Apply const, spacing, etc.
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@ -189,7 +189,6 @@ void free_memory_pool_report(char * const ptr, const int16_t size) {
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* This is useful to check the correctness of the M100 D and the M100 F commands.
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*/
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void corrupt_free_memory(char *ptr, const uint16_t size) {
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if (parser.seen('C')) {
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ptr += 8;
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const uint16_t near_top = top_of_stack() - ptr - 250, // -250 to avoid interrupt activity that's altered the stack.
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j = near_top / (size + 1);
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@ -202,7 +201,6 @@ void free_memory_pool_report(char * const ptr, const int16_t size) {
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}
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SERIAL_EOL();
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}
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}
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#endif // M100_FREE_MEMORY_CORRUPTOR
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/**
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@ -1276,16 +1276,17 @@ void get_available_commands() {
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*
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* Returns TRUE if the target is invalid
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*/
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bool get_target_extruder_from_command(int code) {
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bool get_target_extruder_from_command(const uint16_t code) {
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if (parser.seen('T')) {
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if (parser.value_byte() >= EXTRUDERS) {
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const int8_t e = parser.value_byte();
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if (e >= EXTRUDERS) {
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SERIAL_ECHO_START();
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SERIAL_CHAR('M');
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SERIAL_ECHO(code);
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SERIAL_ECHOLNPAIR(" " MSG_INVALID_EXTRUDER " ", parser.value_byte());
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SERIAL_ECHOLNPAIR(" " MSG_INVALID_EXTRUDER " ", e);
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return true;
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}
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target_extruder = parser.value_byte();
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target_extruder = e;
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}
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else
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target_extruder = active_extruder;
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@ -5676,7 +5677,7 @@ inline void gcode_G92() {
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#if HAS_POSITION_SHIFT
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const float p = current_position[i];
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#endif
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float v = parser.value_axis_units((AxisEnum)i);
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const float v = parser.value_axis_units((AxisEnum)i);
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current_position[i] = v;
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@ -6405,7 +6406,7 @@ static bool pin_is_protected(const int8_t pin) {
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inline void gcode_M42() {
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if (!parser.seen('S')) return;
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int pin_status = parser.value_int();
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const int pin_status = parser.value_int();
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if (!WITHIN(pin_status, 0, 255)) return;
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int pin_number = parser.seen('P') ? parser.value_int() : LED_PIN;
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@ -6645,7 +6646,7 @@ inline void gcode_M42() {
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*/
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inline void gcode_M43() {
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if (parser.seen('T')) { // must be first or else it's "S" and "E" parameters will execute endstop or servo test
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if (parser.seen('T')) { // must be first or else its "S" and "E" parameters will execute endstop or servo test
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toggle_pins();
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return;
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}
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@ -8580,7 +8581,7 @@ inline void gcode_M226() {
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*/
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inline void gcode_M280() {
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if (!parser.seen('P')) return;
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int servo_index = parser.value_int();
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const int servo_index = parser.value_int();
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if (WITHIN(servo_index, 0, NUM_SERVOS - 1)) {
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if (parser.seen('S'))
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MOVE_SERVO(servo_index, parser.value_int());
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@ -8753,7 +8754,7 @@ inline void gcode_M226() {
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* M302 S170 P1 ; set min extrude temp to 170 but leave disabled
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*/
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inline void gcode_M302() {
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bool seen_S = parser.seen('S');
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const bool seen_S = parser.seen('S');
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if (seen_S) {
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thermalManager.extrude_min_temp = parser.value_celsius();
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thermalManager.allow_cold_extrude = (thermalManager.extrude_min_temp == 0);
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@ -8960,10 +8961,12 @@ inline void gcode_M400() { stepper.synchronize(); }
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* M405: Turn on filament sensor for control
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*/
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inline void gcode_M405() {
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// This is technically a linear measurement, but since it's quantized to centimeters and is a different unit than
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// everything else, it uses parser.value_int() instead of parser.value_linear_units().
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if (parser.seen('D')) meas_delay_cm = parser.value_byte();
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// This is technically a linear measurement, but since it's quantized to centimeters and is a different
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// unit than everything else, it uses parser.value_byte() instead of parser.value_linear_units().
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if (parser.seen('D')) {
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meas_delay_cm = parser.value_byte();
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NOMORE(meas_delay_cm, MAX_MEASUREMENT_DELAY);
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}
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if (filwidth_delay_index[1] == -1) { // Initialize the ring buffer if not done since startup
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const uint8_t temp_ratio = thermalManager.widthFil_to_size_ratio() - 100; // -100 to scale within a signed byte
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@ -523,7 +523,7 @@ struct directoryEntry {
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uint8_t reservedNT;
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/**
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* The granularity of the seconds part of creationTime is 2 seconds
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* so this field is a count of tenths of a second and its valid
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* so this field is a count of tenths of a second and it's valid
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* value range is 0-199 inclusive. (WHG note - seems to be hundredths)
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*/
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uint8_t creationTimeTenths;
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@ -2,7 +2,7 @@
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http://www.k8400.eu/
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Configuration files for the K8400, ported upstream from the official Velleman firmware.
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Like it's predecessor, (K8200), the K8400 is a 3Drag clone. There are some minor differences, documented in pins_K8400.h.
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Like its predecessor, (K8200), the K8400 is a 3Drag clone. There are some minor differences, documented in pins_K8400.h.
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Single and dual head configurations provided. Copy the correct Configuration.h and Configuration_adv.h to the /Marlin/ directory.
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@ -95,7 +95,7 @@ static inline void handle_interrupts(timer16_Sequence_t timer, volatile uint16_t
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if (SERVO_INDEX(timer, Channel[timer]) < ServoCount && Channel[timer] < SERVOS_PER_TIMER) {
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*OCRnA = *TCNTn + SERVO(timer, Channel[timer]).ticks;
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if (SERVO(timer, Channel[timer]).Pin.isActive) // check if activated
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digitalWrite(SERVO(timer, Channel[timer]).Pin.nbr, HIGH); // its an active channel so pulse it high
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digitalWrite(SERVO(timer, Channel[timer]).Pin.nbr, HIGH); // it's an active channel so pulse it high
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}
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else {
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// finished all channels so wait for the refresh period to expire before starting over
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@ -38,18 +38,18 @@ typedef void (*twiRequestFunc_t)();
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/**
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* TWIBUS class
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*
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* This class implements a wrapper around the two wire (I2C) bus, it allows
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* Marlin to send and request data from any slave device on the bus. This is
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* an experimental feature and it's inner workings as well as public facing
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* interface are prune to change in the future.
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* This class implements a wrapper around the two wire (I2C) bus, allowing
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* Marlin to send and request data from any slave device on the bus.
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*
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* The two main consumers of this class are M260 and M261, where M260 allows
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* Marlin to send a I2C packet to a device (please be aware that no repeated
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* starts are possible), this can be done in caching method by calling multiple
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* times M260 B<byte-1 value in base 10> or a one liner M260, have a look at
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* the gcode_M260() function for more information. M261 allows Marlin to
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* request data from a device, the received data is then relayed into the serial
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* line for host interpretation.
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* The two main consumers of this class are M260 and M261. M260 provides a way
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* to send an I2C packet to a device (no repeated starts) by caching up to 32
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* bytes in a buffer and then sending the buffer.
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* M261 requests data from a device. The received data is relayed to serial out
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* for the host to interpret.
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*
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* For more information see
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* - http://marlinfw.org/docs/gcode/M260.html
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* - http://marlinfw.org/docs/gcode/M261.html
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*
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*/
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class TWIBus {
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