struct sr_scpi_dev_inst *scpi = sdi->conn;
struct dev_context *devc = sdi->priv;
- /* No need to send command if we're not changing the range. */
- if (devc->spec_digits == digits)
+ /* No need to send command if we're not changing the resolution. */
+ if (devc->digits == digits)
return SR_OK;
- /* digits are based on devc->spec_digits, so we have to substract 1 */
+ /* digits are the total number of digits, so we have to substract 1 */
ret = sr_scpi_send(scpi, "N%i", digits-1);
if (ret != SR_OK)
return ret;
{
if ((range_byte & SB1_RANGE_BLOCK) == RANGE_VDC_30MV) {
devc->range_exp = -2;
- devc->enc_digits = devc->spec_digits - 2;
+ devc->sr_digits = devc->digits + 1;
} else if ((range_byte & SB1_RANGE_BLOCK) == RANGE_VDC_300MV) {
devc->range_exp = -1;
- devc->enc_digits = devc->spec_digits - 3;
+ devc->sr_digits = devc->digits;
} else if ((range_byte & SB1_RANGE_BLOCK) == RANGE_VDC_3V) {
devc->range_exp = 0;
- devc->enc_digits = devc->spec_digits - 1;
+ devc->sr_digits = devc->digits - 1;
} else if ((range_byte & SB1_RANGE_BLOCK) == RANGE_VDC_30V) {
devc->range_exp = 1;
- devc->enc_digits = devc->spec_digits - 2;
+ devc->sr_digits = devc->digits - 2;
} else if ((range_byte & SB1_RANGE_BLOCK) == RANGE_VDC_300V) {
devc->range_exp = 2;
- devc->enc_digits = devc->spec_digits - 3;
+ devc->sr_digits = devc->digits - 3;
} else
return SR_ERR_DATA;
{
if ((range_byte & SB1_RANGE_BLOCK) == RANGE_VAC_300MV) {
devc->range_exp = -1;
- devc->enc_digits = devc->spec_digits - 3;
+ devc->sr_digits = devc->digits;
} else if ((range_byte & SB1_RANGE_BLOCK) == RANGE_VAC_3V) {
devc->range_exp = 0;
- devc->enc_digits = devc->spec_digits - 1;
+ devc->sr_digits = devc->digits - 1;
} else if ((range_byte & SB1_RANGE_BLOCK) == RANGE_VAC_30V) {
devc->range_exp = 1;
- devc->enc_digits = devc->spec_digits - 2;
+ devc->sr_digits = devc->digits - 2;
} else if ((range_byte & SB1_RANGE_BLOCK) == RANGE_VAC_300V) {
devc->range_exp = 2;
- devc->enc_digits = devc->spec_digits - 3;
+ devc->sr_digits = devc->digits - 3;
} else
return SR_ERR_DATA;
{
if ((range_byte & SB1_RANGE_BLOCK) == RANGE_A_300MA) {
devc->range_exp = -1;
- devc->enc_digits = devc->spec_digits - 3;
+ devc->sr_digits = devc->digits;
} else if ((range_byte & SB1_RANGE_BLOCK) == RANGE_A_3A) {
devc->range_exp = 0;
- devc->enc_digits = devc->spec_digits - 1;
+ devc->sr_digits = devc->digits - 1;
} else
return SR_ERR_DATA;
{
if ((range_byte & SB1_RANGE_BLOCK) == RANGE_OHM_30R) {
devc->range_exp = 1;
- devc->enc_digits = devc->spec_digits - 2;
+ devc->sr_digits = devc->digits - 2;
} else if ((range_byte & SB1_RANGE_BLOCK) == RANGE_OHM_300R) {
devc->range_exp = 2;
- devc->enc_digits = devc->spec_digits - 3;
+ devc->sr_digits = devc->digits - 3;
} else if ((range_byte & SB1_RANGE_BLOCK) == RANGE_OHM_3KR) {
devc->range_exp = 3;
- devc->enc_digits = devc->spec_digits - 1;
+ devc->sr_digits = devc->digits - 4;
} else if ((range_byte & SB1_RANGE_BLOCK) == RANGE_OHM_30KR) {
devc->range_exp = 4;
- devc->enc_digits = devc->spec_digits - 2;
+ devc->sr_digits = devc->digits - 5;
} else if ((range_byte & SB1_RANGE_BLOCK) == RANGE_OHM_300KR) {
devc->range_exp = 5;
- devc->enc_digits = devc->spec_digits - 3;
+ devc->sr_digits = devc->digits - 6;
} else if ((range_byte & SB1_RANGE_BLOCK) == RANGE_OHM_3MR) {
devc->range_exp = 6;
- devc->enc_digits = devc->spec_digits - 1;
+ devc->sr_digits = devc->digits - 7;
} else if ((range_byte & SB1_RANGE_BLOCK) == RANGE_OHM_30MR) {
devc->range_exp = 7;
- devc->enc_digits = devc->spec_digits - 2;
+ devc->sr_digits = devc->digits - 8;
} else
return SR_ERR_DATA;
static int parse_function_byte(struct dev_context *devc, uint8_t function_byte)
{
- /* Digits / Resolution (spec_digits must be set before range parsing) */
+ /* Digits / Resolution (digits must be set before range parsing) */
if ((function_byte & SB1_DIGITS_BLOCK) == DIGITS_5_5)
- devc->spec_digits = 6;
+ devc->digits = 6;
else if ((function_byte & SB1_DIGITS_BLOCK) == DIGITS_4_5)
- devc->spec_digits = 5;
+ devc->digits = 5;
else if ((function_byte & SB1_DIGITS_BLOCK) == DIGITS_3_5)
- devc->spec_digits = 4;
+ devc->digits = 4;
else
return SR_ERR_DATA;
packet.type = SR_DF_ANALOG;
packet.payload = &analog;
- sr_analog_init(&analog, &encoding, &meaning, &spec, devc->enc_digits);
+ sr_analog_init(&analog, &encoding, &meaning, &spec, devc->sr_digits);
/* TODO: Implement NAN, depending on counts, range and value. */
f = devc->measurement;
encoding.unitsize = sizeof(float);
encoding.is_float = TRUE;
- encoding.digits = devc->enc_digits;
+ encoding.digits = devc->sr_digits;
meaning.mq = devc->measurement_mq;
meaning.mqflags = devc->acquisition_mq_flags;
meaning.unit = devc->measurement_unit;
meaning.channels = sdi->channels;
- spec.spec_digits = devc->spec_digits;
+ spec.spec_digits = devc->sr_digits;
sr_session_send(sdi, &packet);
}
projects / libsigrok.git / blobdiff