3DPrinting/PrusaSlicer-NonPlainar
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Refactoring: keep height in Flow object and calculate spacing on demand

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This commit is contained in:
Alessandro Ranellucci 2014-06-12 01:00:13 +02:00
parent 9bff6ccde7
commit 8ee11b3239
7 changed files with 86 additions and 73 deletions
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2
lib/Slic3r/Fill.pm
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@ -222,7 +222,7 @@ sub make_fill {
);
next unless @polylines;
my $mm3_per_mm = $flow->mm3_per_mm($h);
my $mm3_per_mm = $flow->mm3_per_mm;
# save into layer
push @fills, my $collection = Slic3r::ExtrusionPath::Collection->new;

8
lib/Slic3r/Layer/Region.pm
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@ -43,19 +43,19 @@ sub make_perimeters {
# external perimeters
my $ext_perimeter_flow = $self->flow(FLOW_ROLE_EXTERNAL_PERIMETER);
my $ext_mm3_per_mm = $ext_perimeter_flow->mm3_per_mm($self->height);
my $ext_mm3_per_mm = $ext_perimeter_flow->mm3_per_mm;
my $ext_pwidth = $ext_perimeter_flow->scaled_width;
my $ext_pspacing = $ext_perimeter_flow->scaled_spacing;
# other perimeters
my $perimeter_flow = $self->flow(FLOW_ROLE_PERIMETER);
my $mm3_per_mm = $perimeter_flow->mm3_per_mm($self->height);
my $mm3_per_mm = $perimeter_flow->mm3_per_mm;
my $pwidth = $perimeter_flow->scaled_width;
my $pspacing = $perimeter_flow->scaled_spacing;
# overhang perimeters
my $overhang_flow = $self->region->flow(FLOW_ROLE_PERIMETER, -1, 1, 0, undef, $self->layer->object);
my $mm3_per_mm_overhang = $overhang_flow->mm3_per_mm(-1);
my $mm3_per_mm_overhang = $overhang_flow->mm3_per_mm;
# solid infill
my $solid_infill_flow = $self->flow(FLOW_ROLE_SOLID_INFILL);
@ -418,7 +418,7 @@ sub _fill_gaps {
my $flow = $self->flow(FLOW_ROLE_SOLID_INFILL, 0, $w);
my %path_args = (
role => EXTR_ROLE_GAPFILL,
mm3_per_mm => $flow->mm3_per_mm($self->height),
mm3_per_mm => $flow->mm3_per_mm,
width => $flow->width,
height => $self->height,
);

4
lib/Slic3r/Print.pm
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@ -704,7 +704,7 @@ sub make_skirt {
bridge_flow_ratio => 0,
);
my $spacing = $flow->spacing;
my $mm3_per_mm = $flow->mm3_per_mm($first_layer_height);
my $mm3_per_mm = $flow->mm3_per_mm;
my @extruders_e_per_mm = ();
my $extruder_idx = 0;
@ -763,7 +763,7 @@ sub make_brim {
layer_height => $first_layer_height,
bridge_flow_ratio => 0,
);
my $mm3_per_mm = $flow->mm3_per_mm($first_layer_height);
my $mm3_per_mm = $flow->mm3_per_mm;
my $grow_distance = $flow->scaled_width / 2;
my @islands = (); # array of polygons

8
lib/Slic3r/Print/SupportMaterial.pm
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@ -602,7 +602,7 @@ sub generate_toolpaths {
);
# transform loops into ExtrusionPath objects
my $mm3_per_mm = $interface_flow->mm3_per_mm($layer->height);
my $mm3_per_mm = $interface_flow->mm3_per_mm;
@loops = map Slic3r::ExtrusionPath->new(
polyline => $_,
role => EXTR_ROLE_SUPPORTMATERIAL_INTERFACE,
@ -649,7 +649,7 @@ sub generate_toolpaths {
layer_height => $layer->height,
complete => 1,
);
my $mm3_per_mm = $params->{flow}->mm3_per_mm($layer->height);
my $mm3_per_mm = $params->{flow}->mm3_per_mm;
push @paths, map Slic3r::ExtrusionPath->new(
polyline => Slic3r::Polyline->new(@$_),
@ -684,7 +684,7 @@ sub generate_toolpaths {
} else {
# draw a perimeter all around support infill
# TODO: use brim ordering algorithm
my $mm3_per_mm = $flow->mm3_per_mm($layer->height);
my $mm3_per_mm = $flow->mm3_per_mm;
push @paths, map Slic3r::ExtrusionPath->new(
polyline => $_->split_at_first_point,
role => EXTR_ROLE_SUPPORTMATERIAL,
@ -705,7 +705,7 @@ sub generate_toolpaths {
layer_height => $layer->height,
complete => 1,
);
my $mm3_per_mm = $params->{flow}->mm3_per_mm($layer->height);
my $mm3_per_mm = $params->{flow}->mm3_per_mm;
push @paths, map Slic3r::ExtrusionPath->new(
polyline => Slic3r::Polyline->new(@$_),

96
xs/src/Flow.cpp
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@ -3,54 +3,81 @@
namespace Slic3r {
/* 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) {
// 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()");
float w;
// use automatic extrusion width if user left 0 or we need a bridge flow
if ((!width.percent && width.value == 0) || bridge_flow_ratio > 0) {
w = Flow::_width(role, nozzle_diameter, height, bridge_flow_ratio);
if (bridge_flow_ratio > 0) {
// if bridge flow was requested, calculate bridge width
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);
} else {
// if user set a manual value, use it
w = width.get_abs_value(height);
}
Flow flow(w, Flow::_spacing(w, nozzle_diameter, height, bridge_flow_ratio), nozzle_diameter);
if (bridge_flow_ratio > 0) flow.bridge = true;
return flow;
return Flow(w, height, nozzle_diameter, bridge_flow_ratio > 0);
}
/* 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) {
// we need layer height unless it's a bridge
if (height <= 0 && !bridge) CONFESS("Invalid flow height supplied to new_from_spacing()");
float w = Flow::_width_from_spacing(spacing, nozzle_diameter, height, bridge);
Flow flow(w, spacing, nozzle_diameter);
flow.bridge = bridge;
return flow;
}
double
Flow::mm3_per_mm(float h) {
if (this->bridge) {
return (this->width * this->width) * PI/4.0;
} else if (this->width >= (this->nozzle_diameter + h)) {
// rectangle with semicircles at the ends
return this->width * h + (h*h) / 4.0 * (PI-4.0);
} else {
// rectangle with shrunk semicircles at the ends
return this->nozzle_diameter * h * (1 - PI/4.0) + h * this->width * PI/4.0;
}
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::_width(FlowRole role, float nozzle_diameter, float height, float bridge_flow_ratio) {
if (bridge_flow_ratio > 0) {
return sqrt(bridge_flow_ratio * (nozzle_diameter*nozzle_diameter));
Flow::spacing() const {
if (this->bridge) {
return width + BRIDGE_EXTRA_SPACING;
}
float min_flow_spacing;
if (this->width >= (this->nozzle_diameter + this->height)) {
// rectangle with semicircles at the ends
min_flow_spacing = this->width - this->height * (1 - PI/4.0);
} else {
// rectangle with shrunk semicircles at the ends
min_flow_spacing = this->nozzle_diameter * (1 - PI/4.0) + this->width * PI/4.0;
}
return this->width - OVERLAP_FACTOR * (this->width - min_flow_spacing);
}
/* This method returns extrusion volume per head move unit. */
double
Flow::mm3_per_mm() const {
if (this->bridge) {
return (this->width * this->width) * PI/4.0;
} else if (this->width >= (this->nozzle_diameter + this->height)) {
// rectangle with semicircles at the ends
return this->width * this->height + (this->height*this->height) / 4.0 * (PI-4.0);
} else {
// rectangle with shrunk semicircles at the ends
return this->nozzle_diameter * this->height * (1 - PI/4.0) + this->height * this->width * PI/4.0;
}
}
/* This static method returns bridge width for a given nozzle diameter. */
float
Flow::_bridge_width(float nozzle_diameter, float bridge_flow_ratio) {
if (bridge_flow_ratio == 1) return nozzle_diameter; // optimization to avoid sqrt()
return sqrt(bridge_flow_ratio * (nozzle_diameter*nozzle_diameter));
}
/* This static method returns a sane extrusion width default. */
float
Flow::_auto_width(FlowRole role, float nozzle_diameter, float height) {
// here we calculate a sane default by matching the flow speed (at the nozzle) and the feed rate
float volume = (nozzle_diameter*nozzle_diameter) * PI/4.0;
float shape_threshold = nozzle_diameter * height + (height*height) * PI/4.0;
@ -77,7 +104,7 @@ Flow::_width(FlowRole role, float nozzle_diameter, float height, float bridge_fl
return width;
}
/* This static method returns the extrusion width value corresponding to the supplied centerline spacing. */
float
Flow::_width_from_spacing(float spacing, float nozzle_diameter, float height, bool bridge) {
if (bridge) {
@ -96,23 +123,6 @@ Flow::_width_from_spacing(float spacing, float nozzle_diameter, float height, bo
}
}
float
Flow::_spacing(float width, float nozzle_diameter, float height, float bridge_flow_ratio) {
if (bridge_flow_ratio > 0) {
return width + BRIDGE_EXTRA_SPACING;
}
float min_flow_spacing;
if (width >= (nozzle_diameter + height)) {
// rectangle with semicircles at the ends
min_flow_spacing = width - height * (1 - PI/4.0);
} else {
// rectangle with shrunk semicircles at the ends
min_flow_spacing = nozzle_diameter * (1 - PI/4.0) + width * PI/4.0;
}
return width - OVERLAP_FACTOR * (width - min_flow_spacing);
}
#ifdef SLIC3RXS
REGISTER_CLASS(Flow, "Flow");
#endif

23
xs/src/Flow.hpp
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@ -23,23 +23,26 @@ enum FlowRole {
class Flow
{
public:
float width;
float spacing;
float nozzle_diameter;
float width, height, nozzle_diameter;
bool bridge;
coord_t scaled_width;
coord_t scaled_spacing;
Flow(float _w, float _s, float _nd): width(_w), spacing(_s), nozzle_diameter(_nd), bridge(false) {
this->scaled_width = scale_(this->width);
this->scaled_spacing = scale_(this->spacing);
Flow(float _w, float _h, float _nd, bool _bridge = false)
: width(_w), height(_h), nozzle_diameter(_nd), bridge(_bridge) {};
float spacing() const;
double mm3_per_mm() const;
coord_t scaled_width() const {
return scale_(this->width);
};
double mm3_per_mm(float h);
coord_t scaled_spacing() const {
return scale_(this->spacing());
};
static Flow new_from_config_width(FlowRole role, const ConfigOptionFloatOrPercent &width, float nozzle_diameter, float height, float bridge_flow_ratio);
static Flow new_from_spacing(float spacing, float nozzle_diameter, float height, bool bridge);
private:
static float _width(FlowRole role, float nozzle_diameter, float height, float bridge_flow_ratio);
static float _bridge_width(float nozzle_diameter, float bridge_flow_ratio);
static float _auto_width(FlowRole role, float nozzle_diameter, float height);
static float _width_from_spacing(float spacing, float nozzle_diameter, float height, bool bridge);
static float _spacing(float width, float nozzle_diameter, float height, float bridge_flow_ratio);
};

18
xs/xsp/Flow.xsp
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@ -7,7 +7,9 @@
%name{Slic3r::Flow} class Flow {
~Flow();
%name{_new} Flow(float width, float spacing, float nozzle_diameter);
%name{_new} Flow(float width, float height, float nozzle_diameter);
void set_height(float height)
%code{% THIS->height = height; %};
void set_bridge(bool bridge)
%code{% THIS->bridge = bridge; %};
Clone<Flow> clone()
@ -15,18 +17,16 @@
float width()
%code{% RETVAL = THIS->width; %};
float spacing()
%code{% RETVAL = THIS->spacing; %};
float height()
%code{% RETVAL = THIS->height; %};
float nozzle_diameter()
%code{% RETVAL = THIS->nozzle_diameter; %};
bool bridge()
%code{% RETVAL = THIS->bridge; %};
long scaled_width()
%code{% RETVAL = THIS->scaled_width; %};
long scaled_spacing()
%code{% RETVAL = THIS->scaled_spacing; %};
double mm3_per_mm(float height);
float spacing();
long scaled_width();
long scaled_spacing();
double mm3_per_mm();
%{
Flow*