PrusaSlicer-NonPlainar/xs/src/libslic3r/Flow.cpp

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#include "Flow.hpp"
#include <cmath>
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#include <assert.h>
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namespace Slic3r {
/* This constructor builds a Flow object from an extrusion width config setting
and other context properties. */
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Flow
Flow::new_from_config_width(FlowRole role, const ConfigOptionFloatOrPercent &width, float nozzle_diameter, float height, float bridge_flow_ratio) {
// we need layer height unless it's a bridge
if (height <= 0 && bridge_flow_ratio == 0) CONFESS("Invalid flow height supplied to new_from_config_width()");
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float w;
if (bridge_flow_ratio > 0) {
// if bridge flow was requested, calculate bridge width
height = w = Flow::_bridge_width(nozzle_diameter, bridge_flow_ratio);
} else if (!width.percent && width.value == 0) {
// if user left option to 0, calculate a sane default width
w = Flow::_auto_width(role, nozzle_diameter, height);
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} else {
// if user set a manual value, use it
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w = width.get_abs_value(height);
}
return Flow(w, height, nozzle_diameter, bridge_flow_ratio > 0);
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}
/* This constructor builds a Flow object from a given centerline spacing. */
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Flow
Flow::new_from_spacing(float spacing, float nozzle_diameter, float height, bool bridge) {
// we need layer height unless it's a bridge
if (height <= 0 && !bridge) CONFESS("Invalid flow height supplied to new_from_spacing()");
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float w = Flow::_width_from_spacing(spacing, nozzle_diameter, height, bridge);
if (bridge) height = w;
return Flow(w, height, nozzle_diameter, bridge);
}
/* This method returns the centerline spacing between two adjacent extrusions
having the same extrusion width (and other properties). */
float
Flow::spacing() const {
if (this->bridge) {
return this->width + BRIDGE_EXTRA_SPACING;
}
// rectangle with semicircles at the ends
float min_flow_spacing = this->width - this->height * (1 - PI/4.0);
return this->width - OVERLAP_FACTOR * (this->width - min_flow_spacing);
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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 {
assert(this->height == other.height);
assert(this->bridge == other.bridge);
if (this->bridge) {
return this->width/2 + other.width/2 + BRIDGE_EXTRA_SPACING;
}
return this->spacing()/2 + other.spacing()/2;
}
/* This method returns extrusion volume per head move unit. */
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double
Flow::mm3_per_mm() const {
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if (this->bridge) {
return (this->width * this->width) * PI/4.0;
}
// rectangle with semicircles at the ends
return this->width * this->height + (this->height*this->height) / 4.0 * (PI-4.0);
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}
/* This static method returns bridge width for a given nozzle diameter. */
float Flow::_bridge_width(float nozzle_diameter, float bridge_flow_ratio) {
return (bridge_flow_ratio == 1.) ?
// optimization to avoid sqrt()
nozzle_diameter :
sqrt(bridge_flow_ratio) * nozzle_diameter;
}
/* This static method returns a sane extrusion width default. */
float
Flow::_auto_width(FlowRole role, float nozzle_diameter, float height) {
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// here we calculate a sane default by matching the flow speed (at the nozzle) and the feed rate
// shape: rectangle with semicircles at the ends
float width = ((nozzle_diameter*nozzle_diameter) * PI + (height*height) * (4.0 - PI)) / (4.0 * height);
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float min = nozzle_diameter * 1.05;
float max = -1;
if (role == frExternalPerimeter || role == frSupportMaterial || role == frSupportMaterialInterface) {
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min = max = nozzle_diameter;
} else if (role != frInfill) {
// do not limit width for sparse infill so that we use full native flow for it
max = nozzle_diameter * 1.7;
}
if (max != -1 && width > max) width = max;
if (width < min) width = min;
return width;
}
/* This static method returns the extrusion width value corresponding to the supplied centerline spacing. */
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float
Flow::_width_from_spacing(float spacing, float nozzle_diameter, float height, bool bridge) {
if (bridge) {
return spacing - BRIDGE_EXTRA_SPACING;
}
// rectangle with semicircles at the ends
return spacing + OVERLAP_FACTOR * height * (1 - PI/4.0);
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}
}