Drop pgm_read_*_near and let headers choose (#12301)
- Drop `pgm_read_*_near` and let headers choose. - Define `USE_EXECUTE_COMMANDS_IMMEDIATE` as a conditional. - Add `process_subcommands_now` for SRAM-based commands.
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@ -173,7 +173,7 @@ void GcodeSuite::dwell(millis_t time) {
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* Process the parsed command and dispatch it to its handler
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*/
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void GcodeSuite::process_parsed_command(
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#if ENABLED(USE_EXECUTE_COMMANDS_IMMEDIATE)
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#if USE_EXECUTE_COMMANDS_IMMEDIATE
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const bool no_ok
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#endif
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) {
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@ -698,7 +698,7 @@ void GcodeSuite::process_parsed_command(
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KEEPALIVE_STATE(NOT_BUSY);
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#if ENABLED(USE_EXECUTE_COMMANDS_IMMEDIATE)
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#if USE_EXECUTE_COMMANDS_IMMEDIATE
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if (!no_ok)
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#endif
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ok_to_send();
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@ -725,35 +725,43 @@ void GcodeSuite::process_next_command() {
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process_parsed_command();
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}
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#if ENABLED(USE_EXECUTE_COMMANDS_IMMEDIATE)
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#if USE_EXECUTE_COMMANDS_IMMEDIATE
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/**
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* Run a series of commands, bypassing the command queue to allow
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* G-code "macros" to be called from within other G-code handlers.
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*/
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void GcodeSuite::process_subcommands_now_P(PGM_P pgcode) {
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// Save the parser state
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char * const saved_cmd = parser.command_ptr;
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// Process individual commands in string
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while (pgm_read_byte_near(pgcode)) {
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// Break up string at '\n' delimiters
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PGM_P const delim = strchr_P(pgcode, '\n');
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size_t len = delim ? delim - pgcode : strlen_P(pgcode);
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char cmd[len + 1];
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strncpy_P(cmd, pgcode, len);
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cmd[len] = '\0';
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pgcode += len;
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if (delim) pgcode++;
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// Parse the next command in the string
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parser.parse(cmd);
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process_parsed_command(true);
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char * const saved_cmd = parser.command_ptr; // Save the parser state
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for (;;) {
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PGM_P const delim = strchr_P(pgcode, '\n'); // Get address of next newline
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const size_t len = delim ? delim - pgcode : strlen_P(pgcode); // Get the command length
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char cmd[len + 1]; // Allocate a stack buffer
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strncpy_P(cmd, pgcode, len); // Copy the command to the stack
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cmd[len] = '\0'; // End with a nul
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parser.parse(cmd); // Parse the command
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process_parsed_command(true); // Process it
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if (!delim) break; // Last command?
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pgcode = delim + 1; // Get the next command
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}
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parser.parse(saved_cmd); // Restore the parser state
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}
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// Restore the parser state
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parser.parse(saved_cmd);
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void GcodeSuite::process_subcommands_now(char * gcode) {
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char * const saved_cmd = parser.command_ptr; // Save the parser state
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for (;;) {
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const char * const delim = strchr(gcode, '\n'); // Get address of next newline
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if (delim) *delim = '\0'; // Replace with nul
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parser.parse(gcode); // Parse the current command
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process_parsed_command(true); // Process it
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if (!delim) break; // Last command?
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gcode = delim + 1; // Get the next command
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}
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#endif
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parser.parse(saved_cmd); // Restore the parser state
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}
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#endif // USE_EXECUTE_COMMANDS_IMMEDIATE
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#if ENABLED(HOST_KEEPALIVE_FEATURE)
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@ -293,14 +293,15 @@ public:
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static bool get_target_extruder_from_command();
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static void get_destination_from_command();
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static void process_parsed_command(
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#if ENABLED(USE_EXECUTE_COMMANDS_IMMEDIATE)
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#if USE_EXECUTE_COMMANDS_IMMEDIATE
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const bool no_ok = false
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#endif
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);
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static void process_next_command();
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#if ENABLED(USE_EXECUTE_COMMANDS_IMMEDIATE)
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#if USE_EXECUTE_COMMANDS_IMMEDIATE
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static void process_subcommands_now_P(PGM_P pgcode);
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static void process_subcommands_now(char * gcode);
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#endif
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FORCE_INLINE static void home_all_axes() { G28(true); }
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@ -1626,9 +1626,7 @@
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// If platform requires early initialization of watchdog to properly boot
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#define EARLY_WATCHDOG (ENABLED(USE_WATCHDOG) && defined(ARDUINO_ARCH_SAM))
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#if ENABLED(G29_RETRY_AND_RECOVER)
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#define USE_EXECUTE_COMMANDS_IMMEDIATE
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#endif
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#define USE_EXECUTE_COMMANDS_IMMEDIATE ENABLED(G29_RETRY_AND_RECOVER)
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#if ENABLED(Z_TRIPLE_STEPPER_DRIVERS)
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#define Z_STEPPER_COUNT 3
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@ -96,7 +96,7 @@ void ST7920_Lite_Status_Screen::write_str(const char *str, uint8_t len) {
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void ST7920_Lite_Status_Screen::write_str_P(PGM_P const str) {
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PGM_P p_str = (PGM_P)str;
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while (char c = pgm_read_byte_near(p_str++)) write_byte(c);
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while (char c = pgm_read_byte(p_str++)) write_byte(c);
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}
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void ST7920_Lite_Status_Screen::write_str(progmem_str str) {
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@ -221,7 +221,7 @@ void ST7920_Lite_Status_Screen::load_cgram_icon(const uint16_t addr, const void
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set_cgram_address(addr);
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begin_data();
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for (uint8_t i = 16; i--;)
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write_word(pgm_read_word_near(p_word++));
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write_word(pgm_read_word(p_word++));
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}
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/**
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@ -239,7 +239,7 @@ void ST7920_Lite_Status_Screen::draw_gdram_icon(uint8_t x, uint8_t y, const void
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for (int i = 0; i < 16; i++) {
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set_gdram_address(x, i + y * 16);
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begin_data();
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write_word(pgm_read_word_near(p_word++));
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write_word(pgm_read_word(p_word++));
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}
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}
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@ -416,7 +416,7 @@ void ST7920_Lite_Status_Screen::draw_degree_symbol(uint8_t x, uint8_t y, bool dr
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const uint8_t y_top = degree_symbol_y_top;
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const uint8_t y_bot = y_top + sizeof(degree_symbol)/sizeof(degree_symbol[0]);
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for(uint8_t i = y_top; i < y_bot; i++) {
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uint8_t byte = pgm_read_byte_near(p_bytes++);
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uint8_t byte = pgm_read_byte(p_bytes++);
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set_gdram_address(x_word, i + y * 16);
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begin_data();
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if (draw) {
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@ -1803,7 +1803,7 @@ void MarlinSettings::reset(PORTARG_SOLO) {
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LOOP_XYZE_N(i) {
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planner.settings.axis_steps_per_mm[i] = pgm_read_float(&tmp1[ALIM(i, tmp1)]);
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planner.settings.max_feedrate_mm_s[i] = pgm_read_float(&tmp2[ALIM(i, tmp2)]);
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planner.settings.max_acceleration_mm_per_s2[i] = pgm_read_dword_near(&tmp3[ALIM(i, tmp3)]);
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planner.settings.max_acceleration_mm_per_s2[i] = pgm_read_dword(&tmp3[ALIM(i, tmp3)]);
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}
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planner.settings.min_segment_time_us = DEFAULT_MINSEGMENTTIME;
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@ -95,8 +95,8 @@ extern int16_t feedrate_percentage;
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extern float soft_endstop_min[XYZ], soft_endstop_max[XYZ];
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FORCE_INLINE float pgm_read_any(const float *p) { return pgm_read_float_near(p); }
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FORCE_INLINE signed char pgm_read_any(const signed char *p) { return pgm_read_byte_near(p); }
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FORCE_INLINE float pgm_read_any(const float *p) { return pgm_read_float(p); }
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FORCE_INLINE signed char pgm_read_any(const signed char *p) { return pgm_read_byte(p); }
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#define XYZ_DEFS(type, array, CONFIG) \
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extern const type array##_P[XYZ]; \
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@ -526,15 +526,15 @@ class Stepper {
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if (step_rate >= (8 * 256)) { // higher step rate
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const uint8_t tmp_step_rate = (step_rate & 0x00FF);
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const uint16_t table_address = (uint16_t)&speed_lookuptable_fast[(uint8_t)(step_rate >> 8)][0],
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gain = (uint16_t)pgm_read_word_near(table_address + 2);
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gain = (uint16_t)pgm_read_word(table_address + 2);
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timer = MultiU16X8toH16(tmp_step_rate, gain);
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timer = (uint16_t)pgm_read_word_near(table_address) - timer;
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timer = (uint16_t)pgm_read_word(table_address) - timer;
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}
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else { // lower step rates
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uint16_t table_address = (uint16_t)&speed_lookuptable_slow[0][0];
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table_address += ((step_rate) >> 1) & 0xFFFC;
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timer = (uint16_t)pgm_read_word_near(table_address)
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- (((uint16_t)pgm_read_word_near(table_address + 2) * (uint8_t)(step_rate & 0x0007)) >> 3);
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timer = (uint16_t)pgm_read_word(table_address)
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- (((uint16_t)pgm_read_word(table_address + 2) * (uint8_t)(step_rate & 0x0007)) >> 3);
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}
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// (there is no need to limit the timer value here. All limits have been
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// applied above, and AVR is able to keep up at 30khz Stepping ISR rate)
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