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Miscellaneous cleanup
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@ -63,54 +63,41 @@
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static uint8_t LEDs[8] = { 0 };
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#ifdef CPU_32_BIT
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#define MS_DELAY() delayMicroseconds(5) // 32-bit processors need a delay to stabilize the signal
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#else
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#define MS_DELAY() NOOP
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#endif
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void Max7219_PutByte(uint8_t data) {
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CRITICAL_SECTION_START
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for (uint8_t i = 8; i--;) {
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#ifdef CPU_32_BIT // The 32-bit processors are so fast, a small delay in the code is needed
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delayMicroseconds(5); // to let the signal wires stabilize.
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MS_DELAY();
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WRITE(MAX7219_CLK_PIN, LOW); // tick
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delayMicroseconds(5);
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MS_DELAY();
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WRITE(MAX7219_DIN_PIN, (data & 0x80) ? HIGH : LOW); // send 1 or 0 based on data bit
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delayMicroseconds(5);
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MS_DELAY();
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WRITE(MAX7219_CLK_PIN, HIGH); // tock
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delayMicroseconds(5);
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#else
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WRITE(MAX7219_CLK_PIN, LOW); // tick
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WRITE(MAX7219_DIN_PIN, (data & 0x80) ? HIGH : LOW); // send 1 or 0 based on data bit
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WRITE(MAX7219_CLK_PIN, HIGH); // tock
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#endif
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MS_DELAY();
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data <<= 1;
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}
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CRITICAL_SECTION_END
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}
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void Max7219(const uint8_t reg, const uint8_t data) {
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#ifdef CPU_32_BIT
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delayMicroseconds(5);
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#endif
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MS_DELAY();
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CRITICAL_SECTION_START
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WRITE(MAX7219_LOAD_PIN, LOW); // begin
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#ifdef CPU_32_BIT // The 32-bit processors are so fast, a small delay in the code is needed
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delayMicroseconds(5); // to let the signal wires stabilize.
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#endif
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MS_DELAY();
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Max7219_PutByte(reg); // specify register
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#ifdef CPU_32_BIT
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delayMicroseconds(5);
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#endif
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MS_DELAY();
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Max7219_PutByte(data); // put data
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#ifdef CPU_32_BIT
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delayMicroseconds(5);
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#endif
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MS_DELAY();
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WRITE(MAX7219_LOAD_PIN, LOW); // and tell the chip to load the data
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#ifdef CPU_32_BIT
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delayMicroseconds(5);
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#endif
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MS_DELAY();
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WRITE(MAX7219_LOAD_PIN, HIGH);
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CRITICAL_SECTION_END
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#ifdef CPU_32_BIT
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delayMicroseconds(5);
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#endif
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MS_DELAY();
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}
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void Max7219_LED_Set(const uint8_t row, const uint8_t col, const bool on) {
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@ -43,8 +43,8 @@ void GcodeSuite::M206() {
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set_home_offset((AxisEnum)i, parser.value_linear_units());
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#if ENABLED(MORGAN_SCARA)
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if (parser.seen('T')) set_home_offset(A_AXIS, parser.value_linear_units()); // Theta
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if (parser.seen('P')) set_home_offset(B_AXIS, parser.value_linear_units()); // Psi
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if (parser.seen('T')) set_home_offset(A_AXIS, parser.value_float()); // Theta
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if (parser.seen('P')) set_home_offset(B_AXIS, parser.value_float()); // Psi
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#endif
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report_current_position();
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@ -36,14 +36,14 @@ void GcodeSuite::M290() {
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#if ENABLED(BABYSTEP_XY)
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for (uint8_t a = X_AXIS; a <= Z_AXIS; a++)
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if (parser.seenval(axis_codes[a]) || (a == Z_AXIS && parser.seenval('S'))) {
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const float offs = constrain(parser.value_axis_units(a), -2, 2);
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const float offs = constrain(parser.value_axis_units((AxisEnum)a), -2, 2);
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#if ENABLED(BABYSTEP_ZPROBE_OFFSET)
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if (a == Z_AXIS) {
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zprobe_zoffset += offs;
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refresh_zprobe_zoffset(true); // 'true' to not babystep
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}
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#endif
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thermalManager.babystep_axis(a, offs * planner.axis_steps_per_mm[a]);
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thermalManager.babystep_axis((AxisEnum)a, offs * planner.axis_steps_per_mm[a]);
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}
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#else
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if (parser.seenval('Z') || parser.seenval('S')) {
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@ -542,8 +542,7 @@ void Planner::check_axes_activity() {
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}
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inline float calculate_volumetric_multiplier(const float &diameter) {
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if (!parser.volumetric_enabled || diameter == 0) return 1.0;
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return 1.0 / CIRCLE_AREA(diameter * 0.5);
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return (parser.volumetric_enabled && diameter) ? 1.0 / CIRCLE_AREA(diameter * 0.5) : 1.0;
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}
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void Planner::calculate_volumetric_multipliers() {
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