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Add support for Frank's 6-chip Memoryboard4 (AUDIO_MEMORY_MEMORYBOARD)

dds
PaulStoffregen hace 9 años
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commit
366fdad883
Se han modificado 2 ficheros con 55 adiciones y 37 borrados
  1. +52
    -36
      effect_delay_ext.cpp
  2. +3
    -1
      effect_delay_ext.h

+ 52
- 36
effect_delay_ext.cpp Ver fichero

@@ -35,6 +35,9 @@

#define SPIRAM_CS_PIN 6

#define MEMBOARD_CS0_PIN 2
#define MEMBOARD_CS1_PIN 3
#define MEMBOARD_CS2_PIN 4

void AudioEffectDelayExternal::update(void)
{
@@ -119,6 +122,12 @@ void AudioEffectDelayExternal::initialize(AudioEffectDelayMemoryType_t type, uin
digitalWriteFast(SPIRAM_CS_PIN, HIGH);
} else if (type == AUDIO_MEMORY_MEMORYBOARD) {
memsize = 393216;
pinMode(MEMBOARD_CS0_PIN, OUTPUT);
pinMode(MEMBOARD_CS1_PIN, OUTPUT);
pinMode(MEMBOARD_CS2_PIN, OUTPUT);
digitalWriteFast(MEMBOARD_CS0_PIN, LOW);
digitalWriteFast(MEMBOARD_CS1_PIN, LOW);
digitalWriteFast(MEMBOARD_CS2_PIN, LOW);
} else {
return;
}
@@ -168,7 +177,27 @@ void AudioEffectDelayExternal::read(uint32_t offset, uint32_t count, int16_t *da
digitalWriteFast(SPIRAM_CS_PIN, HIGH);
SPI.endTransaction();
} else if (memory_type == AUDIO_MEMORY_MEMORYBOARD) {
// TODO.... similar, but handle partition across 6 chips
SPI.beginTransaction(SPISETTING);
while (count) {
uint32_t chip = (addr >> 16) + 1;
digitalWriteFast(MEMBOARD_CS0_PIN, chip & 1);
digitalWriteFast(MEMBOARD_CS1_PIN, chip & 2);
digitalWriteFast(MEMBOARD_CS2_PIN, chip & 4);
uint32_t chipaddr = (addr & 0xFFFF) << 1;
SPI.transfer16((0x03 << 8) | (chipaddr >> 16));
SPI.transfer16(chipaddr & 0xFFFF);
uint32_t num = 0x10000 - (addr & 0xFFFF);
if (num > count) num = count;
count -= num;
addr += num;
do {
*data++ = (int16_t)(SPI.transfer16(0));
} while (--num > 0);
}
digitalWriteFast(MEMBOARD_CS0_PIN, LOW);
digitalWriteFast(MEMBOARD_CS1_PIN, LOW);
digitalWriteFast(MEMBOARD_CS2_PIN, LOW);
SPI.endTransaction();
}
#endif
}
@@ -187,53 +216,40 @@ void AudioEffectDelayExternal::write(uint32_t offset, uint32_t count, const int1
SPI.transfer16((0x02 << 8) | (addr >> 16));
SPI.transfer16(addr & 0xFFFF);
while (count) {
SPI.transfer16(*data++);
int16_t w = 0;
if (data) w = *data++;
SPI.transfer16(w);
count--;
}
digitalWriteFast(SPIRAM_CS_PIN, HIGH);
SPI.endTransaction();
} else if (memory_type == AUDIO_MEMORY_MEMORYBOARD) {
// TODO.... similar, but handle partition across 6 chips
}
#endif
}

void AudioEffectDelayExternal::zero(uint32_t offset, uint32_t count)
{
uint32_t addr = memory_begin + offset;

#ifdef INTERNAL_TEST
while (count) { testmem[addr++] = 0; count--; } // testing only
#else
if (memory_type == AUDIO_MEMORY_23LC1024) {
addr *= 2;
SPI.beginTransaction(SPISETTING);
//digitalWriteFast(SPIRAM_CS_PIN, LOW);
//SPI.transfer16((0x01 << 8) | 0x40); // not needed, defaults to this mode
//digitalWriteFast(SPIRAM_CS_PIN, HIGH);
//delayMicroseconds(1);
//digitalWriteFast(SPIRAM_CS_PIN, LOW);
//SPI.transfer16((0x05 << 8) | 0x40); // not needed, defaults to this mode
//digitalWriteFast(SPIRAM_CS_PIN, HIGH);
//delayMicroseconds(1);
digitalWriteFast(SPIRAM_CS_PIN, LOW);
SPI.transfer16((0x02 << 8) | (addr >> 16));
SPI.transfer16(addr & 0xFFFF);
while (count) {
SPI.transfer16(0);
count--;
uint32_t chip = (addr >> 16) + 1;
digitalWriteFast(MEMBOARD_CS0_PIN, chip & 1);
digitalWriteFast(MEMBOARD_CS1_PIN, chip & 2);
digitalWriteFast(MEMBOARD_CS2_PIN, chip & 4);
uint32_t chipaddr = (addr & 0xFFFF) << 1;
SPI.transfer16((0x02 << 8) | (chipaddr >> 16));
SPI.transfer16(chipaddr & 0xFFFF);
uint32_t num = 0x10000 - (addr & 0xFFFF);
if (num > count) num = count;
count -= num;
addr += num;
do {
int16_t w = 0;
if (data) w = *data++;
SPI.transfer16(w);
} while (--num > 0);
}
digitalWriteFast(SPIRAM_CS_PIN, HIGH);
digitalWriteFast(MEMBOARD_CS0_PIN, LOW);
digitalWriteFast(MEMBOARD_CS1_PIN, LOW);
digitalWriteFast(MEMBOARD_CS2_PIN, LOW);
SPI.endTransaction();
} else if (memory_type == AUDIO_MEMORY_MEMORYBOARD) {
// TODO.... similar, but handle partition across 6 chips
}
#endif
}








+ 3
- 1
effect_delay_ext.h Ver fichero

@@ -70,7 +70,9 @@ private:
void initialize(AudioEffectDelayMemoryType_t type, uint32_t samples);
void read(uint32_t address, uint32_t count, int16_t *data);
void write(uint32_t address, uint32_t count, const int16_t *data);
void zero(uint32_t address, uint32_t count);
void zero(uint32_t address, uint32_t count) {
write(address, count, NULL);
}
uint32_t memory_begin; // the first address in the memory we're using
uint32_t memory_length; // the amount of memory we're using
uint32_t head_offset; // head index (incoming) data into external memory

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