-#!/usr/bin/perl -w
-
-use strict;
-
-our @array;
-our %procs;
-
-sub readdata () {
- my $l = '';
- my $current = \@array;
- while (<DATA>) {
- chomp or die;
- s/\s+$//;
- s/^\!\s*/!/;
- $l .= $_;
- next if $l =~ s/\\$//;
-
- $_=$l; $l='';
- if (m/^\!(\w+)\s*\(\)\s*\{$/) {
- my $pname=$1;
- die if $current ne \@array;
- die if exists $procs{$pname};
- $current = $procs{$pname} = [];
- next;
- }
- if (m/^\!\}$/) {
- $current = \@array;
- next;
- }
- push @$current, $_;
- }
-}
-readdata();
-
-our %c;
-
-sub defvar ($;$) {
- my ($cv,$v) = @_;
- $c{$cv} = $v;
-}
-
-defvar('extruderate',0.097200);
-defvar('feedrate',540);
-defvar('jerkfeedrate',7800);
-defvar('retract',4.5);
-defvar('restart',4.5);
-defvar('restartfeedrate',1800);
-defvar('retractfeedrate',1800);
-defvar('movefeedrate',7800);
-defvar('zlift',0.1);
-defvar('zprint');
-
-sub float_g ($) {
- my ($f) = @_;
- return sprintf "%.5f", $f;
-}
-sub coords_g ($) {
- my ($coords) = @_;
- return "X".float_g($coords->[0])." Y".float_g($coords->[1]);
-}
-
-sub p ($) { print "$_[0]" or die $!; }
-sub pl ($) { p("$_[0]\n"); }
-
-sub proc ($);
-
-sub proc ($) {
- my ($aref) = @_;
- local ($_);
- foreach (@$aref) {
- if (!m/^\!/) {
- pl($_);
- next;
- }
- pl(";$_");
- if (m/^\!(\w+)\s*\(\)$/) {
- my $pname = $1;
- die "$pname ?" unless $procs{$pname};
- proc($procs{$pname});
- } elsif (m/^\!draw\s+/) {
- my @coords = split /\s+/, $';
- my @undefs = grep { !defined $c{$_} } qw(zprint);
- die "@undefs ?" if @undefs;
- @coords = map {
- my $jerk = s/^\*//;
- m/\,/ or die $!;
- [ $`, $', !!$jerk ]; # '];
- } @coords;
- my $extrudepos=$c{restart};
- pl("G92 E0");
- my $zmove=$c{zprint}+$c{zlift};
- pl("G1 F$c{movefeedrate} Z$zmove");
- pl("G1 ".coords_g($coords[0]));
- pl("G1 Z$c{zprint}");
- pl("G1 F$c{restartfeedrate} E".float_g($extrudepos));
- my $lastfeedrate=-1;
- foreach (my $ci=1; $ci<@coords; $ci++) {
- my $g = "G1 ".coords_g($coords[$ci]);
- my $wantfeedrate;
- if (!$coords[$ci][2]) {
- $wantfeedrate=$c{feedrate};
- my $dist = 0;
- foreach my $xy (qw(0 1)) {
- my $dxy = $coords[$ci][$xy] - $coords[$ci-1][$xy];
- $dist += $dxy * $dxy;
- }
- $dist = sqrt($dist);
- $extrudepos += $dist * $c{extruderate};
- $g .= " E".float_g($extrudepos);
- } else {
- $wantfeedrate=$c{jerkfeedrate};
- }
- if ($wantfeedrate != $lastfeedrate) {
- $g .= " F$wantfeedrate";
- $lastfeedrate = $wantfeedrate;
- }
- pl($g);
- }
- $extrudepos -= $c{retract};
- pl("G1 F$c{retractfeedrate} E".float_g($extrudepos));
- pl("G1 F$c{movefeedrate} Z$zmove");
- next;
- } elsif (m/^\!(\w+)\=(\S+)$/) {
- die "$1 ?" unless exists $c{$1};
- $c{$1} = $2;
- } else {
- die "$_ ?";
- }
- }
-}
-
-proc(\@array);
-
-__DATA__
; -*- fundamental -*-
+; slic3r originally produced this, with these comments, and then we edited:
; layer_height = 0.4
; perimeters = 3
; solid_layers = 3
G92 E0
M82 ; use absolute distances for extrusion
-!zprint=0.4
+!zprint=0.3
-!draw 10,10 100,10 102,12 102,14 100,16 10,16
+; "skirt" - prep extruder
+!draw 5,5 100,5 101,5.5 101,6.0 100,6.5 5,6.5
+
+; edge ticks for global motions sizing
+
+!edge_ticks(){
+!draw 20,10 10,10 10,20
+!draw 10,65 10,75
+!draw 10,120 10,130 20,130
+!draw 65,130 75,130
+!draw 120,130 130,130 130,120
+!draw 130,75 130,65
+!draw 130,20 130,10 120,10
+!draw 75,10 65,10
+!}
+
+;!edge_ticks()
+
+!outer_square(){
+ !draw @0.000,@0.000 @5.000,@0.000 @5.000,@5.000 @0.000,@5.000 @0.000,@0.000
+!}
+!inner_square(){
+ !draw @0.500,@0.500 @4.500,@0.500 @4.500,@4.500 @0.500,@4.500 @0.500,@0.500
+!}
+!outer_vlines(){
+ !draw @0.000,@0.000 @0.000,@5.000
+ !draw @5.000,@0.000 @5.000,@5.000
+!}
+!inner_vlines(){
+ !draw @0.500,@0.500 @0.500,@4.500
+ !draw @4.500,@0.500 @4.500,@4.500
+!}
+!outer_longrect(){
+ !draw @0.000,@0.000 @5.000,@0.000 @5.000,@20.000 @0.000,@20.000 @0.000,@0.000
+!}
+!inner_longrect(){
+ !draw @0.500,@0.500 @4.500,@0.500 @4.500,@19.500 @0.500,@19.500 @0.500,@0.500
+!}
+
+!org_oblong(){
+; original test oblong
-!layer(){
!draw 68.498,79.498 \
71.502,79.498 \
71.502,82.502 \
!}
+!squares_tests(){
+
+!orgy=40
+
+!orgx=30
+!outer_longrect()
+
+!orgx=50
+!inner_longrect()
+!outer_longrect()
+
+!orgx=90
+!inner_square()
+!outer_square()
+
+!orgx=110
+!outer_square()
+
+!orgy=60
+!outer_vlines()
+
+!orgx=90
+!inner_vlines()
+!outer_vlines()
+
+!orgy=80
+!outer_square()
+!inner_square()
+
+!orgx=110
+!inner_square()
+
+!orgy=100
+!inner_vlines()
+
+!orgx=90
+!outer_vlines()
+!inner_vlines()
+
+!orgx=50
+!orgy=80
+!outer_longrect()
+!inner_longrect()
+
+!orgx=30
+!inner_longrect()
+
+!}
+
+!feedrate_tests(){
+
+!orgx=20
+!extruderate=0.045
+!feedrate_test1()
+
+!orgx=30
+!extruderate=0.060
+!feedrate_test1()
+
+!orgx=40
+!extruderate=0.080
+!feedrate_test1()
+
+!orgx=50
+!extruderate=0.100
+!feedrate_test1()
+
+!orgx=60
+!extruderate=0.125
+!feedrate_test1()
+
+!orgx=70
+!extruderate=0.150
+!feedrate_test1()
+
+!orgx=80
+!extruderate=0.200
+!feedrate_test1()
+
+!}
+
+!feedrate_test1(){
+
+!orgy=20
+!outer_longrect()
+
+!orgy=50
+!inner_longrect()
+!outer_longrect()
+
+!orgy=80
+!outer_longrect()
+!inner_longrect()
+
+!}
+
+!layer(){
+
+;--------------------
+
+;!squares_tests()
+;!org_oblong()
+!feedrate_tests()
+
+!}
+
!layer()
M104 S210 ; set temperature
M140 S60 ; set bed temperature
-!zprint=0.8
+!zprint=0.7
+!layer()
+
+!zprint=1.1
!layer()
M83 ; extruder relative
G1 F1000 ;1000mm/min extrusion
G1 E-10; retract
-G1 F240 ;240mm/min vertical move
-G1 Z70
-G28 X0 Y0 ; home X and Y axis
+G1 X0 Y0 F10000
+G28 X0 Y0
M104 S0 ; turn off temperature
M140 S0 ; turn off bed
M84 ; disable motors