:ENAB?;ENAB \t 1;ENAB?;:*IDN?\n"; const char *inp = "*idn?;*sre?;*cls;"; for (int i = 0; i < strlen(inp); i++) { scpi_handle_byte(inp[i]); } //scpi_error_string(buf, E_EXE_DATA_QUESTIONABLE, "The data smells fishy"); //scpi_read_error(buf), printf("%s\n", buf); // scpi_add_error(E_CMD_BLOCK_DATA_ERROR, NULL); // scpi_read_error(buf), printf("%s\n", buf); // scpi_read_error(buf), printf("%s\n", buf); // scpi_add_error(E_CMD_DATA_TYPE_ERROR, "LOL OOPS"); // scpi_add_error(E_CMD_CHARACTER_DATA_TOO_LONG, "Too long data very overflow such fail"); // scpi_add_error(E_CMD_MACRO_PARAMETER_ERROR, "maaaacrooooooooooooooooooooooooooooooooooooooooooooooooooooooooooo"); // scpi_add_error(E_CMD_EXPONENT_TOO_LARGE, NULL); // scpi_add_error(E_DEV_CALIBRATION_FAILED, NULL); // scpi_add_error(E_DEV_MEMORY_ERROR, NULL); // scpi_read_error(buf), printf("%s\n", buf); // scpi_read_error(buf), printf("%s\n", buf); // scpi_read_error(buf), printf("%s\n", buf); // scpi_read_error(buf), printf("%s\n", buf); // scpi_add_error(E_DEV_MEMORY_ERROR, "lel"); // scpi_read_error(buf), printf("%s\n", buf); // scpi_read_error(buf), printf("%s\n", buf); // scpi_read_error(buf), printf("%s\n", buf); // scpi_read_error(buf), printf("%s\n", buf); }