Fix PDMIn.c formatting

This commit is contained in:
Scott Shawcroft 2022-06-01 10:46:46 -07:00
parent 7fc0aa5791
commit 6d3698848c
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GPG Key ID: 0DFD512649C052DA

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@ -110,26 +110,26 @@ void common_hal_audiobusio_pdmin_construct(audiobusio_pdmin_obj_t *self,
} else if (clock_pin == &pin_PB11) {
self->clock_unit = 1;
#endif
#endif
#else
#ifdef SAM_D5X_E5X
if (clock_pin == &pin_PA10 || clock_pin == &pin_PB16) {
self->clock_unit = 0;
} else if (clock_pin == &pin_PB12
#if defined(PIN_PB28) && !defined(IGNORE_PIN_PB28)
|| data_pin == &pin_PB28) {
#else
) {
|| data_pin == &pin_PB28
#endif
) {
self->clock_unit = 1;
#endif
} else {
#endif
} else {
raise_ValueError_invalid_pin_name(MP_QSTR_clock);
}
}
self->data_pin = data_pin; // PA07, PA19 -> SD0, PA08, PB16 -> SD1
self->data_pin = data_pin; // PA07, PA19 -> SD0, PA08, PB16 -> SD1
#ifdef SAMD21
if (false
if (false
#if defined(PIN_PA07) && !defined(IGNORE_PIN_PA07)
|| data_pin == &pin_PA07
#endif
@ -138,7 +138,7 @@ if (false
#endif
) {
self->serializer = 0;
} else if (false
} else if (false
#if defined(PIN_PA08) && !defined(IGNORE_PIN_PA08)
|| data_pin == &pin_PA08
#endif
@ -147,26 +147,27 @@ if (false
#endif
) {
self->serializer = 1;
#endif
#else
#ifdef SAM_D5X_E5X
if (data_pin == &pin_PB10 || data_pin == &pin_PA22) {
if (data_pin == &pin_PB10 || data_pin == &pin_PA22) {
self->serializer = 1;
#endif
}else {
#endif
} else {
raise_ValueError_invalid_pin_name(MP_QSTR_data);
}
}
if (!(bit_depth == 16 || bit_depth == 8) || !mono || oversample != OVERSAMPLING) {
if (!(bit_depth == 16 || bit_depth == 8) || !mono || oversample != OVERSAMPLING) {
mp_raise_NotImplementedError(translate("Only 8 or 16 bit mono with " MP_STRINGIFY(OVERSAMPLING) "x oversampling is supported."));
}
}
turn_on_i2s();
turn_on_i2s();
if (I2S->CTRLA.bit.ENABLE == 0) {
if (I2S->CTRLA.bit.ENABLE == 0) {
I2S->CTRLA.bit.SWRST = 1;
while (I2S->CTRLA.bit.SWRST == 1) {
}
} else {
} else {
#ifdef SAMD21
if ((I2S->CTRLA.vec.SEREN & (1 << self->serializer)) != 0) {
mp_raise_RuntimeError(translate("Serializer in use"));
@ -177,7 +178,7 @@ if (I2S->CTRLA.bit.ENABLE == 0) {
mp_raise_RuntimeError(translate("Serializer in use"));
}
#endif
}
}
#ifdef SAM_D5X_E5X
#define GPIO_I2S_FUNCTION GPIO_PIN_FUNCTION_J
#endif
@ -185,62 +186,62 @@ if (I2S->CTRLA.bit.ENABLE == 0) {
#define GPIO_I2S_FUNCTION GPIO_PIN_FUNCTION_G
#endif
uint32_t clock_divisor = (uint32_t)roundf(48000000.0f / sample_rate / oversample);
float mic_clock_freq = 48000000.0f / clock_divisor;
self->sample_rate = mic_clock_freq / oversample;
if (mic_clock_freq < MIN_MIC_CLOCK || clock_divisor == 0) {
uint32_t clock_divisor = (uint32_t)roundf(48000000.0f / sample_rate / oversample);
float mic_clock_freq = 48000000.0f / clock_divisor;
self->sample_rate = mic_clock_freq / oversample;
if (mic_clock_freq < MIN_MIC_CLOCK || clock_divisor == 0) {
mp_raise_ValueError(translate("sampling rate out of range"));
}
// Find a free GCLK to generate the MCLK signal.
uint8_t gclk = find_free_gclk(clock_divisor);
if (gclk > GCLK_GEN_NUM) {
}
// Find a free GCLK to generate the MCLK signal.
uint8_t gclk = find_free_gclk(clock_divisor);
if (gclk > GCLK_GEN_NUM) {
mp_raise_RuntimeError(translate("Unable to find free GCLK"));
}
self->gclk = gclk;
}
self->gclk = gclk;
enable_clock_generator(self->gclk, CLOCK_48MHZ, clock_divisor);
connect_gclk_to_peripheral(self->gclk, I2S_GCLK_ID_0 + self->clock_unit);
enable_clock_generator(self->gclk, CLOCK_48MHZ, clock_divisor);
connect_gclk_to_peripheral(self->gclk, I2S_GCLK_ID_0 + self->clock_unit);
// Clock unit configuration
// Clock unit configuration
uint32_t clkctrl = I2S_CLKCTRL_MCKSEL_GCLK |
uint32_t clkctrl = I2S_CLKCTRL_MCKSEL_GCLK |
I2S_CLKCTRL_NBSLOTS(2) |
I2S_CLKCTRL_FSWIDTH_SLOT |
I2S_CLKCTRL_SLOTSIZE_16;
// Serializer configuration
// Serializer configuration
#ifdef SAMD21
uint32_t serctrl = (self->clock_unit << I2S_SERCTRL_CLKSEL_Pos) | SERCTRL(SERMODE_PDM2) | SERCTRL(DATASIZE_32);
uint32_t serctrl = (self->clock_unit << I2S_SERCTRL_CLKSEL_Pos) | SERCTRL(SERMODE_PDM2) | SERCTRL(DATASIZE_32);
#endif
#ifdef SAM_D5X_E5X
uint32_t serctrl = (self->clock_unit << I2S_RXCTRL_CLKSEL_Pos) | SERCTRL(SERMODE_PDM2) | SERCTRL(DATASIZE_32);
uint32_t serctrl = (self->clock_unit << I2S_RXCTRL_CLKSEL_Pos) | SERCTRL(SERMODE_PDM2) | SERCTRL(DATASIZE_32);
#endif
// Configure the I2S peripheral
i2s_set_enable(false);
// Configure the I2S peripheral
i2s_set_enable(false);
I2S->CLKCTRL[self->clock_unit].reg = clkctrl;
I2S->CLKCTRL[self->clock_unit].reg = clkctrl;
#ifdef SAMD21
I2S->SERCTRL[self->serializer].reg = serctrl;
I2S->SERCTRL[self->serializer].reg = serctrl;
#endif
#ifdef SAM_D5X_E5X
I2S->RXCTRL.reg = serctrl;
I2S->RXCTRL.reg = serctrl;
#endif
i2s_set_enable(true);
i2s_set_enable(true);
// Run the clock all the time. This eliminates startup delay for the microphone,
// which can be 10-100ms. Turn serializer on as needed.
i2s_set_clock_unit_enable(self->clock_unit, true);
// Run the clock all the time. This eliminates startup delay for the microphone,
// which can be 10-100ms. Turn serializer on as needed.
i2s_set_clock_unit_enable(self->clock_unit, true);
claim_pin(clock_pin);
claim_pin(data_pin);
claim_pin(clock_pin);
claim_pin(data_pin);
gpio_set_pin_function(self->clock_pin->number, GPIO_I2S_FUNCTION);
gpio_set_pin_function(self->data_pin->number, GPIO_I2S_FUNCTION);
gpio_set_pin_function(self->clock_pin->number, GPIO_I2S_FUNCTION);
gpio_set_pin_function(self->data_pin->number, GPIO_I2S_FUNCTION);
self->bytes_per_sample = oversample >> 3;
self->bit_depth = bit_depth;
self->bytes_per_sample = oversample >> 3;
self->bit_depth = bit_depth;
}
bool common_hal_audiobusio_pdmin_deinited(audiobusio_pdmin_obj_t *self) {