# converted from http://www.thingiverse.com/thing:67566
# which is an extension of http://www.thingiverse.com/thing:15292
#
# added some missing snippets and cleaned things

#
snippet ass
	assign (${1:x} = ${2:0}) {
		${3}
	}
	

#
snippet cir
	circle(r=${1:10}, $fn=FN);

#
snippet col
	color([${1:0}/255, ${2:0}/255, ${3:0}/255]) {
		${4}
	}

#
snippet cu
	cube(size=[${1:10}, ${2:10}, ${3:10}], center=${4:false});

#
snippet cyl
	cylinder(h=${1:10}, r=${2:10}, $fn=FN, center=${3:true});

snippet diff
	difference(){
		${1}
	}

#
snippet echo
	echo(str("${1:Variable = }", ${2:x}));

# (...){...}
snippet for (...){...}
	for (${20:i}=[${1:0}:${2:10}]) {
		${3}
	}
	

#
snippet fun
	function ${1:function_name}(${2:args}) = ${3:// body...};

# Displays the convex hull of child nodes. https://en.wikibooks.org/wiki/OpenSCAD_User_Manual/The_OpenSCAD_Language#hull
snippet hul
	hull() {
		${1}
	}

# ...else
snippet ife ...else
	if (${1:true}) {
		${2}
	} else {
		
	}

#
snippet if
	if (${1:true}) {
		${2}
	}

#
snippet is
	import_stl("${1:filename.stl}", convexity=${2:10});

#
snippet inc
	include <${1:filename.scad}>

snippet int
	intersection(){
		${1}
	}

# (...){...}
snippet ifor (...){...}
	for (${20:i} = [${1:0}:${2:10}]) {
		${3}
	}
	

#
snippet le
	linear_extrude(height=${1:10}, center=${2:true}, convexity=${3:10}, twist=${4:0}) {
		${5}
	}

# Displays the minkowski sum of child nodes. https://en.wikibooks.org/wiki/OpenSCAD_User_Manual/The_OpenSCAD_Language#minkowski
snippet mink
	minkowski() {
		${1}
	}

#
snippet mir
	mirror([${1:0}, ${2:0}, ${3:0}]) {
		${4}
	}
	

#
snippet mod
	module ${1:module_name}(${2:args}) {
		${3:// body...}
	}

#
snippet mul
	multimatrix([
		[${1:1}, ${2:0}, ${3:0}, ${4:10}],
		[${5:0}, ${6:1}, ${7:0}, ${8:20}],
		[${9:0}, ${10:0}, ${11:1}, ${12:30}],
		[${13:0}, ${14:0}, ${15:0},  ${16:1}]
	]) {
		${17}
	}
	

#
snippet polyg
	polygon(points=[${1:[0,0],[100,0],[0,100],[10,10],[80,10],[10,80]}], paths=[${2:[0,1,2],[3,4,5]}]);
	

#
snippet poly
	polyhedron(points=[${1:[0,0,0],[100,0,0],[0,100,0],[0,100,100]}], triangles=[${2:[0,1,2],[1,0,3],[0,2,3],[2,1,3]}]);

#
snippet proj
	projection(cut=${1:true}) import_stl("${2:filename.stl}");
	

#
snippet ren
	render() {
		${1}
	}
	

#
snippet r
	rotate([${1:0}, ${2:0}, ${3:0}]) ${4}

# {...}
snippet rot {...}
	rotate([${1:0}, ${2:0}, ${3:0}]) {
		${4}
	}
	

#
snippet re
	rotate_extrude(convexity=${1:10}) {
		${2}
	}

#
snippet s
	scale([${1:1}, ${2:1}, ${3:1}]) ${4}

# {...}
snippet sca {...}
	scale([${1:1}, ${2:1}, ${3:1}]) {
		${4}
	}

#
snippet sph
	sphere(r=${1:10}, $fn=FN);

#
snippet squ
	square(size=[${1:10}, ${2:10}], center=${3:true});

#
snippet surf
	surface(file="${1:filename.dat}", center=${2:true}${3:, convexity=5});
	

#
snippet t
	translate([${1:0}, ${2:0}, ${3:0}]) ${4}

# {...}
snippet tran {...}
	translate([${1:0}, ${2:0}, ${3:0}]) {
		${4}
	}

snippet union
	union(){
		${1}
	}

#
snippet use
	use <${1:filename.scad}>

#########################################################################
# Write snippets (http://www.thingiverse.com/thing:16193)
#########################################################################

# Write
snippet write
	write("${1:text}",h=${2:height},t=${3:thickness},font="${4:font_name}, space=${5:font_spacing}");

# Write Circle
snippet writecircle Circle
	writecircle("${1:text}",[${2:0},${3:0},${4:0}],${5:radius});

# Write Cube
snippet writecube Cube
	writecube("${1:text}",[${2:0},${3:0},${4:0}],[${5:0},${6:0},${7:0}],face="${8:top}");

# Write Cylinder
snippet writecylinder Cylinder
	writecylinder("${1:text}",[${2:0},${3:0},${4:0}],${5:0},${6:0},rotate=${7:0},face=${8:top},center=${9:true});

# Write Sphere
snippet writesphere Sphere
	writesphere("${1:text}",[${2:0},${3:0},${4:0}],${5:0});

#########################################################################
# MCAD snippets (http://reprap.org/wiki/MCAD)
#########################################################################

# MCAD ComplexRoundSquare
snippet complexroundsqaure ComplexRoundSquare
	complexRoundSquare(${1:size},rads1=[${2:0},${3:0}], rads2=[${4:0},${5:0}], rads3=[${6:0},${7:0}], rads4=[${8:0},${9:0}], center=${10:true});

# MCAD DonutSlice
snippet donutslice DonutSlice
	donutSlice(${1:innerSize},${2:outerSize}, ${3:start_angle}, ${4:end_angle});

# MCAD Ellipse
snippet ellipse Ellipse
	ellipse(${1:width}, ${2:height});

# MCAD EllipsePart
snippet ellipsepart EllipsePart
	ellipsePart(${1:width},${2:height},${3:numQuarters});

# MCAD ngon
snippet ngon ngon
	ngon(${1:sides}, ${2:radius}, center=${3:false});

# MCAD PieSlice
snippet pieslice PieSlice
	pieSlice(${1:size}, ${2:start_angle}, ${3:end_angle});

# MCAD RoundedSquare
snippet roundedsquare RoundedSquare
	roundedSquare(pos=[${1:0},${2:0}],r=${3:2});

# MCAD Box
snippet roundedbox Box
	roundedBox([${1:width}, ${2:height}, ${3:depth}], ${4:float_radius}, ${5:bool_sidesonly});

# MCAD gridbeam backBoard
snippet backboard Board
	backBoard(${1:width}, ${2:depth}, ${3:corners});

# MCAD gridbeam bottomShelf
snippet bottomshelf Shelf
	bottomShelf(${1:width}, ${2:depth}, ${3:corners});

# MCAD gridbeam frontBoard
snippet frontboard Board
	frontBoard(${1:width}, ${2:depth}, ${3:corners});

# MCAD gridbeam topShelf
snippet topshelf Shelf
	topShelf(${1:width}, ${2:depth}, ${3:corners});

# MCAD gridbeam translateBeam
snippet translatebeam Beam
	translateBeam([${1:x}, ${2:y}, ${3:z}]);

# MCAD gridbeam xbeam
snippet xbeam
	xBeam(${1:segments});

# MCAD gridbeam ybeam
snippet ybeam
	yBeam(${1:segments});

# MCAD gridbeam zbeam
snippet zbeam
	zBeam(${1:segments});

# MCAD involutegears bevelGear
snippet bevelgear Gear
	bevel_gear (number_of_teeth=${1:0}, cone_distance=${2:0}, face_width=${3:0}, outside_circular_pitch=${4:0}, pressure_angle=${5:0}, clearance = ${6:0}, bore_diameter=${7:0}, gear_thickness = ${8:0}, backlash = ${9:0}, involute_facets=${10:0}, finish = ${11:0});

# MCAD involutegears bevelGearPair
snippet bevelgearpair GearPair
	bevel_gear_pair (gear1_teeth = ${1:0}, gear2_teeth = {$2:0}, axis_angle = ${3:0}, outside_circular_pitch=${4:0});

# MCAD involutegears gear
snippet gear
	gear (circular_pitch=${1:0}, gear_thickness = ${2:0}, rim_thickness = ${3:0}, hub_thickness = ${4:0}, circles=${5:0});


#########################################################################
# Customizer snippets
#########################################################################

# Customizer DropDownBox
snippet custdrop DropDownBox
	// ${1:Drop Down Box Description}
	${2:variable} = ${3:default_value}; // [${4:1},${5:2},${6:3}]

# Customizer DefaultPreview
snippet custpreview DefaultPreview
	// preview[view:${1:south}, tilt:${2:top}]

# Customizer Slider
snippet custslider Slider
	
	// ${1:Slider Description}
	${2:variable} = ${3:default_value}; // [${4:0}:${5:10}]

# Customizer TabName
snippet custtab TabName
	/* [${1:Tab Name}] */

# Customizer Libraries
snippet customizerlibraries Libraries
	// Uncomment the library/libraries of your choice to include them
	// use <utils/build_plate.scad>
	// use <MCAD/filename.scad>
	// use <pins/pins.scad>
	// use <write/Write.scad>
	

#########################################################################
# BuildPlate snippets (http://www.thingiverse.com/thing:44094)
#########################################################################

# Plate
snippet buildplate Plate
	//for display only, doesn't contribute to final object
	build_plate_selector = 0; //[0:Replicator 2,1: Replicator,2:Thingomatic,3:Manual]
	
	//when Build Plate Selector is set to "manual" this controls the build plate x dimension
	build_plate_manual_x = 100; //[100:400]
	
	//when Build Plate Selector is set to "manual" this controls the build plate y dimension
	build_plate_manual_y = 100; //[100:400]
	
	build_plate(build_plate_selector,build_plate_manual_x,build_plate_manual_y);
	

#########################################################################
# pins snippets (http://www.thingiverse.com/thing:10541)
#########################################################################

#
snippet pin
	pin(h=${1:shaft_height}, r=${2:shaft_radius}, lh=${3:lip_height}, lt=${4:lip_thickness}, side=${5:true});

# Hole
snippet pinhole Hole
	pinhole(h=${1:shaft_height}, r=${2:shaft_radius}, lh=${3:lip_height}, lt=${4:lip_thickness}, t=${5:tolerence}, tight=${6:tight});

# Peg
snippet pinpeg Peg
	pinpeg(h=${1:shaft_height}, r=${2:shaft_radius}, lh=${3:lip_height}, lt=${4:lip_thickness});

# Tack
snippet pintack Tack
	pintack(h=${1:shaft_height}, r=${2:shaft_radius}, lh=${3:lip_height}, lt=${4:lip_thickness}, bh=${5:base_height}, br=${6:base_radius});