Followup to HAL optimizations and delays
- Cleanups, fixes for Due HAL code. - TC_IER is write-only. Use TC_IMR to test ISR state.
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@ -33,6 +33,8 @@
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#ifndef MARLIN_DELAY_H
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#ifndef MARLIN_DELAY_H
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#define MARLIN_DELAY_H
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#define MARLIN_DELAY_H
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#include "../core/macros.h"
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#if defined(__arm__) || defined(__thumb__)
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#if defined(__arm__) || defined(__thumb__)
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/* https://blueprints.launchpad.net/gcc-arm-embedded/+spec/delay-cycles */
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/* https://blueprints.launchpad.net/gcc-arm-embedded/+spec/delay-cycles */
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@ -89,7 +89,7 @@
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/* The software SPI routine */
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/* The software SPI routine */
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__asm__ __volatile__(
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__asm__ __volatile__(
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".syntax unified" "\n\t" // is to prevent CM0,CM1 non-unified syntax
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A(".syntax unified") // is to prevent CM0,CM1 non-unified syntax
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/* Bit 7 */
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/* Bit 7 */
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A("ubfx %[idx],%[txval],#7,#1") /* Place bit 7 in bit 0 of idx*/
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A("ubfx %[idx],%[txval],#7,#1") /* Place bit 7 in bit 0 of idx*/
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@ -170,7 +170,7 @@
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/* The software SPI routine */
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/* The software SPI routine */
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__asm__ __volatile__(
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__asm__ __volatile__(
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".syntax unified" "\n\t" // is to prevent CM0,CM1 non-unified syntax
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A(".syntax unified") // is to prevent CM0,CM1 non-unified syntax
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/* bit 7 */
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/* bit 7 */
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A("str %[sck_mask],[%[sck_port]]") /* SODR */
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A("str %[sck_mask],[%[sck_port]]") /* SODR */
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@ -290,7 +290,7 @@
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/* The software SPI routine */
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/* The software SPI routine */
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__asm__ __volatile__(
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__asm__ __volatile__(
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".syntax unified" "\n\t" // is to prevent CM0,CM1 non-unified syntax
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A(".syntax unified") // is to prevent CM0,CM1 non-unified syntax
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L("loop%=")
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L("loop%=")
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A("ldrb.w %[txval], [%[ptr]], #1") /* Load value to send, increment buffer */
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A("ldrb.w %[txval], [%[ptr]], #1") /* Load value to send, increment buffer */
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@ -368,7 +368,7 @@
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/* The software SPI routine */
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/* The software SPI routine */
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__asm__ __volatile__(
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__asm__ __volatile__(
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".syntax unified" "\n\t" // is to prevent CM0,CM1 non-unified syntax
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A(".syntax unified") // is to prevent CM0,CM1 non-unified syntax
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L("loop%=")
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L("loop%=")
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@ -137,19 +137,7 @@ void HAL_timer_disable_interrupt(const uint8_t timer_num) {
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bool HAL_timer_interrupt_enabled(const uint8_t timer_num) {
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bool HAL_timer_interrupt_enabled(const uint8_t timer_num) {
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const tTimerConfig * const pConfig = &TimerConfig[timer_num];
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const tTimerConfig * const pConfig = &TimerConfig[timer_num];
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return pConfig->pTimerRegs->TC_CHANNEL[pConfig->channel].TC_IER == TC_IER_CPCS;
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return (pConfig->pTimerRegs->TC_CHANNEL[pConfig->channel].TC_IMR & TC_IMR_CPCS) != 0;
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}
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}
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#if 0
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void HAL_timer_set_compare(const uint8_t timer_num, const uint32_t compare) {
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const tTimerConfig * const pConfig = &TimerConfig[timer_num];
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TC_SetRC(pConfig->pTimerRegs, pConfig->channel, compare);
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}
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void HAL_timer_isr_prologue(const uint8_t timer_num) {
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const tTimerConfig * const pConfig = &TimerConfig[timer_num];
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TC_GetStatus(pConfig->pTimerRegs, pConfig->channel);
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}
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#endif
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#endif // ARDUINO_ARCH_SAM
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#endif // ARDUINO_ARCH_SAM
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@ -58,6 +58,7 @@
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#include <U8glib.h>
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#include <U8glib.h>
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#include <Arduino.h>
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#include <Arduino.h>
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#include "../../core/macros.h"
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#include "../../core/macros.h"
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#include "../Delay.h"
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void u8g_SetPIOutput_DUE(u8g_t *u8g, uint8_t pin_index) {
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void u8g_SetPIOutput_DUE(u8g_t *u8g, uint8_t pin_index) {
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PIO_Configure(g_APinDescription[u8g->pin_list[pin_index]].pPort, PIO_OUTPUT_1,
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PIO_Configure(g_APinDescription[u8g->pin_list[pin_index]].pPort, PIO_OUTPUT_1,
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@ -71,28 +72,6 @@ void u8g_SetPILevel_DUE(u8g_t *u8g, uint8_t pin_index, uint8_t level) {
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else port->PIO_CODR = mask;
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else port->PIO_CODR = mask;
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}
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}
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void __delay_4cycles(uint32_t cy) __attribute__ ((weak));
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FORCE_INLINE void __delay_4cycles(uint32_t cy) { // +1 cycle
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#if ARCH_PIPELINE_RELOAD_CYCLES<2
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#define EXTRA_NOP_CYCLES "nop"
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#else
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#define EXTRA_NOP_CYCLES ""
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#endif
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__asm__ __volatile__(
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".syntax unified" "\n\t" // is to prevent CM0,CM1 non-unified syntax
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L("loop%=")
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A("subs %[cnt],#1")
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A(EXTRA_NOP_CYCLES)
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A("bne loop%=")
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: [cnt]"+r"(cy) // output: +r means input+output
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: // input:
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: "cc" // clobbers:
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);
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}
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Pio *SCK_pPio, *MOSI_pPio;
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Pio *SCK_pPio, *MOSI_pPio;
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uint32_t SCK_dwMask, MOSI_dwMask;
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uint32_t SCK_dwMask, MOSI_dwMask;
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@ -102,9 +81,9 @@ static void spiSend_sw_DUE(uint8_t val) { // 800KHz
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MOSI_pPio->PIO_SODR = MOSI_dwMask;
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MOSI_pPio->PIO_SODR = MOSI_dwMask;
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else
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else
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MOSI_pPio->PIO_CODR = MOSI_dwMask;
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MOSI_pPio->PIO_CODR = MOSI_dwMask;
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__delay_4cycles(1);
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DELAY_NS(48);
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SCK_pPio->PIO_SODR = SCK_dwMask;
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SCK_pPio->PIO_SODR = SCK_dwMask;
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__delay_4cycles(19); // 16 dead, 17 garbage, 18/0 900kHz, 19/1 825k, 20/1 800k, 21/2 725KHz
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DELAY_NS(905); // 762 dead, 810 garbage, 858/0 900kHz, 905/1 825k, 953/1 800k, 1000/2 725KHz
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val <<= 1;
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val <<= 1;
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SCK_pPio->PIO_CODR = SCK_dwMask;
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SCK_pPio->PIO_CODR = SCK_dwMask;
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}
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}
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@ -125,8 +104,7 @@ static void u8g_com_DUE_st7920_write_byte_sw_spi(uint8_t rs, uint8_t val) {
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/* data */
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/* data */
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spiSend_sw_DUE(0x0FA);
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spiSend_sw_DUE(0x0FA);
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for (i = 0; i < 4; i++) // give the controller some time to process the data
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DELAY_US(40); // give the controller some time to process the data: 20 is bad, 30 is OK, 40 is safe
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u8g_10MicroDelay(); // 2 is bad, 3 is OK, 4 is safe
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}
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}
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spiSend_sw_DUE(val & 0x0F0);
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spiSend_sw_DUE(val & 0x0F0);
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@ -118,12 +118,12 @@ uint8_t TwoWire::requestFrom(uint8_t address, uint8_t quantity) {
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// perform blocking read into buffer
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// perform blocking read into buffer
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I2C_M_SETUP_Type transferMCfg;
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I2C_M_SETUP_Type transferMCfg;
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transferMCfg.sl_addr7bit = address >> 1; // not sure about the right shift
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transferMCfg.sl_addr7bit = address >> 1; // not sure about the right shift
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transferMCfg.tx_data = NULL;
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transferMCfg.tx_data = NULL;
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transferMCfg.tx_length = 0;
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transferMCfg.tx_length = 0;
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transferMCfg.rx_data = rxBuffer;
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transferMCfg.rx_data = rxBuffer;
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transferMCfg.rx_length = quantity;
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transferMCfg.rx_length = quantity;
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transferMCfg.retransmissions_max = 3;
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transferMCfg.retransmissions_max = 3;
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I2C_MasterTransferData(I2CDEV_M, &transferMCfg, I2C_TRANSFER_POLLING);
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I2C_MasterTransferData(I2CDEV_M, &transferMCfg, I2C_TRANSFER_POLLING);
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// set rx buffer iterator vars
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// set rx buffer iterator vars
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rxBufferIndex = 0;
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rxBufferIndex = 0;
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@ -154,11 +154,11 @@ uint8_t TwoWire::endTransmission(void) {
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// transmit buffer (blocking)
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// transmit buffer (blocking)
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I2C_M_SETUP_Type transferMCfg;
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I2C_M_SETUP_Type transferMCfg;
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transferMCfg.sl_addr7bit = txAddress >> 1; // not sure about the right shift
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transferMCfg.sl_addr7bit = txAddress >> 1; // not sure about the right shift
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transferMCfg.tx_data = txBuffer;
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transferMCfg.tx_data = txBuffer;
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transferMCfg.tx_length = txBufferLength;
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transferMCfg.tx_length = txBufferLength;
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transferMCfg.rx_data = NULL;
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transferMCfg.rx_data = NULL;
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transferMCfg.rx_length = 0;
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transferMCfg.rx_length = 0;
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transferMCfg.retransmissions_max = 3;
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transferMCfg.retransmissions_max = 3;
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Status status = I2C_MasterTransferData(I2CDEV_M, &transferMCfg, I2C_TRANSFER_POLLING);
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Status status = I2C_MasterTransferData(I2CDEV_M, &transferMCfg, I2C_TRANSFER_POLLING);
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// reset tx buffer iterator vars
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// reset tx buffer iterator vars
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//#include "Configuration.h"
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//#include "Configuration.h"
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#include <U8glib.h>
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#include <U8glib.h>
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#include "../Delay.h"
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#define SPI_FULL_SPEED 0
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#define SPI_FULL_SPEED 0
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#define SPI_HALF_SPEED 1
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#define SPI_HALF_SPEED 1
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@ -92,8 +93,7 @@
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/* data */
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/* data */
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spiSend(0x0FA);
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spiSend(0x0FA);
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for( i = 0; i < 4; i++ ) // give the controller some time to process the data
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DELAY_US(40); // give the controller some time to process the data: 20 is bad, 30 is OK, 40 is safe
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u8g_10MicroDelay(); // 2 is bad, 3 is OK, 4 is safe
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}
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}
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spiSend(val & 0x0F0);
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spiSend(val & 0x0F0);
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@ -57,6 +57,7 @@
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#include <U8glib.h>
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#include <U8glib.h>
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#include "SoftwareSPI.h"
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#include "SoftwareSPI.h"
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#include "../Delay.h"
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#define SPI_SPEED 3 // About 1 MHz
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#define SPI_SPEED 3 // About 1 MHz
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/* data */
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/* data */
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swSpiTransfer(0x0FA, SPI_speed, SCK_pin_ST7920_HAL, -1, MOSI_pin_ST7920_HAL_HAL);
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swSpiTransfer(0x0FA, SPI_speed, SCK_pin_ST7920_HAL, -1, MOSI_pin_ST7920_HAL_HAL);
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for( i = 0; i < 4; i++ ) // give the controller some time to process the data
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DELAY_US(40); // give the controller some time to process the data: 20 is bad, 30 is OK, 40 is safe
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u8g_10MicroDelay(); // 2 is bad, 3 is OK, 4 is safe
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}
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}
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swSpiTransfer(val & 0x0F0, SPI_speed, SCK_pin_ST7920_HAL, -1, MOSI_pin_ST7920_HAL_HAL);
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swSpiTransfer(val & 0x0F0, SPI_speed, SCK_pin_ST7920_HAL, -1, MOSI_pin_ST7920_HAL_HAL);
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@ -105,7 +105,7 @@ static void ST7920_SWSPI_SND_8BIT(uint8_t val) {
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#if DOGM_SPI_DELAY_US > 0
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#if DOGM_SPI_DELAY_US > 0
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#define U8G_DELAY() DELAY_US(DOGM_SPI_DELAY_US)
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#define U8G_DELAY() DELAY_US(DOGM_SPI_DELAY_US)
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#else
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#else
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#define U8G_DELAY() u8g_10MicroDelay()
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#define U8G_DELAY() DELAY_US(10)
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#endif
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#endif
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#define ST7920_CS() { WRITE(ST7920_CS_PIN,1); U8G_DELAY(); }
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#define ST7920_CS() { WRITE(ST7920_CS_PIN,1); U8G_DELAY(); }
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