Some more duplicat code refactorized / reduced.

This commit is contained in:
klaute 2016-10-14 10:02:09 +02:00
rodič 03a0135f20
revize 075c570cae
1 změnil soubory, kde provedl 71 přidání a 94 odebrání

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@ -101,82 +101,64 @@ uint8_t cc_cmd_data_read_cnt = 0;
/*****************************************************************************/
uint32_t read32BitDataFromBuffer(uint8_t pos)
{
uint32_t tmp = (uint32_t)cc_read_data[pos ] << 24;
tmp += (uint32_t)cc_read_data[pos + 1] << 16;
tmp += (uint32_t)cc_read_data[pos + 2] << 8;
tmp += (uint32_t)cc_read_data[pos + 3];
return tmp;
}
uint16_t read16BitDataFromBuffer(uint8_t pos)
{
uint16_t tmp = (uint16_t)cc_read_data[pos ] << 8;
tmp += (uint16_t)cc_read_data[pos + 1];
return tmp;
}
/*****************************************************************************/
void cc_setStartFreq()
{
uint32_t tmp_start_freq = (uint32_t)cc_read_data[0] << 24;
tmp_start_freq += (uint32_t)cc_read_data[1] << 16;
tmp_start_freq += (uint32_t)cc_read_data[2] << 8;
tmp_start_freq += (uint32_t)cc_read_data[3];
if (tmp_start_freq < 1)
tmp_start_freq = 1;
if (tmp_start_freq > 150000000)
tmp_start_freq = 150000000;
uint32_t tmp_start_freq = read32BitDataFromBuffer(0);
start_freq = tmp_start_freq;
start_freq = keepFreqRange(tmp_start_freq);
char* tmp = " ";
sprintf(tmp, "%c%c%c%c%c", MSG_SOM1, MSG_SOM2,
MSG_TYPE_ANSWER_OK,
MSG_EOM1, MSG_EOM2);
Serial.write(tmp);
sendSOM();
Serial.write(MSG_TYPE_ANSWER_OK);
sendEOM();
}
void cc_setEndFreq()
{
uint32_t tmp_end_freq = (uint32_t)cc_read_data[0] << 24;
tmp_end_freq += (uint32_t)cc_read_data[1] << 16;
tmp_end_freq += (uint32_t)cc_read_data[2] << 8;
tmp_end_freq += (uint32_t)cc_read_data[3];
if (tmp_end_freq < 1)
tmp_end_freq = 1;
if (tmp_end_freq > 150000000)
tmp_end_freq = 150000000;
uint32_t tmp_end_freq = read32BitDataFromBuffer(0);
end_freq = tmp_end_freq;
end_freq = keepFreqRange(tmp_end_freq);
char* tmp = " ";
sprintf(tmp, "%c%c%c%c%c", MSG_SOM1, MSG_SOM2,
MSG_TYPE_ANSWER_OK,
MSG_EOM1, MSG_EOM2);
Serial.write(tmp);
sendSOM();
Serial.write(MSG_TYPE_ANSWER_OK);
sendEOM();
}
void cc_setFreqStep()
{
uint32_t tmp_step_freq = (uint32_t)cc_read_data[0] << 24;
tmp_step_freq += (uint32_t)cc_read_data[1] << 16;
tmp_step_freq += (uint32_t)cc_read_data[2] << 8;
tmp_step_freq += (uint32_t)cc_read_data[3];
if (tmp_step_freq < 1)
tmp_step_freq = 1;
if (tmp_step_freq > 150000000)
tmp_step_freq = 150000000;
uint32_t tmp_step_freq = read32BitDataFromBuffer(0);
step_freq = tmp_step_freq;
step_freq = keepFreqRange(tmp_step_freq);
char* tmp = " ";
sprintf(tmp, "%c%c%c%c%c", MSG_SOM1, MSG_SOM2,
MSG_TYPE_ANSWER_OK,
MSG_EOM1, MSG_EOM2);
Serial.write(tmp);
sendSOM();
Serial.write(MSG_TYPE_ANSWER_OK);
sendEOM();
}
void cc_setIntervall()
{
uint16_t tmp_intervall = (uint16_t)cc_read_data[0] << 8;
tmp_intervall += (uint16_t)cc_read_data[1];
if (tmp_intervall < 1)
tmp_intervall = 1;
if (tmp_intervall > 150000000)
tmp_intervall = 150000000;
intervall = read16BitDataFromBuffer(0);
intervall = tmp_intervall;
char* tmp = " ";
sprintf(tmp, "%c%c%c%c%c", MSG_SOM1, MSG_SOM2,
MSG_TYPE_ANSWER_OK,
MSG_EOM1, MSG_EOM2);
Serial.write(tmp);
sendSOM();
Serial.write(MSG_TYPE_ANSWER_OK);
sendEOM();
}
void cc_setDriveStrength()
@ -189,18 +171,13 @@ void cc_setDriveStrength()
{
drive_str = tmp_ds;
char* tmp = " ";
sprintf(tmp, "%c%c%c%c%c", MSG_SOM1, MSG_SOM2,
MSG_TYPE_ANSWER_OK,
MSG_EOM1, MSG_EOM2);
Serial.write(tmp);
sendSOM();
Serial.write(MSG_TYPE_ANSWER_OK);
sendEOM();
} else {
char* tmp = " ";
sprintf(tmp, "%c%c%c%c%c", MSG_SOM1, MSG_SOM2,
MSG_TYPE_ANSWER_NOK,
MSG_EOM1, MSG_EOM2);
Serial.write(tmp);
sendSOM();
Serial.write(MSG_TYPE_ANSWER_NOK);
sendEOM();
}
}
@ -267,8 +244,7 @@ void cc_startMeasurement()
// 4. send the current output frequency, the drive strength and the measured ADC values from A0 and A1 to the host
// MSG_TYPE_MEAS_FREQ_INFO
Serial.write(MSG_SOM1);
Serial.write(MSG_SOM2);
sendSOM();
Serial.write(MSG_TYPE_MEAS_FREQ_INFO);
Serial.write((uint8_t)((freq & 0xff000000) >> 24));
Serial.write((uint8_t)((freq & 0x00ff0000) >> 16));
@ -278,8 +254,7 @@ void cc_startMeasurement()
Serial.write((uint8_t) (a0_sum & 0x00ff));
Serial.write((uint8_t)((a1_sum & 0xff00) >> 8));
Serial.write((uint8_t) (a1_sum & 0x00ff));
Serial.write(MSG_EOM1);
Serial.write(MSG_EOM2);
sendEOM();
si5351.output_enable(SI5351_CLK0, 0); // disable clock output 0
@ -310,8 +285,7 @@ void cc_startMeasurement()
void cc_getConfig()
{
Serial.write(MSG_SOM1);
Serial.write(MSG_SOM2);
sendSOM();
Serial.write(MSG_TYPE_CONFIG);
Serial.write((uint8_t)((start_freq & 0xff000000) >> 24));
Serial.write((uint8_t)((start_freq & 0x00ff0000) >> 16));
@ -328,16 +302,14 @@ void cc_getConfig()
Serial.write((uint8_t)((intervall & 0xff00) >> 8));
Serial.write((uint8_t) (intervall & 0x00ff));
Serial.write((uint8_t) drive_str);
Serial.write(MSG_EOM1);
Serial.write(MSG_EOM2);
sendEOM();
}
/*****************************************************************************/
void cc_enableClk(void)
{
Serial.write(MSG_SOM1);
Serial.write(MSG_SOM2);
sendSOM();
if (cc_read_data[0] == SI5351_CLK0)
{
si5351.set_freq((uint64_t)start_freq * 100, SI5351_PLL_FIXED, SI5351_CLK0);
@ -358,16 +330,14 @@ void cc_enableClk(void)
} else {
Serial.write(MSG_TYPE_ANSWER_NOK);
}
Serial.write(MSG_EOM1);
Serial.write(MSG_EOM2);
sendEOM();
}
/*****************************************************************************/
void cc_disableClk(void)
{
Serial.write(MSG_SOM1);
Serial.write(MSG_SOM2);
sendSOM();
if (cc_read_data[0] == SI5351_CLK0)
{
si5351.output_enable(SI5351_CLK0, 0); // disable clock output 0
@ -385,8 +355,7 @@ void cc_disableClk(void)
} else {
Serial.write(MSG_TYPE_ANSWER_NOK);
}
Serial.write(MSG_EOM1);
Serial.write(MSG_EOM2);
sendEOM();
}
/*****************************************************************************/
@ -396,11 +365,9 @@ void cc_saveDefaults(void)
writeEEPROMConfig();
Serial.write(MSG_SOM1);
Serial.write(MSG_SOM2);
sendSOM();
Serial.write(MSG_TYPE_ANSWER_OK);
Serial.write(MSG_EOM1);
Serial.write(MSG_EOM2);
sendEOM();
}
/*****************************************************************************/
@ -414,25 +381,21 @@ void cc_setClkCorrection(void)
si5351.set_correction(tmp_corr);
Serial.write(MSG_SOM1);
Serial.write(MSG_SOM2);
sendSOM();
Serial.write(MSG_TYPE_ANSWER_OK);
Serial.write(MSG_EOM1);
Serial.write(MSG_EOM2);
sendEOM();
}
void cc_getClkCorrection(void)
{
uint32_t tmp_corr = si5351.get_correction();
Serial.write(MSG_SOM1);
Serial.write(MSG_SOM2);
sendSOM();
Serial.write((uint8_t)((tmp_corr & 0xff000000) >> 24));
Serial.write((uint8_t)((tmp_corr & 0x00ff0000) >> 16));
Serial.write((uint8_t)((tmp_corr & 0x0000ff00) >> 8));
Serial.write((uint8_t) (tmp_corr & 0x000000ff));
Serial.write(MSG_EOM1);
Serial.write(MSG_EOM2);
sendEOM();
}
/*****************************************************************************/
@ -560,3 +523,17 @@ void cc_clearReadDataBuffer()
/*****************************************************************************/
void sendSOM()
{
Serial.write(MSG_SOM1);
Serial.write(MSG_SOM2);
}
void sendEOM()
{
Serial.write(MSG_EOM1);
Serial.write(MSG_EOM2);
}
/*****************************************************************************/