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Add Arduino SAM compatible analogReadResolution and Non-Blocking ADC api

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connected to: https://github.com/espressif/arduino-esp32/issues/220 and
https://github.com/espressif/arduino-esp32/issues/161
This commit is contained in:
me-no-dev
2017-03-03 15:53:20 +02:00
parent 8fb8478431
commit eb46978a8d
2 changed files with 127 additions and 17 deletions
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104
cores/esp32/esp32-hal-adc.c
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@ -28,12 +28,16 @@ static uint8_t __analogCycles = 8;
static uint8_t __analogSamples = 0;//1 sample
static uint8_t __analogClockDiv = 1;
// Width of returned answer ()
static uint8_t __analogReturnedWidth = 12;
void __analogSetWidth(uint8_t bits){
if(bits < 9){
bits = 9;
} else if(bits > 12){
bits = 12;
}
__analogReturnedWidth = bits;
__analogWidth = bits - 9;
SET_PERI_REG_BITS(SENS_SAR_START_FORCE_REG, SENS_SAR1_BIT_WIDTH, __analogWidth, SENS_SAR1_BIT_WIDTH_S);
SET_PERI_REG_BITS(SENS_SAR_READ_CTRL_REG, SENS_SAR1_SAMPLE_BIT, __analogWidth, SENS_SAR1_SAMPLE_BIT_S);
@ -124,14 +128,14 @@ void __analogSetPinAttenuation(uint8_t pin, adc_attenuation_t attenuation)
}
}
uint16_t IRAM_ATTR __analogRead(uint8_t pin)
{
bool IRAM_ATTR __adcAttachPin(uint8_t pin){
int8_t channel = digitalPinToAnalogChannel(pin);
if(channel < 0){
return 0;//not adc pin
return false;//not adc pin
}
int8_t pad = digitalPinToTouchChannel(pin);
int8_t pad = digitalPinToTouchChannel(pin);
if(pad >= 0){
uint32_t touch = READ_PERI_REG(SENS_SAR_TOUCH_ENABLE_REG);
if(touch & (1 << pad)){
@ -149,22 +153,84 @@ uint16_t IRAM_ATTR __analogRead(uint8_t pin)
pinMode(pin, ANALOG);
__analogInit();
return true;
}
if(channel > 7){
channel -= 10;
bool IRAM_ATTR __adcStart(uint8_t pin){
SET_PERI_REG_BITS(SENS_SAR_MEAS_START2_REG, SENS_SAR2_EN_PAD, (1 << channel), SENS_SAR2_EN_PAD_S);
CLEAR_PERI_REG_MASK(SENS_SAR_MEAS_START2_REG, SENS_MEAS2_START_SAR_M);
SET_PERI_REG_MASK(SENS_SAR_MEAS_START2_REG, SENS_MEAS2_START_SAR_M);
while (GET_PERI_REG_MASK(SENS_SAR_MEAS_START2_REG, SENS_MEAS2_DONE_SAR) == 0) {}; //read done
return GET_PERI_REG_BITS2(SENS_SAR_MEAS_START2_REG, SENS_MEAS2_DATA_SAR, SENS_MEAS2_DATA_SAR_S);
int8_t channel = digitalPinToAnalogChannel(pin);
if(channel < 0){
return false;//not adc pin
}
SET_PERI_REG_BITS(SENS_SAR_MEAS_START1_REG, SENS_SAR1_EN_PAD, (1 << channel), SENS_SAR1_EN_PAD_S);
CLEAR_PERI_REG_MASK(SENS_SAR_MEAS_START1_REG, SENS_MEAS1_START_SAR_M);
SET_PERI_REG_MASK(SENS_SAR_MEAS_START1_REG, SENS_MEAS1_START_SAR_M);
while (GET_PERI_REG_MASK(SENS_SAR_MEAS_START1_REG, SENS_MEAS1_DONE_SAR) == 0) {}; //read done
return GET_PERI_REG_BITS2(SENS_SAR_MEAS_START1_REG, SENS_MEAS1_DATA_SAR, SENS_MEAS1_DATA_SAR_S);
if(channel > 9){
channel -= 10;
CLEAR_PERI_REG_MASK(SENS_SAR_MEAS_START2_REG, SENS_MEAS2_START_SAR_M);
SET_PERI_REG_BITS(SENS_SAR_MEAS_START2_REG, SENS_SAR2_EN_PAD, (1 << channel), SENS_SAR2_EN_PAD_S);
SET_PERI_REG_MASK(SENS_SAR_MEAS_START2_REG, SENS_MEAS2_START_SAR_M);
} else {
CLEAR_PERI_REG_MASK(SENS_SAR_MEAS_START1_REG, SENS_MEAS1_START_SAR_M);
SET_PERI_REG_BITS(SENS_SAR_MEAS_START1_REG, SENS_SAR1_EN_PAD, (1 << channel), SENS_SAR1_EN_PAD_S);
SET_PERI_REG_MASK(SENS_SAR_MEAS_START1_REG, SENS_MEAS1_START_SAR_M);
}
return true;
}
bool IRAM_ATTR __adcBusy(uint8_t pin){
int8_t channel = digitalPinToAnalogChannel(pin);
if(channel < 0){
return false;//not adc pin
}
if(channel > 7){
return (GET_PERI_REG_MASK(SENS_SAR_MEAS_START2_REG, SENS_MEAS2_DONE_SAR) == 0);
}
return (GET_PERI_REG_MASK(SENS_SAR_MEAS_START1_REG, SENS_MEAS1_DONE_SAR) == 0);
}
uint16_t IRAM_ATTR __adcEnd(uint8_t pin)
{
uint16_t value = 0;
int8_t channel = digitalPinToAnalogChannel(pin);
if(channel < 0){
return 0;//not adc pin
}
if(channel > 7){
while (GET_PERI_REG_MASK(SENS_SAR_MEAS_START2_REG, SENS_MEAS2_DONE_SAR) == 0); //wait for conversion
value = GET_PERI_REG_BITS2(SENS_SAR_MEAS_START2_REG, SENS_MEAS2_DATA_SAR, SENS_MEAS2_DATA_SAR_S);
} else {
while (GET_PERI_REG_MASK(SENS_SAR_MEAS_START1_REG, SENS_MEAS1_DONE_SAR) == 0); //wait for conversion
value = GET_PERI_REG_BITS2(SENS_SAR_MEAS_START1_REG, SENS_MEAS1_DATA_SAR, SENS_MEAS1_DATA_SAR_S);
}
// Shift result if necessary
uint8_t from = __analogWidth + 9;
if (from == __analogReturnedWidth) {
return value;
}
if (from > __analogReturnedWidth) {
return value >> (from - __analogReturnedWidth);
}
return value << (__analogReturnedWidth - from);
}
uint16_t IRAM_ATTR __analogRead(uint8_t pin)
{
if(!__adcAttachPin(pin) || !__adcStart(pin)){
return 0;
}
return __adcEnd(pin);
}
void __analogReadResolution(uint8_t bits)
{
if(!bits || bits > 16){
return;
}
__analogSetWidth(bits); // hadware from 9 to 12
__analogReturnedWidth = bits; // software from 1 to 16
}
int __hallRead() //hall sensor without LNA
@ -192,6 +258,7 @@ int __hallRead() //hall sensor without LNA
}
extern uint16_t analogRead(uint8_t pin) __attribute__ ((weak, alias("__analogRead")));
extern void analogReadResolution(uint8_t bits) __attribute__ ((weak, alias("__analogReadResolution")));
extern void analogSetWidth(uint8_t bits) __attribute__ ((weak, alias("__analogSetWidth")));
extern void analogSetCycles(uint8_t cycles) __attribute__ ((weak, alias("__analogSetCycles")));
extern void analogSetSamples(uint8_t samples) __attribute__ ((weak, alias("__analogSetSamples")));
@ -199,3 +266,8 @@ extern void analogSetClockDiv(uint8_t clockDiv) __attribute__ ((weak, alias("__a
extern void analogSetAttenuation(adc_attenuation_t attenuation) __attribute__ ((weak, alias("__analogSetAttenuation")));
extern void analogSetPinAttenuation(uint8_t pin, adc_attenuation_t attenuation) __attribute__ ((weak, alias("__analogSetPinAttenuation")));
extern int hallRead() __attribute__ ((weak, alias("__hallRead")));
extern bool adcAttachPin(uint8_t pin) __attribute__ ((weak, alias("__adcAttachPin")));
extern bool adcStart(uint8_t pin) __attribute__ ((weak, alias("__adcStart")));
extern bool adcBusy(uint8_t pin) __attribute__ ((weak, alias("__adcBusy")));
extern uint16_t adcEnd(uint8_t pin) __attribute__ ((weak, alias("__adcEnd")));