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# include "Flow.hpp"
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# include "Print.hpp"
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# include <cmath>
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# include <assert.h>
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namespace Slic3r {
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// This static method returns a sane extrusion width default.
static inline float auto_extrusion_width ( FlowRole role , float nozzle_diameter , float height )
{
switch ( role ) {
case frSupportMaterial :
case frSupportMaterialInterface :
case frTopSolidInfill :
return nozzle_diameter ;
default :
case frExternalPerimeter :
case frPerimeter :
case frSolidInfill :
case frInfill :
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return 1.125f * nozzle_diameter ;
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}
}
// This constructor builds a Flow object from an extrusion width config setting
// and other context properties.
Flow Flow : : new_from_config_width ( FlowRole role , const ConfigOptionFloatOrPercent & width , float nozzle_diameter , float height , float bridge_flow_ratio )
{
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// we need layer height unless it's a bridge
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if ( height < = 0 & & bridge_flow_ratio = = 0 )
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throw std : : invalid_argument ( " Invalid flow height supplied to new_from_config_width() " ) ;
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float w ;
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if ( bridge_flow_ratio > 0 ) {
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// If bridge flow was requested, calculate the bridge width.
height = w = ( bridge_flow_ratio = = 1. ) ?
// optimization to avoid sqrt()
nozzle_diameter :
sqrt ( bridge_flow_ratio ) * nozzle_diameter ;
} else if ( ! width . percent & & width . value = = 0. ) {
// If user left option to 0, calculate a sane default width.
w = auto_extrusion_width ( role , nozzle_diameter , height ) ;
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} else {
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// If user set a manual value, use it.
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w = float ( width . get_abs_value ( height ) ) ;
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}
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return Flow ( w , height , nozzle_diameter , bridge_flow_ratio > 0 ) ;
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}
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// This constructor builds a Flow object from a given centerline spacing.
Flow Flow : : new_from_spacing ( float spacing , float nozzle_diameter , float height , bool bridge )
{
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// we need layer height unless it's a bridge
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if ( height < = 0 & & ! bridge )
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throw std : : invalid_argument ( " Invalid flow height supplied to new_from_spacing() " ) ;
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// Calculate width from spacing.
// For normal extrusons, extrusion width is wider than the spacing due to the rounding and squishing of the extrusions.
// For bridge extrusions, the extrusions are placed with a tiny BRIDGE_EXTRA_SPACING gaps between the threads.
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float width = float ( bridge ?
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( spacing - BRIDGE_EXTRA_SPACING ) :
# ifdef HAS_PERIMETER_LINE_OVERLAP
( spacing + PERIMETER_LINE_OVERLAP_FACTOR * height * ( 1. - 0.25 * PI ) ) ;
# else
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( spacing + height * ( 1. - 0.25 * PI ) ) ) ;
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# endif
return Flow ( width , bridge ? width : height , nozzle_diameter , bridge ) ;
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}
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// This method returns the centerline spacing between two adjacent extrusions
// having the same extrusion width (and other properties).
float Flow : : spacing ( ) const
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{
# ifdef HAS_PERIMETER_LINE_OVERLAP
if ( this - > bridge )
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return this - > width + BRIDGE_EXTRA_SPACING ;
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// rectangle with semicircles at the ends
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float min_flow_spacing = this - > width - this - > height * ( 1. - 0.25 * PI ) ;
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float res = this - > width - PERIMETER_LINE_OVERLAP_FACTOR * ( this - > width - min_flow_spacing ) ;
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# else
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float res = float ( this - > bridge ? ( this - > width + BRIDGE_EXTRA_SPACING ) : ( this - > width - this - > height * ( 1. - 0.25 * PI ) ) ) ;
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# endif
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// assert(res > 0.f);
if ( res < = 0.f )
throw std : : runtime_error ( " Flow::spacing() produced negative spacing. Did you set some extrusion width too small? " ) ;
return res ;
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}
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// This method returns the centerline spacing between an extrusion using this
// flow and another one using another flow.
// this->spacing(other) shall return the same value as other.spacing(*this)
float Flow : : spacing ( const Flow & other ) const
{
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assert ( this - > height = = other . height ) ;
assert ( this - > bridge = = other . bridge ) ;
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float res = float ( this - > bridge ?
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0.5 * this - > width + 0.5 * other . width + BRIDGE_EXTRA_SPACING :
0.5 * this - > spacing ( ) + 0.5 * other . spacing ( ) ) ;
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// assert(res > 0.f);
if ( res < = 0.f )
throw std : : runtime_error ( " Flow::spacing() produced negative spacing. Did you set some extrusion width too small? " ) ;
return res ;
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}
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// This method returns extrusion volume per head move unit.
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double Flow : : mm3_per_mm ( ) const
{
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float res = this - > bridge ?
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// Area of a circle with dmr of this->width.
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( this - > width * this - > width ) * 0.25 * PI :
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// Rectangle with semicircles at the ends. ~ h (w - 0.215 h)
this - > height * ( this - > width - this - > height * ( 1. - 0.25 * PI ) ) ;
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//assert(res > 0.);
if ( res < = 0. )
throw std : : runtime_error ( " Flow::mm3_per_mm() produced negative flow. Did you set some extrusion width too small? " ) ;
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return res ;
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}
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Flow support_material_flow ( const PrintObject * object , float layer_height )
{
return Flow : : new_from_config_width (
frSupportMaterial ,
// The width parameter accepted by new_from_config_width is of type ConfigOptionFloatOrPercent, the Flow class takes care of the percent to value substitution.
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( object - > config ( ) . support_material_extrusion_width . value > 0 ) ? object - > config ( ) . support_material_extrusion_width : object - > config ( ) . extrusion_width ,
// if object->config().support_material_extruder == 0 (which means to not trigger tool change, but use the current extruder instead), get_at will return the 0th component.
float ( object - > print ( ) - > config ( ) . nozzle_diameter . get_at ( object - > config ( ) . support_material_extruder - 1 ) ) ,
( layer_height > 0.f ) ? layer_height : float ( object - > config ( ) . layer_height . value ) ,
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// bridge_flow_ratio
0.f ) ;
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}
Flow support_material_1st_layer_flow ( const PrintObject * object , float layer_height )
{
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const auto & width = ( object - > print ( ) - > config ( ) . first_layer_extrusion_width . value > 0 ) ? object - > print ( ) - > config ( ) . first_layer_extrusion_width : object - > config ( ) . support_material_extrusion_width ;
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return Flow : : new_from_config_width (
frSupportMaterial ,
// The width parameter accepted by new_from_config_width is of type ConfigOptionFloatOrPercent, the Flow class takes care of the percent to value substitution.
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( width . value > 0 ) ? width : object - > config ( ) . extrusion_width ,
float ( object - > print ( ) - > config ( ) . nozzle_diameter . get_at ( object - > config ( ) . support_material_extruder - 1 ) ) ,
( layer_height > 0.f ) ? layer_height : float ( object - > config ( ) . first_layer_height . get_abs_value ( object - > config ( ) . layer_height . value ) ) ,
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// bridge_flow_ratio
0.f ) ;
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}
Flow support_material_interface_flow ( const PrintObject * object , float layer_height )
{
return Flow : : new_from_config_width (
frSupportMaterialInterface ,
// The width parameter accepted by new_from_config_width is of type ConfigOptionFloatOrPercent, the Flow class takes care of the percent to value substitution.
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( object - > config ( ) . support_material_extrusion_width > 0 ) ? object - > config ( ) . support_material_extrusion_width : object - > config ( ) . extrusion_width ,
// if object->config().support_material_interface_extruder == 0 (which means to not trigger tool change, but use the current extruder instead), get_at will return the 0th component.
float ( object - > print ( ) - > config ( ) . nozzle_diameter . get_at ( object - > config ( ) . support_material_interface_extruder - 1 ) ) ,
( layer_height > 0.f ) ? layer_height : float ( object - > config ( ) . layer_height . value ) ,
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// bridge_flow_ratio
0.f ) ;
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}
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}