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/*
TODO LIST
- - - - - - - - -
1. cooling moves - DONE
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2. account for perimeter and finish_layer extrusions and subtract it from last wipe - DONE
3. priming extrusions ( last wipe must clear the color )
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4. Peter ' s wipe tower - layer ' s are not exactly square
5. Peter ' s wipe tower - variable width for higher levels
6. Peter ' s wipe tower - make sure it is not too sparse ( apply max_bridge_distance and make last wipe longer )
7. Peter ' s wipe tower - enable enhanced first layer adhesion
*/
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# include "WipeTowerPrusaMM.hpp"
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# include <assert.h>
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# include <math.h>
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# include <fstream>
# include <iostream>
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# include <vector>
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# include <numeric>
# include <algorithm>
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# include "Analyzer.hpp"
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# if defined(__linux) || defined(__GNUC__ )
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# include <strings.h>
# endif /* __linux */
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# ifdef _MSC_VER
# define strcasecmp _stricmp
# endif
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namespace Slic3r
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{
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namespace PrusaMultiMaterial {
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class Writer
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{
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public :
Writer ( ) :
m_current_pos ( std : : numeric_limits < float > : : max ( ) , std : : numeric_limits < float > : : max ( ) ) ,
m_current_z ( 0.f ) ,
m_current_feedrate ( 0.f ) ,
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m_layer_height ( 0.f ) ,
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m_extrusion_flow ( 0.f ) ,
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m_preview_suppressed ( false ) ,
m_elapsed_time ( 0.f ) { }
Writer & set_initial_position ( const WipeTower : : xy & pos ) {
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m_start_pos = WipeTower : : xy ( pos , 0.f , m_y_shift ) . rotate ( m_wipe_tower_pos , m_wipe_tower_width , m_wipe_tower_depth , m_angle_deg ) ;
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m_current_pos = pos ;
return * this ;
}
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Writer & set_initial_tool ( const unsigned int tool ) { m_current_tool = tool ; return * this ; }
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Writer & set_z ( float z )
{ m_current_z = z ; return * this ; }
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Writer & set_layer_height ( float layer_height )
{ m_layer_height = layer_height ; return * this ; }
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Writer & set_extrusion_flow ( float flow )
{ m_extrusion_flow = flow ; return * this ; }
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Writer & set_rotation ( WipeTower : : xy & pos , float width , float depth , float angle )
{ m_wipe_tower_pos = pos ; m_wipe_tower_width = width ; m_wipe_tower_depth = depth ; m_angle_deg = angle ; return ( * this ) ; }
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Writer & set_y_shift ( float shift ) {
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m_current_pos . y - = shift - m_y_shift ;
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m_y_shift = shift ;
return ( * this ) ;
}
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// Suppress / resume G-code preview in Slic3r. Slic3r will have difficulty to differentiate the various
// filament loading and cooling moves from normal extrusion moves. Therefore the writer
// is asked to suppres output of some lines, which look like extrusions.
Writer & suppress_preview ( ) { m_preview_suppressed = true ; return * this ; }
Writer & resume_preview ( ) { m_preview_suppressed = false ; return * this ; }
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Writer & feedrate ( float f )
{
if ( f ! = m_current_feedrate )
m_gcode + = " G1 " + set_format_F ( f ) + " \n " ;
return * this ;
}
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const std : : string & gcode ( ) const { return m_gcode ; }
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const std : : vector < WipeTower : : Extrusion > & extrusions ( ) const { return m_extrusions ; }
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float x ( ) const { return m_current_pos . x ; }
float y ( ) const { return m_current_pos . y ; }
const WipeTower : : xy & pos ( ) const { return m_current_pos ; }
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const WipeTower : : xy start_pos_rotated ( ) const { return m_start_pos ; }
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const WipeTower : : xy pos_rotated ( ) const { return WipeTower : : xy ( m_current_pos , 0.f , m_y_shift ) . rotate ( m_wipe_tower_pos , m_wipe_tower_width , m_wipe_tower_depth , m_angle_deg ) ; }
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float elapsed_time ( ) const { return m_elapsed_time ; }
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// Extrude with an explicitely provided amount of extrusion.
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Writer & extrude_explicit ( float x , float y , float e , float f = 0.f )
{
if ( x = = m_current_pos . x & & y = = m_current_pos . y & & e = = 0.f & & ( f = = 0.f | | f = = m_current_feedrate ) )
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// Neither extrusion nor a travel move.
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return * this ;
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float dx = x - m_current_pos . x ;
float dy = y - m_current_pos . y ;
double len = sqrt ( dx * dx + dy * dy ) ;
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// For rotated wipe tower, transform position to printer coordinates
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WipeTower : : xy rotated_current_pos ( WipeTower : : xy ( m_current_pos , 0.f , m_y_shift ) . rotate ( m_wipe_tower_pos , m_wipe_tower_width , m_wipe_tower_depth , m_angle_deg ) ) ; // this is where we are
WipeTower : : xy rot ( WipeTower : : xy ( x , y + m_y_shift ) . rotate ( m_wipe_tower_pos , m_wipe_tower_width , m_wipe_tower_depth , m_angle_deg ) ) ; // this is where we want to go
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if ( ! m_preview_suppressed & & e > 0.f & & len > 0. ) {
// Width of a squished extrusion, corrected for the roundings of the squished extrusions.
// This is left zero if it is a travel move.
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float width = float ( double ( e ) * /*Filament_Area*/ 2.40528 / ( len * m_layer_height ) ) ;
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// Correct for the roundings of a squished extrusion.
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width + = m_layer_height * float ( 1. - M_PI / 4. ) ;
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if ( m_extrusions . empty ( ) | | m_extrusions . back ( ) . pos ! = rotated_current_pos )
m_extrusions . emplace_back ( WipeTower : : Extrusion ( rotated_current_pos , 0 , m_current_tool ) ) ;
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m_extrusions . emplace_back ( WipeTower : : Extrusion ( WipeTower : : xy ( rot . x , rot . y ) , width , m_current_tool ) ) ;
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}
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// adds tag for analyzer
char buf [ 64 ] ;
sprintf ( buf , " ;%s%d \n " , GCodeAnalyzer : : Extrusion_Role_Tag . c_str ( ) , erWipeTower ) ;
m_gcode + = buf ;
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m_gcode + = " G1 " ;
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if ( rot . x ! = rotated_current_pos . x ) {
m_gcode + = set_format_X ( rot . x ) ; // Transform current position back to wipe tower coordinates (was updated by set_format_X)
m_current_pos . x = x ;
}
if ( rot . y ! = rotated_current_pos . y ) {
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m_gcode + = set_format_Y ( rot . y ) ;
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m_current_pos . y = y ;
}
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if ( e ! = 0.f )
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m_gcode + = set_format_E ( e ) ;
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if ( f ! = 0.f & & f ! = m_current_feedrate )
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m_gcode + = set_format_F ( f ) ;
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// Update the elapsed time with a rough estimate.
m_elapsed_time + = ( ( len = = 0 ) ? std : : abs ( e ) : len ) / m_current_feedrate * 60.f ;
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m_gcode + = " \n " ;
return * this ;
}
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Writer & extrude_explicit ( const WipeTower : : xy & dest , float e , float f = 0.f )
{ return extrude_explicit ( dest . x , dest . y , e , f ) ; }
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// Travel to a new XY position. f=0 means use the current value.
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Writer & travel ( float x , float y , float f = 0.f )
{ return extrude_explicit ( x , y , 0.f , f ) ; }
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Writer & travel ( const WipeTower : : xy & dest , float f = 0.f )
{ return extrude_explicit ( dest . x , dest . y , 0.f , f ) ; }
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// Extrude a line from current position to x, y with the extrusion amount given by m_extrusion_flow.
Writer & extrude ( float x , float y , float f = 0.f )
{
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float dx = x - m_current_pos . x ;
float dy = y - m_current_pos . y ;
return extrude_explicit ( x , y , sqrt ( dx * dx + dy * dy ) * m_extrusion_flow , f ) ;
}
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Writer & extrude ( const WipeTower : : xy & dest , const float f = 0.f )
{ return extrude ( dest . x , dest . y , f ) ; }
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Writer & rectangle ( const WipeTower : : xy & ld , float width , float height , const float f = 0.f )
{
WipeTower : : xy corners [ 4 ] ;
corners [ 0 ] = ld ;
corners [ 1 ] = WipeTower : : xy ( ld , width , 0.f ) ;
corners [ 2 ] = WipeTower : : xy ( ld , width , height ) ;
corners [ 3 ] = WipeTower : : xy ( ld , 0.f , height ) ;
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int index_of_closest = 0 ;
if ( x ( ) - ld . x > ld . x + width - x ( ) ) // closer to the right
index_of_closest = 1 ;
if ( y ( ) - ld . y > ld . y + height - y ( ) ) // closer to the top
index_of_closest = ( index_of_closest = = 0 ? 3 : 2 ) ;
travel ( corners [ index_of_closest ] . x , y ( ) ) ; // travel to the closest corner
travel ( x ( ) , corners [ index_of_closest ] . y ) ;
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int i = index_of_closest ;
do {
+ + i ;
if ( i = = 4 ) i = 0 ;
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extrude ( corners [ i ] ) ;
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} while ( i ! = index_of_closest ) ;
return ( * this ) ;
}
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Writer & load ( float e , float f = 0.f )
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{
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if ( e = = 0.f & & ( f = = 0.f | | f = = m_current_feedrate ) )
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return * this ;
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m_gcode + = " G1 " ;
if ( e ! = 0.f )
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m_gcode + = set_format_E ( e ) ;
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if ( f ! = 0.f & & f ! = m_current_feedrate )
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m_gcode + = set_format_F ( f ) ;
m_gcode + = " \n " ;
return * this ;
}
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// Derectract while moving in the X direction.
// If |x| > 0, the feed rate relates to the x distance,
// otherwise the feed rate relates to the e distance.
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Writer & load_move_x ( float x , float e , float f = 0.f )
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{ return extrude_explicit ( x , m_current_pos . y , e , f ) ; }
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Writer & retract ( float e , float f = 0.f )
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{ return load ( - e , f ) ; }
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// Elevate the extruder head above the current print_z position.
Writer & z_hop ( float hop , float f = 0.f )
{
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m_gcode + = std : : string ( " G1 " ) + set_format_Z ( m_current_z + hop ) ;
if ( f ! = 0 & & f ! = m_current_feedrate )
m_gcode + = set_format_F ( f ) ;
m_gcode + = " \n " ;
return * this ;
}
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// Lower the extruder head back to the current print_z position.
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Writer & z_hop_reset ( float f = 0.f )
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{ return z_hop ( 0 , f ) ; }
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// Move to x1, +y_increment,
// extrude quickly amount e to x2 with feed f.
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Writer & ram ( float x1 , float x2 , float dy , float e0 , float e , float f )
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{
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extrude_explicit ( x1 , m_current_pos . y + dy , e0 , f ) ;
extrude_explicit ( x2 , m_current_pos . y , e ) ;
return * this ;
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}
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// Let the end of the pulled out filament cool down in the cooling tube
// by moving up and down and moving the print head left / right
// at the current Y position to spread the leaking material.
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Writer & cool ( float x1 , float x2 , float e1 , float e2 , float f )
{
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extrude_explicit ( x1 , m_current_pos . y , e1 , f ) ;
extrude_explicit ( x2 , m_current_pos . y , e2 ) ;
return * this ;
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}
Writer & set_tool ( int tool )
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{
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char buf [ 64 ] ;
sprintf ( buf , " T%d \n " , tool ) ;
m_gcode + = buf ;
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m_current_tool = tool ;
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return * this ;
}
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// Set extruder temperature, don't wait by default.
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Writer & set_extruder_temp ( int temperature , bool wait = false )
{
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if ( temperature ! = current_temp ) {
char buf [ 128 ] ;
sprintf ( buf , " M%d S%d \n " , wait ? 109 : 104 , temperature ) ;
m_gcode + = buf ;
current_temp = temperature ;
}
return * this ;
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} ;
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// Wait for a period of time (seconds).
Writer & wait ( float time )
{
if ( time = = 0 )
return * this ;
char buf [ 128 ] ;
sprintf ( buf , " G4 S%.3f \n " , time ) ;
m_gcode + = buf ;
return * this ;
} ;
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// Set speed factor override percentage.
Writer & speed_override ( int speed )
{
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char buf [ 128 ] ;
sprintf ( buf , " M220 S%d \n " , speed ) ;
m_gcode + = buf ;
return * this ;
} ;
// Set digital trimpot motor
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Writer & set_extruder_trimpot ( int current )
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{
char buf [ 128 ] ;
sprintf ( buf , " M907 E%d \n " , current ) ;
m_gcode + = buf ;
return * this ;
} ;
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Writer & flush_planner_queue ( )
{
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m_gcode + = " G4 S0 \n " ;
return * this ;
}
// Reset internal extruder counter.
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Writer & reset_extruder ( )
{
m_gcode + = " G92 E0 \n " ;
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return * this ;
}
Writer & comment_with_value ( const char * comment , int value )
{
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char strvalue [ 64 ] ;
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sprintf ( strvalue , " %d " , value ) ;
m_gcode + = std : : string ( " ; " ) + comment + strvalue + " \n " ;
return * this ;
} ;
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Writer & set_fan ( unsigned int speed )
{
if ( speed = = m_last_fan_speed )
return * this ;
if ( speed = = 0 )
m_gcode + = " M107 \n " ;
else
{
m_gcode + = " M106 S " ;
char buf [ 128 ] ;
sprintf ( buf , " %u \n " , ( unsigned int ) ( 255.0 * speed / 100.0 ) ) ;
m_gcode + = buf ;
}
m_last_fan_speed = speed ;
return * this ;
}
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Writer & comment_material ( WipeTowerPrusaMM : : material_type material )
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{
m_gcode + = " ; material : " ;
switch ( material )
{
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case WipeTowerPrusaMM : : PVA :
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m_gcode + = " #8 (PVA) " ;
break ;
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case WipeTowerPrusaMM : : SCAFF :
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m_gcode + = " #5 (Scaffold) " ;
break ;
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case WipeTowerPrusaMM : : FLEX :
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m_gcode + = " #4 (Flex) " ;
break ;
default :
m_gcode + = " DEFAULT (PLA) " ;
break ;
}
m_gcode + = " \n " ;
return * this ;
} ;
Writer & append ( const char * text ) { m_gcode + = text ; return * this ; }
private :
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WipeTower : : xy m_start_pos ;
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WipeTower : : xy m_current_pos ;
float m_current_z ;
float m_current_feedrate ;
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unsigned int m_current_tool ;
float m_layer_height ;
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float m_extrusion_flow ;
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bool m_preview_suppressed ;
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std : : string m_gcode ;
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std : : vector < WipeTower : : Extrusion > m_extrusions ;
float m_elapsed_time ;
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float m_angle_deg = 0.f ;
float m_y_shift = 0.f ;
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WipeTower : : xy m_wipe_tower_pos ;
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float m_wipe_tower_width = 0.f ;
float m_wipe_tower_depth = 0.f ;
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float m_last_fan_speed = 0.f ;
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int current_temp = - 1 ;
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std : : string
set_format_X ( float x )
{
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char buf [ 64 ] ;
sprintf ( buf , " X%.3f " , x ) ;
m_current_pos . x = x ;
return buf ;
}
std : : string set_format_Y ( float y ) {
char buf [ 64 ] ;
sprintf ( buf , " Y%.3f " , y ) ;
m_current_pos . y = y ;
return buf ;
}
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std : : string set_format_Z ( float z ) {
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char buf [ 64 ] ;
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sprintf ( buf , " Z%.3f " , z ) ;
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return buf ;
}
std : : string set_format_E ( float e ) {
char buf [ 64 ] ;
sprintf ( buf , " E%.4f " , e ) ;
return buf ;
}
std : : string set_format_F ( float f ) {
char buf [ 64 ] ;
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sprintf ( buf , " F%d " , int ( floor ( f + 0.5f ) ) ) ;
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m_current_feedrate = f ;
return buf ;
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}
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Writer & operator = ( const Writer & rhs ) ;
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} ; // class Writer
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} ; // namespace PrusaMultiMaterial
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WipeTowerPrusaMM : : material_type WipeTowerPrusaMM : : parse_material ( const char * name )
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{
if ( strcasecmp ( name , " PLA " ) = = 0 )
return PLA ;
if ( strcasecmp ( name , " ABS " ) = = 0 )
return ABS ;
if ( strcasecmp ( name , " PET " ) = = 0 )
return PET ;
if ( strcasecmp ( name , " HIPS " ) = = 0 )
return HIPS ;
if ( strcasecmp ( name , " FLEX " ) = = 0 )
return FLEX ;
if ( strcasecmp ( name , " SCAFF " ) = = 0 )
return SCAFF ;
if ( strcasecmp ( name , " EDGE " ) = = 0 )
return EDGE ;
if ( strcasecmp ( name , " NGEN " ) = = 0 )
return NGEN ;
if ( strcasecmp ( name , " PVA " ) = = 0 )
return PVA ;
return INVALID ;
}
2018-03-15 13:04:12 +00:00
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// Returns gcode to prime the nozzles at the front edge of the print bed.
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WipeTower : : ToolChangeResult WipeTowerPrusaMM : : prime (
// print_z of the first layer.
float first_layer_height ,
// Extruder indices, in the order to be primed. The last extruder will later print the wipe tower brim, print brim and the object.
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const std : : vector < unsigned int > & tools ,
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// If true, the last priming are will be the same as the other priming areas, and the rest of the wipe will be performed inside the wipe tower.
// If false, the last priming are will be large enough to wipe the last extruder sufficiently.
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bool last_wipe_inside_wipe_tower )
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{
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this - > set_layer ( first_layer_height , first_layer_height , tools . size ( ) , true , false ) ;
this - > m_current_tool = tools . front ( ) ;
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// The Prusa i3 MK2 has a working space of [0, -2.2] to [250, 210].
// Due to the XYZ calibration, this working space may shrink slightly from all directions,
// therefore the homing position is shifted inside the bed by 0.2 in the firmware to [0.2, -2.0].
// box_coordinates cleaning_box(xy(0.5f, - 1.5f), m_wipe_tower_width, wipe_area);
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const float prime_section_width = std : : min ( 240.f / tools . size ( ) , 60.f ) ;
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box_coordinates cleaning_box ( xy ( 5.f , 0.f ) , prime_section_width , 100.f ) ;
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PrusaMultiMaterial : : Writer writer ;
writer . set_extrusion_flow ( m_extrusion_flow )
. set_z ( m_z_pos )
. set_layer_height ( m_layer_height )
. set_initial_tool ( m_current_tool )
. append ( " ;-------------------- \n "
" ; CP PRIMING START \n " )
. append ( " ;-------------------- \n " )
. speed_override ( 100 ) ;
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writer . set_initial_position ( xy ( 0.f , 0.f ) ) // Always move to the starting position
. travel ( cleaning_box . ld , 7200 )
. set_extruder_trimpot ( 750 ) ; // Increase the extruder driver current to allow fast ramming.
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for ( size_t idx_tool = 0 ; idx_tool < tools . size ( ) ; + + idx_tool ) {
unsigned int tool = tools [ idx_tool ] ;
m_left_to_right = true ;
toolchange_Change ( writer , tool , m_filpar [ tool ] . material ) ; // Select the tool, set a speed override for soluble and flex materials.
toolchange_Load ( writer , cleaning_box ) ; // Prime the tool.
if ( idx_tool + 1 = = tools . size ( ) ) {
// Last tool should not be unloaded, but it should be wiped enough to become of a pure color.
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toolchange_Wipe ( writer , cleaning_box , wipe_volumes [ tools [ idx_tool - 1 ] ] [ tool ] ) ;
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} else {
// Ram the hot material out of the melt zone, retract the filament into the cooling tubes and let it cool.
//writer.travel(writer.x(), writer.y() + m_perimeter_width, 7200);
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toolchange_Wipe ( writer , cleaning_box , 20.f ) ;
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box_coordinates box = cleaning_box ;
box . translate ( 0.f , writer . y ( ) - cleaning_box . ld . y + m_perimeter_width ) ;
toolchange_Unload ( writer , box , m_filpar [ m_current_tool ] . material , m_filpar [ tools [ idx_tool + 1 ] ] . first_layer_temperature ) ;
cleaning_box . translate ( prime_section_width , 0.f ) ;
writer . travel ( cleaning_box . ld , 7200 ) ;
}
+ + m_num_tool_changes ;
}
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// Reset the extruder current to a normal value.
writer . set_extruder_trimpot ( 550 )
. feedrate ( 6000 )
. flush_planner_queue ( )
. reset_extruder ( )
. append ( " ; CP PRIMING END \n "
" ;------------------ \n "
" \n \n " ) ;
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// so that tool_change() will know to extrude the wipe tower brim:
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m_print_brim = true ;
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ToolChangeResult result ;
result . print_z = this - > m_z_pos ;
result . layer_height = this - > m_layer_height ;
result . gcode = writer . gcode ( ) ;
result . elapsed_time = writer . elapsed_time ( ) ;
result . extrusions = writer . extrusions ( ) ;
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result . start_pos = writer . start_pos_rotated ( ) ;
result . end_pos = writer . pos_rotated ( ) ;
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return result ;
}
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WipeTower : : ToolChangeResult WipeTowerPrusaMM : : tool_change ( unsigned int tool , bool last_in_layer )
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{
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if ( m_print_brim )
return toolchange_Brim ( ) ;
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float wipe_area = 0.f ;
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bool last_change_in_layer = false ;
float wipe_volume = 0.f ;
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// Finds this toolchange info
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if ( tool ! = ( unsigned int ) ( - 1 ) )
{
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for ( const auto & b : m_layer_info - > tool_changes )
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if ( b . new_tool = = tool ) {
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wipe_volume = wipe_volumes [ b . old_tool ] [ b . new_tool ] ;
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if ( tool = = m_layer_info - > tool_changes . back ( ) . new_tool )
last_change_in_layer = true ;
wipe_area = b . required_depth * m_layer_info - > extra_spacing ;
break ;
}
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}
else {
// Otherwise we are going to Unload only. And m_layer_info would be invalid.
}
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box_coordinates cleaning_box (
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m_wipe_tower_pos + xy ( m_perimeter_width / 2.f , m_perimeter_width / 2.f ) ,
m_wipe_tower_width - m_perimeter_width ,
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( tool ! = ( unsigned int ) ( - 1 ) ? /*m_layer_info->depth*/ wipe_area + m_depth_traversed - 0.5 * m_perimeter_width
: m_wipe_tower_depth - m_perimeter_width ) ) ;
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PrusaMultiMaterial : : Writer writer ;
writer . set_extrusion_flow ( m_extrusion_flow )
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. set_z ( m_z_pos )
. set_layer_height ( m_layer_height )
. set_initial_tool ( m_current_tool )
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. set_rotation ( m_wipe_tower_pos , m_wipe_tower_width , m_wipe_tower_depth , m_wipe_tower_rotation_angle )
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. set_y_shift ( m_y_shift + ( tool ! = ( unsigned int ) ( - 1 ) & & ( m_current_shape = = SHAPE_REVERSED & & ! m_peters_wipe_tower ) ? m_layer_info - > depth - m_layer_info - > toolchanges_depth ( ) : 0.f ) )
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. append ( " ;-------------------- \n "
" ; CP TOOLCHANGE START \n " )
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. comment_with_value ( " toolchange # " , m_num_tool_changes + 1 ) // the number is zero-based
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. comment_material ( m_filpar [ m_current_tool ] . material )
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. append ( " ;-------------------- \n " )
. speed_override ( 100 ) ;
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xy initial_position = cleaning_box . ld + WipeTower : : xy ( 0.f , m_depth_traversed ) ;
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writer . set_initial_position ( initial_position ) ;
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// Increase the extruder driver current to allow fast ramming.
writer . set_extruder_trimpot ( 750 ) ;
// Ram the hot material out of the melt zone, retract the filament into the cooling tubes and let it cool.
if ( tool ! = ( unsigned int ) - 1 ) { // This is not the last change.
toolchange_Unload ( writer , cleaning_box , m_filpar [ m_current_tool ] . material ,
m_is_first_layer ? m_filpar [ tool ] . first_layer_temperature : m_filpar [ tool ] . temperature ) ;
toolchange_Change ( writer , tool , m_filpar [ tool ] . material ) ; // Change the tool, set a speed override for soluble and flex materials.
toolchange_Load ( writer , cleaning_box ) ;
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writer . travel ( writer . x ( ) , writer . y ( ) - m_perimeter_width ) ; // cooling and loading were done a bit down the road
toolchange_Wipe ( writer , cleaning_box , wipe_volume ) ; // Wipe the newly loaded filament until the end of the assigned wipe area.
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} else
toolchange_Unload ( writer , cleaning_box , m_filpar [ m_current_tool ] . material , m_filpar [ m_current_tool ] . temperature ) ;
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+ + m_num_tool_changes ;
m_depth_traversed + = wipe_area ;
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if ( last_change_in_layer ) { // draw perimeter line
writer . set_y_shift ( m_y_shift ) ;
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if ( m_peters_wipe_tower )
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writer . rectangle ( m_wipe_tower_pos , m_layer_info - > depth + 3 * m_perimeter_width , m_wipe_tower_depth ) ;
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else {
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writer . rectangle ( m_wipe_tower_pos , m_wipe_tower_width , m_layer_info - > depth + m_perimeter_width ) ;
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if ( layer_finished ( ) ) { // no finish_layer will be called, we must wipe the nozzle
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writer . travel ( m_wipe_tower_pos . x + ( writer . x ( ) > ( m_wipe_tower_pos . x + m_wipe_tower_width ) / 2.f ? 0.f : m_wipe_tower_width ) , writer . y ( ) ) ;
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}
}
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}
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writer . set_extruder_trimpot ( 550 ) // Reset the extruder current to a normal value.
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. feedrate ( 6000 )
. flush_planner_queue ( )
. reset_extruder ( )
. append ( " ; CP TOOLCHANGE END \n "
" ;------------------ \n "
" \n \n " ) ;
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ToolChangeResult result ;
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result . print_z = this - > m_z_pos ;
result . layer_height = this - > m_layer_height ;
result . gcode = writer . gcode ( ) ;
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result . elapsed_time = writer . elapsed_time ( ) ;
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result . extrusions = writer . extrusions ( ) ;
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result . start_pos = writer . start_pos_rotated ( ) ;
result . end_pos = writer . pos_rotated ( ) ;
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return result ;
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}
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WipeTower : : ToolChangeResult WipeTowerPrusaMM : : toolchange_Brim ( bool sideOnly , float y_offset )
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{
const box_coordinates wipeTower_box (
m_wipe_tower_pos ,
m_wipe_tower_width ,
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m_wipe_tower_depth ) ;
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PrusaMultiMaterial : : Writer writer ;
writer . set_extrusion_flow ( m_extrusion_flow * 1.1f )
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. set_z ( m_z_pos ) // Let the writer know the current Z position as a base for Z-hop.
. set_layer_height ( m_layer_height )
. set_initial_tool ( m_current_tool )
. set_rotation ( m_wipe_tower_pos , m_wipe_tower_width , m_wipe_tower_depth , m_wipe_tower_rotation_angle )
. append ( " ;------------------------------------- \n "
" ; CP WIPE TOWER FIRST LAYER BRIM START \n " ) ;
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2017-07-20 10:58:51 +00:00
xy initial_position = wipeTower_box . lu - xy ( m_perimeter_width * 6.f , 0 ) ;
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writer . set_initial_position ( initial_position ) ;
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2018-05-07 12:23:07 +00:00
writer . extrude_explicit ( wipeTower_box . ld - xy ( m_perimeter_width * 6.f , 0 ) , // Prime the extruder left of the wipe tower.
1.5f * m_extrusion_flow * ( wipeTower_box . lu . y - wipeTower_box . ld . y ) , 2400 ) ;
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// The tool is supposed to be active and primed at the time when the wipe tower brim is extruded.
// Extrude 4 rounds of a brim around the future wipe tower.
box_coordinates box ( wipeTower_box ) ;
box . expand ( m_perimeter_width ) ;
for ( size_t i = 0 ; i < 4 ; + + i ) {
writer . travel ( box . ld , 7000 )
. extrude ( box . lu , 2100 ) . extrude ( box . ru )
. extrude ( box . rd ) . extrude ( box . ld ) ;
box . expand ( m_perimeter_width ) ;
}
2018-02-21 12:07:32 +00:00
2018-03-08 15:44:52 +00:00
writer . travel ( wipeTower_box . ld , 7000 ) ; // Move to the front left corner.
writer . travel ( wipeTower_box . rd ) // Always wipe the nozzle with a long wipe to reduce stringing when moving away from the wipe tower.
. travel ( wipeTower_box . ld ) ;
writer . append ( " ; CP WIPE TOWER FIRST LAYER BRIM END \n "
" ;----------------------------------- \n " ) ;
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2018-03-08 15:44:52 +00:00
m_print_brim = false ; // Mark the brim as extruded
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2017-05-25 20:27:53 +00:00
ToolChangeResult result ;
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result . print_z = this - > m_z_pos ;
result . layer_height = this - > m_layer_height ;
result . gcode = writer . gcode ( ) ;
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result . elapsed_time = writer . elapsed_time ( ) ;
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result . extrusions = writer . extrusions ( ) ;
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result . start_pos = writer . start_pos_rotated ( ) ;
result . end_pos = writer . pos_rotated ( ) ;
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return result ;
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}
2018-02-21 12:07:32 +00:00
2017-05-12 08:44:56 +00:00
// Ram the hot material out of the melt zone, retract the filament into the cooling tubes and let it cool.
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void WipeTowerPrusaMM : : toolchange_Unload (
PrusaMultiMaterial : : Writer & writer ,
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const box_coordinates & cleaning_box ,
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const material_type current_material ,
const int new_temperature )
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{
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float xl = cleaning_box . ld . x + 1.f * m_perimeter_width ;
float xr = cleaning_box . rd . x - 1.f * m_perimeter_width ;
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2017-05-18 14:53:19 +00:00
writer . append ( " ; CP TOOLCHANGE UNLOAD \n " ) ;
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const float line_width = m_perimeter_width * m_filpar [ m_current_tool ] . ramming_line_width_multiplicator ; // desired ramming line thickness
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const float y_step = line_width * m_filpar [ m_current_tool ] . ramming_step_multiplicator * m_extra_spacing ; // spacing between lines in mm
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unsigned i = 0 ; // iterates through ramming_speed
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m_left_to_right = true ; // current direction of ramming
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float remaining = xr - xl ; // keeps track of distance to the next turnaround
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float e_done = 0 ; // measures E move done from each segment
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writer . travel ( xl , cleaning_box . ld . y + m_depth_traversed + y_step / 2.f ) ; // move to starting position
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2018-03-07 10:44:47 +00:00
// if the ending point of the ram would end up in mid air, align it with the end of the wipe tower:
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if ( m_layer_info > m_plan . begin ( ) & & m_layer_info < m_plan . end ( ) & & ( m_layer_info - 1 ! = m_plan . begin ( ) | | ! m_adhesion ) ) {
2018-03-07 10:44:47 +00:00
2018-03-07 14:34:12 +00:00
// this is y of the center of previous sparse infill border
float sparse_beginning_y = m_wipe_tower_pos . y ;
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if ( m_current_shape = = SHAPE_REVERSED )
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sparse_beginning_y + = ( ( m_layer_info - 1 ) - > depth - ( m_layer_info - 1 ) - > toolchanges_depth ( ) )
- ( ( m_layer_info ) - > depth - ( m_layer_info ) - > toolchanges_depth ( ) ) ;
else
sparse_beginning_y + = ( m_layer_info - 1 ) - > toolchanges_depth ( ) + m_perimeter_width ;
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//debugging:
/* float oldx = writer.x();
float oldy = writer . y ( ) ;
writer . travel ( xr , sparse_beginning_y ) ;
writer . extrude ( xr + 5 , writer . y ( ) ) ;
writer . travel ( oldx , oldy ) ; */
float sum_of_depths = 0.f ;
for ( const auto & tch : m_layer_info - > tool_changes ) { // let's find this toolchange
if ( tch . old_tool = = m_current_tool ) {
sum_of_depths + = tch . ramming_depth ;
float ramming_end_y = m_wipe_tower_pos . y + sum_of_depths ;
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ramming_end_y - = ( y_step / m_extra_spacing - m_perimeter_width ) / 2.f ; // center of final ramming line
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// debugging:
/*float oldx = writer.x();
float oldy = writer . y ( ) ;
writer . travel ( xl , ramming_end_y ) ;
writer . extrude ( xl - 15 , writer . y ( ) ) ;
writer . travel ( oldx , oldy ) ; */
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if ( ( m_current_shape = = SHAPE_REVERSED & & ramming_end_y < sparse_beginning_y - 0.5f * m_perimeter_width ) | |
( m_current_shape = = SHAPE_NORMAL & & ramming_end_y > sparse_beginning_y + 0.5f * m_perimeter_width ) )
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{
writer . extrude ( xl + tch . first_wipe_line - 1.f * m_perimeter_width , writer . y ( ) ) ;
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remaining - = tch . first_wipe_line - 1.f * m_perimeter_width ;
}
break ;
}
sum_of_depths + = tch . required_depth ;
}
}
// now the ramming itself:
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while ( i < m_filpar [ m_current_tool ] . ramming_speed . size ( ) )
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{
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const float x = volume_to_length ( m_filpar [ m_current_tool ] . ramming_speed [ i ] * 0.25f , line_width , m_layer_height ) ;
const float e = m_filpar [ m_current_tool ] . ramming_speed [ i ] * 0.25f / Filament_Area ; // transform volume per sec to E move;
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const float dist = std : : min ( x - e_done , remaining ) ; // distance to travel for either the next 0.25s, or to the next turnaround
const float actual_time = dist / x * 0.25 ;
writer . ram ( writer . x ( ) , writer . x ( ) + ( m_left_to_right ? 1.f : - 1.f ) * dist , 0 , 0 , e * ( dist / x ) , std : : hypot ( dist , e * ( dist / x ) ) / ( actual_time / 60. ) ) ;
remaining - = dist ;
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if ( remaining < WT_EPSILON ) { // we reached a turning point
writer . travel ( writer . x ( ) , writer . y ( ) + y_step , 7200 ) ;
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m_left_to_right = ! m_left_to_right ;
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remaining = xr - xl ;
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}
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e_done + = dist ; // subtract what was actually done
if ( e_done > x - WT_EPSILON ) { // current segment finished
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+ + i ;
e_done = 0 ;
}
}
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WipeTower : : xy end_of_ramming ( writer . x ( ) , writer . y ( ) ) ;
2018-01-04 11:03:06 +00:00
2018-03-05 12:53:49 +00:00
// Pull the filament end to the BEGINNING of the cooling tube while still moving the print head
float oldx = writer . x ( ) ;
float turning_point = ( ! m_left_to_right ? std : : max ( xl , oldx - 15.f ) : std : : min ( xr , oldx + 15.f ) ) ; // so it's not too far
float xdist = std : : abs ( oldx - turning_point ) ;
float edist = - ( m_cooling_tube_retraction + m_cooling_tube_length / 2.f - 42 ) ;
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writer . suppress_preview ( )
. load_move_x ( turning_point , - 15 , 60.f * std : : hypot ( xdist , 15 ) / 15 * 83 ) // fixed speed after ramming
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. load_move_x ( oldx , edist , 60.f * std : : hypot ( xdist , edist ) / std : : abs ( edist ) * m_filpar [ m_current_tool ] . unloading_speed )
2018-03-05 12:53:49 +00:00
. load_move_x ( turning_point , - 15 , 60.f * std : : hypot ( xdist , 15 ) / 15 * m_filpar [ m_current_tool ] . unloading_speed * 0.55f )
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. load_move_x ( oldx , - 12 , 60.f * std : : hypot ( xdist , 12 ) / 12 * m_filpar [ m_current_tool ] . unloading_speed * 0.35f )
. resume_preview ( ) ;
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if ( new_temperature ! = 0 ) // Set the extruder temperature, but don't wait.
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writer . set_extruder_temp ( new_temperature , false ) ;
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// cooling:
writer . suppress_preview ( ) ;
writer . travel ( writer . x ( ) , writer . y ( ) + y_step ) ;
const float start_x = writer . x ( ) ;
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turning_point = ( xr - start_x > start_x - xl ? xr : xl ) ;
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const float max_x_dist = 2 * std : : abs ( start_x - turning_point ) ;
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const unsigned int N = 4 + std : : max ( 0.f , ( m_filpar [ m_current_tool ] . cooling_time - 14 ) / 3 ) ;
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float time = m_filpar [ m_current_tool ] . cooling_time / float ( N ) ;
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i = 0 ;
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while ( i < N ) {
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const float speed = std : : min ( 3.4 , 2.2 + i * 0.3 + ( i = = 0 ? 0 : 0.3 ) ) ; // mm per second: 2.2, 2.8, 3.1, 3.4, 3.4, 3.4, ...
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const float e_dist = std : : min ( speed * time , 2 * m_cooling_tube_length ) ; // distance to travel
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// this move is the last one at this speed or someone set tube_length to zero
if ( speed * time < 2 * m_cooling_tube_length | | m_cooling_tube_length < WT_EPSILON ) {
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+ + i ;
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time = m_filpar [ m_current_tool ] . cooling_time / float ( N ) ;
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}
else
time - = e_dist / speed ; // subtract time this part will really take
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// as for x, we will make sure the feedrate is at most 2000
float x_dist = ( turning_point - WT_EPSILON < xl ? - 1.f : 1.f ) * std : : min ( e_dist * ( float ) sqrt ( pow ( 2000 / ( 60 * speed ) , 2 ) - 1 ) , max_x_dist ) ;
const float feedrate = std : : hypot ( e_dist , x_dist ) / ( ( e_dist / speed ) / 60.f ) ;
writer . cool ( start_x + x_dist / 2.f , start_x , e_dist / 2.f , - e_dist / 2.f , feedrate ) ;
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}
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// let's wait is necessary
writer . wait ( m_filpar [ m_current_tool ] . delay ) ;
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// we should be at the beginning of the cooling tube again - let's move to parking position:
writer . retract ( - m_cooling_tube_length / 2.f + m_parking_pos_retraction - m_cooling_tube_retraction , 2000 ) ;
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// this is to align ramming and future wiping extrusions, so the future y-steps can be uniform from the start:
// the perimeter_width will later be subtracted, it is there to not load while moving over just extruded material
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writer . travel ( end_of_ramming . x , end_of_ramming . y + ( y_step / m_extra_spacing - m_perimeter_width ) / 2.f + m_perimeter_width , 2400.f ) ;
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writer . resume_preview ( )
. flush_planner_queue ( ) ;
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}
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// Change the tool, set a speed override for soluble and flex materials.
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void WipeTowerPrusaMM : : toolchange_Change (
PrusaMultiMaterial : : Writer & writer ,
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const unsigned int new_tool ,
material_type new_material )
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{
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// Speed override for the material. Go slow for flex and soluble materials.
int speed_override ;
switch ( new_material ) {
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case PVA : speed_override = ( m_z_pos < 0.80f ) ? 60 : 80 ; break ;
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case SCAFF : speed_override = 35 ; break ;
case FLEX : speed_override = 35 ; break ;
default : speed_override = 100 ;
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}
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writer . set_tool ( new_tool )
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. speed_override ( speed_override )
. flush_planner_queue ( ) ;
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m_current_tool = new_tool ;
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}
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void WipeTowerPrusaMM : : toolchange_Load (
PrusaMultiMaterial : : Writer & writer ,
const box_coordinates & cleaning_box )
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{
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float xl = cleaning_box . ld . x + m_perimeter_width * 0.75f ;
float xr = cleaning_box . rd . x - m_perimeter_width * 0.75f ;
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float oldx = writer . x ( ) ; // the nozzle is in place to do the first wiping moves, we will remember the position
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// Load the filament while moving left / right, so the excess material will not create a blob at a single position.
float loading_speed = m_filpar [ m_current_tool ] . loading_speed ; // mm/s in e axis
float turning_point = ( oldx - xl < xr - oldx ? xr : xl ) ;
float dist = std : : abs ( oldx - turning_point ) ;
float edist = m_parking_pos_retraction - 50 - 2 ; // loading is 2mm shorter that previous retraction, 50mm reserved for acceleration/deceleration
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writer . append ( " ; CP TOOLCHANGE LOAD \n " )
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. suppress_preview ( )
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. load_move_x ( turning_point , 20 , 60 * std : : hypot ( dist , 20.f ) / 20.f * loading_speed * 0.3f ) // Acceleration
. load_move_x ( oldx , edist , 60 * std : : hypot ( dist , edist ) / edist * loading_speed ) // Fast phase
. load_move_x ( turning_point , 20 , 60 * std : : hypot ( dist , 20.f ) / 20.f * loading_speed * 0.3f ) // Slowing down
. load_move_x ( oldx , 10 , 60 * std : : hypot ( dist , 10.f ) / 10.f * loading_speed * 0.1f ) // Super slow
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. resume_preview ( ) ;
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// Reset the extruder current to the normal value.
writer . set_extruder_trimpot ( 550 ) ;
}
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// Wipe the newly loaded filament until the end of the assigned wipe area.
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void WipeTowerPrusaMM : : toolchange_Wipe (
PrusaMultiMaterial : : Writer & writer ,
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const box_coordinates & cleaning_box ,
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float wipe_volume )
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{
// Increase flow on first layer, slow down print.
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writer . set_extrusion_flow ( m_extrusion_flow * ( m_is_first_layer ? 1.18f : 1.f ) )
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. append ( " ; CP TOOLCHANGE WIPE \n " ) ;
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float wipe_coeff = m_is_first_layer ? 0.5f : 1.f ;
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const float & xl = cleaning_box . ld . x ;
const float & xr = cleaning_box . rd . x ;
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// Variables x_to_wipe and traversed_x are here to be able to make sure it always wipes at least
// the ordered volume, even if it means violating the box. This can later be removed and simply
// wipe until the end of the assigned area.
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float x_to_wipe = volume_to_length ( wipe_volume , m_perimeter_width , m_layer_height ) ;
float dy = m_extra_spacing * m_perimeter_width ;
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float wipe_speed = 1600.f ;
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// if there is less than 2.5*m_perimeter_width to the edge, advance straightaway (there is likely a blob anyway)
if ( ( m_left_to_right ? xr - writer . x ( ) : writer . x ( ) - xl ) < 2.5f * m_perimeter_width ) {
writer . travel ( ( m_left_to_right ? xr - m_perimeter_width : xl + m_perimeter_width ) , writer . y ( ) + dy ) ;
m_left_to_right = ! m_left_to_right ;
}
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// now the wiping itself:
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for ( int i = 0 ; true ; + + i ) {
if ( i ! = 0 ) {
if ( wipe_speed < 1610.f ) wipe_speed = 1800.f ;
else if ( wipe_speed < 1810.f ) wipe_speed = 2200.f ;
else if ( wipe_speed < 2210.f ) wipe_speed = 4200.f ;
else wipe_speed = std : : min ( 4800.f , wipe_speed + 50.f ) ;
}
float traversed_x = writer . x ( ) ;
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if ( m_left_to_right )
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writer . extrude ( xr - ( i % 4 = = 0 ? 0 : 1.5 * m_perimeter_width ) , writer . y ( ) , wipe_speed * wipe_coeff ) ;
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else
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writer . extrude ( xl + ( i % 4 = = 1 ? 0 : 1.5 * m_perimeter_width ) , writer . y ( ) , wipe_speed * wipe_coeff ) ;
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if ( writer . y ( ) + EPSILON > cleaning_box . lu . y - 0.5f * m_perimeter_width )
break ; // in case next line would not fit
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traversed_x - = writer . x ( ) ;
x_to_wipe - = fabs ( traversed_x ) ;
if ( x_to_wipe < WT_EPSILON ) {
writer . travel ( m_left_to_right ? xl + 1.5 * m_perimeter_width : xr - 1.5 * m_perimeter_width , writer . y ( ) , 7200 ) ;
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break ;
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}
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// stepping to the next line:
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writer . extrude ( writer . x ( ) + ( i % 4 = = 0 ? - 1.f : ( i % 4 = = 1 ? 1.f : 0.f ) ) * 1.5 * m_perimeter_width , writer . y ( ) + dy ) ;
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m_left_to_right = ! m_left_to_right ;
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}
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// this is neither priming nor not the last toolchange on this layer - we are going back to the model - wipe the nozzle
if ( m_layer_info ! = m_plan . end ( ) & & m_current_tool ! = m_layer_info - > tool_changes . back ( ) . new_tool ) {
m_left_to_right = ! m_left_to_right ;
writer . travel ( writer . x ( ) , writer . y ( ) - dy )
. travel ( m_wipe_tower_pos . x + ( m_left_to_right ? m_wipe_tower_width : 0.f ) , writer . y ( ) ) ;
}
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writer . set_extrusion_flow ( m_extrusion_flow ) ; // Reset the extrusion flow.
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}
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WipeTower : : ToolChangeResult WipeTowerPrusaMM : : finish_layer ( )
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{
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// This should only be called if the layer is not finished yet.
// Otherwise the caller would likely travel to the wipe tower in vain.
assert ( ! this - > layer_finished ( ) ) ;
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PrusaMultiMaterial : : Writer writer ;
writer . set_extrusion_flow ( m_extrusion_flow )
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. set_z ( m_z_pos )
. set_layer_height ( m_layer_height )
. set_initial_tool ( m_current_tool )
. set_rotation ( m_wipe_tower_pos , m_wipe_tower_width , m_wipe_tower_depth , m_wipe_tower_rotation_angle )
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. set_y_shift ( m_y_shift - ( m_current_shape = = SHAPE_REVERSED & & ! m_peters_wipe_tower ? m_layer_info - > toolchanges_depth ( ) : 0.f ) )
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. append ( " ;-------------------- \n "
" ; CP EMPTY GRID START \n " )
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. comment_with_value ( " layer # " , m_num_layer_changes + 1 ) ;
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// Slow down on the 1st layer.
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float speed_factor = m_is_first_layer ? 0.5f : 1.f ;
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float current_depth = m_layer_info - > depth - m_layer_info - > toolchanges_depth ( ) ;
box_coordinates fill_box ( m_wipe_tower_pos + xy ( m_perimeter_width , m_depth_traversed + m_perimeter_width ) ,
m_wipe_tower_width - 2 * m_perimeter_width , current_depth - m_perimeter_width ) ;
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if ( m_left_to_right ) // so there is never a diagonal travel
writer . set_initial_position ( fill_box . ru ) ;
else
writer . set_initial_position ( fill_box . lu ) ;
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box_coordinates box = fill_box ;
for ( int i = 0 ; i < 2 ; + + i ) {
if ( m_layer_info - > toolchanges_depth ( ) < WT_EPSILON ) { // there were no toolchanges on this layer
if ( i = = 0 ) box . expand ( m_perimeter_width ) ;
else box . expand ( - m_perimeter_width ) ;
}
else i = 2 ; // only draw the inner perimeter, outer has been already drawn by tool_change(...)
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writer . rectangle ( box . ld , box . rd . x - box . ld . x , box . ru . y - box . rd . y , 2900 * speed_factor ) ;
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}
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// we are in one of the corners, travel to ld along the perimeter:
if ( writer . x ( ) > fill_box . ld . x + EPSILON ) writer . travel ( fill_box . ld . x , writer . y ( ) ) ;
if ( writer . y ( ) > fill_box . ld . y + EPSILON ) writer . travel ( writer . x ( ) , fill_box . ld . y ) ;
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if ( m_is_first_layer & & m_adhesion ) {
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// Extrude a dense infill at the 1st layer to improve 1st layer adhesion of the wipe tower.
box . expand ( - m_perimeter_width / 2.f ) ;
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int nsteps = int ( floor ( ( box . lu . y - box . ld . y ) / ( 2 * m_perimeter_width ) ) ) ;
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float step = ( box . lu . y - box . ld . y ) / nsteps ;
writer . travel ( box . ld - xy ( m_perimeter_width / 2.f , m_perimeter_width / 2.f ) ) ;
if ( nsteps > = 0 )
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for ( int i = 0 ; i < nsteps ; + + i ) {
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writer . extrude ( box . ld . x + m_perimeter_width / 2.f , writer . y ( ) + 0.5f * step ) ;
writer . extrude ( box . rd . x - m_perimeter_width / 2.f , writer . y ( ) ) ;
writer . extrude ( box . rd . x - m_perimeter_width / 2.f , writer . y ( ) + 0.5f * step ) ;
writer . extrude ( box . ld . x + m_perimeter_width / 2.f , writer . y ( ) ) ;
}
writer . travel ( box . rd . x - m_perimeter_width / 2.f , writer . y ( ) ) ; // wipe the nozzle
}
else { // Extrude a sparse infill to support the material to be printed above.
const float dy = ( fill_box . lu . y - fill_box . ld . y - m_perimeter_width ) ;
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const float left = fill_box . lu . x + 2 * m_perimeter_width ;
const float right = fill_box . ru . x - 2 * m_perimeter_width ;
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if ( dy > m_perimeter_width )
{
// Extrude an inverse U at the left of the region.
writer . travel ( fill_box . ld + xy ( m_perimeter_width * 2 , 0.f ) )
. extrude ( fill_box . lu + xy ( m_perimeter_width * 2 , 0.f ) , 2900 * speed_factor ) ;
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const int n = 1 + ( right - left ) / ( m_bridging ) ;
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const float dx = ( right - left ) / n ;
for ( int i = 1 ; i < = n ; + + i ) {
float x = left + dx * i ;
writer . travel ( x , writer . y ( ) ) ;
writer . extrude ( x , i % 2 ? fill_box . rd . y : fill_box . ru . y ) ;
}
writer . travel ( left , writer . y ( ) , 7200 ) ; // wipes the nozzle before moving away from the wipe tower
}
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else
writer . travel ( right , writer . y ( ) , 7200 ) ; // wipes the nozzle before moving away from the wipe tower
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}
writer . append ( " ; CP EMPTY GRID END \n "
" ;------------------ \n \n \n \n \n \n \n " ) ;
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m_depth_traversed = m_wipe_tower_depth - m_perimeter_width ;
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ToolChangeResult result ;
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result . print_z = this - > m_z_pos ;
result . layer_height = this - > m_layer_height ;
result . gcode = writer . gcode ( ) ;
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result . elapsed_time = writer . elapsed_time ( ) ;
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result . extrusions = writer . extrusions ( ) ;
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result . start_pos = writer . start_pos_rotated ( ) ;
result . end_pos = writer . pos_rotated ( ) ;
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return result ;
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}
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// Appends a toolchange into m_plan and calculates neccessary depth of the corresponding box
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void WipeTowerPrusaMM : : plan_toolchange ( float z_par , float layer_height_par , unsigned int old_tool , unsigned int new_tool , bool brim )
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{
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assert ( m_plan . back ( ) . z < = z_par + WT_EPSILON ) ; // refuses to add a layer below the last one
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if ( m_plan . empty ( ) | | m_plan . back ( ) . z + WT_EPSILON < z_par ) // if we moved to a new layer, we'll add it to m_plan first
m_plan . push_back ( WipeTowerInfo ( z_par , layer_height_par ) ) ;
if ( brim ) { // this toolchange prints brim - we must add it to m_plan, but not to count its depth
m_plan . back ( ) . tool_changes . push_back ( WipeTowerInfo : : ToolChange ( old_tool , new_tool ) ) ;
return ;
}
if ( old_tool = = new_tool ) // new layer without toolchanges - we are done
return ;
// this is an actual toolchange - let's calculate depth to reserve on the wipe tower
float depth = 0.f ;
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float width = m_wipe_tower_width - 3 * m_perimeter_width ;
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float length_to_extrude = volume_to_length ( 0.25f * std : : accumulate ( m_filpar [ old_tool ] . ramming_speed . begin ( ) , m_filpar [ old_tool ] . ramming_speed . end ( ) , 0.f ) ,
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m_perimeter_width * m_filpar [ old_tool ] . ramming_line_width_multiplicator ,
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layer_height_par ) ;
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depth = ( int ( length_to_extrude / width ) + 1 ) * ( m_perimeter_width * m_filpar [ old_tool ] . ramming_line_width_multiplicator * m_filpar [ old_tool ] . ramming_step_multiplicator ) ;
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float ramming_depth = depth ;
length_to_extrude = width * ( ( length_to_extrude / width ) - int ( length_to_extrude / width ) ) - width ;
float first_wipe_line = - length_to_extrude ;
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length_to_extrude + = volume_to_length ( wipe_volumes [ old_tool ] [ new_tool ] , m_perimeter_width , layer_height_par ) ;
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length_to_extrude = std : : max ( length_to_extrude , 0.f ) ;
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depth + = ( int ( length_to_extrude / width ) + 1 ) * m_perimeter_width ;
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depth * = m_extra_spacing ;
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m_plan . back ( ) . tool_changes . push_back ( WipeTowerInfo : : ToolChange ( old_tool , new_tool , depth , ramming_depth , first_wipe_line ) ) ;
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}
void WipeTowerPrusaMM : : plan_tower ( )
{
// Calculate m_wipe_tower_depth (maximum depth for all the layers) and propagate depths downwards
m_wipe_tower_depth = 0.f ;
for ( auto & layer : m_plan )
layer . depth = 0.f ;
for ( int layer_index = m_plan . size ( ) - 1 ; layer_index > = 0 ; - - layer_index )
{
float this_layer_depth = std : : max ( m_plan [ layer_index ] . depth , m_plan [ layer_index ] . toolchanges_depth ( ) ) ;
m_plan [ layer_index ] . depth = this_layer_depth ;
if ( this_layer_depth > m_wipe_tower_depth - m_perimeter_width )
m_wipe_tower_depth = this_layer_depth + m_perimeter_width ;
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for ( int i = layer_index - 1 ; i > = 0 ; i - - )
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{
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if ( m_plan [ i ] . depth - this_layer_depth < 2 * m_perimeter_width )
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m_plan [ i ] . depth = this_layer_depth ;
}
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}
}
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void WipeTowerPrusaMM : : save_on_last_wipe ( )
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{
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for ( m_layer_info = m_plan . begin ( ) ; m_layer_info < m_plan . end ( ) ; + + m_layer_info ) {
set_layer ( m_layer_info - > z , m_layer_info - > height , 0 , m_layer_info - > z = = m_plan . front ( ) . z , m_layer_info - > z = = m_plan . back ( ) . z ) ;
if ( m_layer_info - > tool_changes . size ( ) = = 0 ) // we have no way to save anything on an empty layer
continue ;
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for ( const auto & toolchange : m_layer_info - > tool_changes )
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tool_change ( toolchange . new_tool , false ) ;
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float width = m_wipe_tower_width - 3 * m_perimeter_width ; // width we draw into
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float length_to_save = 2 * ( m_wipe_tower_width + m_wipe_tower_depth ) + ( ! layer_finished ( ) ? finish_layer ( ) . total_extrusion_length_in_plane ( ) : 0.f ) ;
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float length_to_wipe = volume_to_length ( wipe_volumes [ m_layer_info - > tool_changes . back ( ) . old_tool ] [ m_layer_info - > tool_changes . back ( ) . new_tool ] ,
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m_perimeter_width , m_layer_info - > height ) - m_layer_info - > tool_changes . back ( ) . first_wipe_line - length_to_save ;
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length_to_wipe = std : : max ( length_to_wipe , 0.f ) ;
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float depth_to_wipe = m_perimeter_width * ( std : : floor ( length_to_wipe / width ) + ( length_to_wipe > 0.f ? 1.f : 0.f ) ) * m_extra_spacing ;
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//depth += (int(length_to_extrude / width) + 1) * m_perimeter_width;
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m_layer_info - > tool_changes . back ( ) . required_depth = m_layer_info - > tool_changes . back ( ) . ramming_depth + depth_to_wipe ;
}
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}
// Processes vector m_plan and calls respective functions to generate G-code for the wipe tower
// Resulting ToolChangeResults are appended into vector "result"
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void WipeTowerPrusaMM : : generate ( std : : vector < std : : vector < WipeTower : : ToolChangeResult > > & result )
{
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if ( m_plan . empty ( ) ) return ;
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m_extra_spacing = 1.f ;
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plan_tower ( ) ;
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for ( int i = 0 ; i < 5 ; + + i ) {
save_on_last_wipe ( ) ;
plan_tower ( ) ;
}
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if ( m_peters_wipe_tower )
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make_wipe_tower_square ( ) ;
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m_layer_info = m_plan . begin ( ) ;
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std : : vector < WipeTower : : ToolChangeResult > layer_result ;
for ( auto layer : m_plan )
{
set_layer ( layer . z , layer . height , 0 , layer . z = = m_plan . front ( ) . z , layer . z = = m_plan . back ( ) . z ) ;
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if ( m_peters_wipe_tower )
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m_wipe_tower_rotation_angle + = 90.f ;
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else
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m_wipe_tower_rotation_angle + = 180.f ;
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if ( ! m_peters_wipe_tower & & m_layer_info - > depth < m_wipe_tower_depth - m_perimeter_width )
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m_y_shift = ( m_wipe_tower_depth - m_layer_info - > depth - m_perimeter_width ) / 2.f ;
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for ( const auto & toolchange : layer . tool_changes )
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layer_result . emplace_back ( tool_change ( toolchange . new_tool , false ) ) ;
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if ( ! layer_finished ( ) ) {
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auto finish_layer_toolchange = finish_layer ( ) ;
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if ( ! layer . tool_changes . empty ( ) ) { // we will merge it to the last toolchange
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auto & last_toolchange = layer_result . back ( ) ;
if ( last_toolchange . end_pos ! = finish_layer_toolchange . start_pos ) {
char buf [ 2048 ] ; // Add a travel move from tc1.end_pos to tc2.start_pos.
sprintf ( buf , " G1 X%.3f Y%.3f F7200 \n " , finish_layer_toolchange . start_pos . x , finish_layer_toolchange . start_pos . y ) ;
last_toolchange . gcode + = buf ;
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}
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last_toolchange . gcode + = finish_layer_toolchange . gcode ;
last_toolchange . extrusions . insert ( last_toolchange . extrusions . end ( ) , finish_layer_toolchange . extrusions . begin ( ) , finish_layer_toolchange . extrusions . end ( ) ) ;
last_toolchange . end_pos = finish_layer_toolchange . end_pos ;
}
else
layer_result . emplace_back ( std : : move ( finish_layer_toolchange ) ) ;
}
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result . emplace_back ( std : : move ( layer_result ) ) ;
m_is_first_layer = false ;
}
}
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void WipeTowerPrusaMM : : make_wipe_tower_square ( )
{
const float width = m_wipe_tower_width - 3 * m_perimeter_width ;
const float depth = m_wipe_tower_depth - m_perimeter_width ;
// area that we actually print into is width*depth
float side = sqrt ( depth * width ) ;
m_wipe_tower_width = side + 3 * m_perimeter_width ;
m_wipe_tower_depth = side + 2 * m_perimeter_width ;
// For all layers, find how depth changed and update all toolchange depths
for ( auto & lay : m_plan )
{
side = sqrt ( lay . depth * width ) ;
float width_ratio = width / side ;
//lay.extra_spacing = width_ratio;
for ( auto & tch : lay . tool_changes )
tch . required_depth * = width_ratio ;
}
plan_tower ( ) ; // propagates depth downwards again (width has changed)
for ( auto & lay : m_plan ) // depths set, now the spacing
lay . extra_spacing = lay . depth / lay . toolchanges_depth ( ) ;
}
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} ; // namespace Slic3r