Merge pull request #1743 from AnHardt/extrudemultiply
Replace extrudemultiply by extruder_multiply[active_extruder]
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commit
346c07cc1a
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@ -229,7 +229,6 @@ void refresh_cmd_timeout(void);
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extern float homing_feedrate[];
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extern float homing_feedrate[];
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extern bool axis_relative_modes[];
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extern bool axis_relative_modes[];
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extern int feedmultiply;
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extern int feedmultiply;
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extern int extrudemultiply; // Sets extrude multiply factor (in percent) for all extruders
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extern bool volumetric_enabled;
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extern bool volumetric_enabled;
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extern int extruder_multiply[EXTRUDERS]; // sets extrude multiply factor (in percent) for each extruder individually
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extern int extruder_multiply[EXTRUDERS]; // sets extrude multiply factor (in percent) for each extruder individually
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extern float filament_size[EXTRUDERS]; // cross-sectional area of filament (in millimeters), typically around 1.75 or 2.85, 0 disables the volumetric calculations for the extruder.
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extern float filament_size[EXTRUDERS]; // cross-sectional area of filament (in millimeters), typically around 1.75 or 2.85, 0 disables the volumetric calculations for the extruder.
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@ -210,7 +210,6 @@ int homing_bump_divisor[] = HOMING_BUMP_DIVISOR;
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bool axis_relative_modes[] = AXIS_RELATIVE_MODES;
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bool axis_relative_modes[] = AXIS_RELATIVE_MODES;
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int feedmultiply = 100; //100->1 200->2
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int feedmultiply = 100; //100->1 200->2
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int saved_feedmultiply;
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int saved_feedmultiply;
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int extrudemultiply = 100; //100->1 200->2
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int extruder_multiply[EXTRUDERS] = ARRAY_BY_EXTRUDERS(100, 100, 100, 100);
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int extruder_multiply[EXTRUDERS] = ARRAY_BY_EXTRUDERS(100, 100, 100, 100);
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bool volumetric_enabled = false;
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bool volumetric_enabled = false;
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float filament_size[EXTRUDERS] = ARRAY_BY_EXTRUDERS(DEFAULT_NOMINAL_FILAMENT_DIA, DEFAULT_NOMINAL_FILAMENT_DIA, DEFAULT_NOMINAL_FILAMENT_DIA, DEFAULT_NOMINAL_FILAMENT_DIA);
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float filament_size[EXTRUDERS] = ARRAY_BY_EXTRUDERS(DEFAULT_NOMINAL_FILAMENT_DIA, DEFAULT_NOMINAL_FILAMENT_DIA, DEFAULT_NOMINAL_FILAMENT_DIA, DEFAULT_NOMINAL_FILAMENT_DIA);
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@ -3776,7 +3775,7 @@ inline void gcode_M221() {
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extruder_multiply[tmp_extruder] = sval;
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extruder_multiply[tmp_extruder] = sval;
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}
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}
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else {
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else {
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extrudemultiply = sval;
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extruder_multiply[active_extruder] = sval;
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}
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}
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}
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}
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}
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}
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@ -4213,7 +4212,7 @@ inline void gcode_M400() { st_synchronize(); }
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//SERIAL_PROTOCOLPGM("Filament dia (measured mm):");
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//SERIAL_PROTOCOLPGM("Filament dia (measured mm):");
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//SERIAL_PROTOCOL(filament_width_meas);
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//SERIAL_PROTOCOL(filament_width_meas);
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//SERIAL_PROTOCOLPGM("Extrusion ratio(%):");
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//SERIAL_PROTOCOLPGM("Extrusion ratio(%):");
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//SERIAL_PROTOCOL(extrudemultiply);
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//SERIAL_PROTOCOL(extruder_multiply[active_extruder]);
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}
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}
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/**
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/**
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@ -369,7 +369,7 @@ static void lcd_implementation_status_screen() {
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lcd_printPGM(PSTR("dia:"));
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lcd_printPGM(PSTR("dia:"));
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lcd_print(ftostr12ns(filament_width_meas));
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lcd_print(ftostr12ns(filament_width_meas));
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lcd_printPGM(PSTR(" factor:"));
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lcd_printPGM(PSTR(" factor:"));
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lcd_print(itostr3(extrudemultiply));
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lcd_print(itostr3(volumetric_multiplier[FILAMENT_SENSOR_EXTRUDER_NUM]));
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lcd_print('%');
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lcd_print('%');
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}
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}
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#endif
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#endif
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@ -545,7 +545,7 @@ float junction_deviation = 0.1;
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block->steps[Z_AXIS] = labs(dz);
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block->steps[Z_AXIS] = labs(dz);
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block->steps[E_AXIS] = labs(de);
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block->steps[E_AXIS] = labs(de);
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block->steps[E_AXIS] *= volumetric_multiplier[active_extruder];
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block->steps[E_AXIS] *= volumetric_multiplier[active_extruder];
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block->steps[E_AXIS] *= extrudemultiply;
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block->steps[E_AXIS] *= extruder_multiply[active_extruder];
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block->steps[E_AXIS] /= 100;
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block->steps[E_AXIS] /= 100;
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block->step_event_count = max(block->steps[X_AXIS], max(block->steps[Y_AXIS], max(block->steps[Z_AXIS], block->steps[E_AXIS])));
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block->step_event_count = max(block->steps[X_AXIS], max(block->steps[Y_AXIS], max(block->steps[Z_AXIS], block->steps[E_AXIS])));
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@ -679,7 +679,7 @@ float junction_deviation = 0.1;
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delta_mm[Y_AXIS] = dy / axis_steps_per_unit[Y_AXIS];
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delta_mm[Y_AXIS] = dy / axis_steps_per_unit[Y_AXIS];
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#endif
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#endif
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delta_mm[Z_AXIS] = dz / axis_steps_per_unit[Z_AXIS];
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delta_mm[Z_AXIS] = dz / axis_steps_per_unit[Z_AXIS];
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delta_mm[E_AXIS] = (de / axis_steps_per_unit[E_AXIS]) * volumetric_multiplier[active_extruder] * extrudemultiply / 100.0;
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delta_mm[E_AXIS] = (de / axis_steps_per_unit[E_AXIS]) * volumetric_multiplier[active_extruder] * extruder_multiply[active_extruder] / 100.0;
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if (block->steps[X_AXIS] <= dropsegments && block->steps[Y_AXIS] <= dropsegments && block->steps[Z_AXIS] <= dropsegments) {
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if (block->steps[X_AXIS] <= dropsegments && block->steps[Y_AXIS] <= dropsegments && block->steps[Z_AXIS] <= dropsegments) {
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block->millimeters = fabs(delta_mm[E_AXIS]);
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block->millimeters = fabs(delta_mm[E_AXIS]);
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@ -485,7 +485,7 @@ static void lcd_tune_menu() {
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MENU_MULTIPLIER_ITEM_EDIT(int3, MSG_BED, &target_temperature_bed, 0, BED_MAXTEMP - 15);
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MENU_MULTIPLIER_ITEM_EDIT(int3, MSG_BED, &target_temperature_bed, 0, BED_MAXTEMP - 15);
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#endif
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#endif
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MENU_MULTIPLIER_ITEM_EDIT(int3, MSG_FAN_SPEED, &fanSpeed, 0, 255);
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MENU_MULTIPLIER_ITEM_EDIT(int3, MSG_FAN_SPEED, &fanSpeed, 0, 255);
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MENU_ITEM_EDIT(int3, MSG_FLOW, &extrudemultiply, 10, 999);
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MENU_ITEM_EDIT(int3, MSG_FLOW, &extruder_multiply[active_extruder], 10, 999);
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MENU_ITEM_EDIT(int3, MSG_FLOW MSG_F0, &extruder_multiply[0], 10, 999);
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MENU_ITEM_EDIT(int3, MSG_FLOW MSG_F0, &extruder_multiply[0], 10, 999);
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#if TEMP_SENSOR_1 != 0
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#if TEMP_SENSOR_1 != 0
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MENU_ITEM_EDIT(int3, MSG_FLOW MSG_F1, &extruder_multiply[1], 10, 999);
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MENU_ITEM_EDIT(int3, MSG_FLOW MSG_F1, &extruder_multiply[1], 10, 999);
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