frc971/control_loops/python/spline_drawing.py - RealtimeRoboticsGroup/test - Gitiles

 from color import Color, palette
 import cairo

 import numpy as np
 from basic_window import OverrideMatrix, identity, quit_main_loop, set_color

 WIDTH_OF_FIELD_IN_METERS = 8.258302
 PIXELS_ON_SCREEN = 800

 X_TRANSLATE = 0
 Y_TRANSLATE = 0


 def pxToM(p):
     return p * WIDTH_OF_FIELD_IN_METERS / PIXELS_ON_SCREEN


 def mToPx(m):
     return (m * PIXELS_ON_SCREEN / WIDTH_OF_FIELD_IN_METERS)


 def px(cr):
     return OverrideMatrix(cr, identity)


 def draw_px_cross(cr, x, y, length_px, color=palette["RED"]):
     """Draws a cross with fixed dimensions in pixel space."""
     set_color(cr, color)
     cr.move_to(x, y - length_px)
     cr.line_to(x, y + length_px)
     cr.stroke()

     cr.move_to(x - length_px, y)
     cr.line_to(x + length_px, y)
     cr.stroke()
     set_color(cr, palette["LIGHT_GREY"])


 def draw_px_x(cr, x, y, length_px1, color=palette["BLACK"]):
     """Draws a x with fixed dimensions in pixel space."""
     length_px = length_px1 / np.sqrt(2)
     set_color(cr, color)
     cr.move_to(x - length_px, y - length_px)
     cr.line_to(x + length_px, y + length_px)
     cr.stroke()

     cr.move_to(x - length_px, y + length_px)
     cr.line_to(x + length_px, y - length_px)
     cr.stroke()
     set_color(cr, palette["LIGHT_GREY"])


 def display_text(cr, text, widtha, heighta, widthb, heightb):
     cr.scale(widtha, -heighta)
     cr.show_text(text)
     cr.scale(widthb, -heightb)


 def redraw(needs_redraw, window):
     print("Redrew")
     if not needs_redraw:
         window.queue_draw()


 def draw_HAB(cr):
     print("WENT IN")
     # BASE Constants
     X_BASE = 0 + X_TRANSLATE  #(2.41568)
     Y_BASE = 0 + Y_TRANSLATE  #mToPx(4.129151)
     BACKWALL_X = X_TRANSLATE
     LOADING_Y = mToPx(4.129151) - mToPx(0.696976)
     # HAB Levels 2 and 3 called in variables backhab
     # draw loading stations
     cr.move_to(0, LOADING_Y)
     cr.line_to(mToPx(0.6), LOADING_Y)
     cr.move_to(0, -1.0 * LOADING_Y)
     cr.line_to(mToPx(0.6), -1.0 * LOADING_Y)

     BACKWALL_X = X_TRANSLATE

     # HAB Levels 2 and 3 called in variables backhab

     WIDTH_BACKHAB = mToPx(1.2192)

     Y_TOP_BACKHAB_BOX = Y_BASE + mToPx(0.6096)
     BACKHAB_LV2_LENGTH = mToPx(1.016)

     BACKHAB_LV3_LENGTH = mToPx(1.2192)
     Y_LV3_BOX = Y_TOP_BACKHAB_BOX - BACKHAB_LV3_LENGTH

     Y_BOTTOM_BACKHAB_BOX = Y_LV3_BOX - BACKHAB_LV2_LENGTH

     # HAB LEVEL 1
     X_LV1_BOX = BACKWALL_X + WIDTH_BACKHAB

     WIDTH_LV1_BOX = mToPx(0.90805)
     LENGTH_LV1_BOX = mToPx(1.6256)

     Y_BOTTOM_LV1_BOX = Y_BASE - LENGTH_LV1_BOX

     # Ramp off Level 1
     X_RAMP = X_LV1_BOX

     Y_TOP_RAMP = Y_BASE + LENGTH_LV1_BOX
     WIDTH_TOP_RAMP = mToPx(1.20015)
     LENGTH_TOP_RAMP = Y_BASE + mToPx(0.28306)

     X_MIDDLE_RAMP = X_RAMP + WIDTH_LV1_BOX
     Y_MIDDLE_RAMP = Y_BOTTOM_LV1_BOX
     LENGTH_MIDDLE_RAMP = 2 * LENGTH_LV1_BOX
     WIDTH_MIDDLE_RAMP = WIDTH_TOP_RAMP - WIDTH_LV1_BOX

     Y_BOTTOM_RAMP = Y_BASE - LENGTH_LV1_BOX - LENGTH_TOP_RAMP

     # Side Bars to Hold in balls
     X_BARS = BACKWALL_X
     WIDTH_BARS = WIDTH_BACKHAB
     LENGTH_BARS = mToPx(0.574675)

     Y_TOP_BAR = Y_TOP_BACKHAB_BOX + BACKHAB_LV2_LENGTH

     Y_BOTTOM_BAR = Y_BOTTOM_BACKHAB_BOX - LENGTH_BARS

     set_color(cr, palette["BLACK"])
     cr.rectangle(BACKWALL_X, Y_TOP_BACKHAB_BOX, WIDTH_BACKHAB,
                  BACKHAB_LV2_LENGTH)
     cr.rectangle(BACKWALL_X, Y_LV3_BOX, WIDTH_BACKHAB, BACKHAB_LV3_LENGTH)
     cr.rectangle(BACKWALL_X, Y_BOTTOM_BACKHAB_BOX, WIDTH_BACKHAB,
                  BACKHAB_LV2_LENGTH)
     cr.rectangle(X_LV1_BOX, Y_BASE, WIDTH_LV1_BOX, LENGTH_LV1_BOX)
     cr.rectangle(X_LV1_BOX, Y_BOTTOM_LV1_BOX, WIDTH_LV1_BOX, LENGTH_LV1_BOX)
     cr.rectangle(X_RAMP, Y_TOP_RAMP, WIDTH_TOP_RAMP, LENGTH_TOP_RAMP)
     cr.rectangle(X_MIDDLE_RAMP, Y_MIDDLE_RAMP, WIDTH_MIDDLE_RAMP,
                  LENGTH_MIDDLE_RAMP)
     cr.rectangle(X_RAMP, Y_BOTTOM_RAMP, WIDTH_TOP_RAMP, LENGTH_TOP_RAMP)
     cr.rectangle(X_BARS, Y_TOP_BAR, WIDTH_BARS, LENGTH_BARS)
     cr.rectangle(X_BARS, Y_BOTTOM_BAR, WIDTH_BARS, LENGTH_BARS)
     cr.stroke()

     cr.set_line_join(cairo.LINE_JOIN_ROUND)

     cr.stroke()

     #draw 0, 0
     set_color(cr, palette["BLACK"])
     cr.move_to(X_TRANSLATE, Y_TRANSLATE)
     cr.line_to(X_TRANSLATE, Y_TRANSLATE + mToPx(8.2296 / 2.0))
     cr.move_to(X_TRANSLATE, Y_TRANSLATE)
     cr.line_to(X_TRANSLATE, Y_TRANSLATE + mToPx(-8.2296 / 2.0))
     cr.move_to(X_TRANSLATE, Y_TRANSLATE)
     cr.line_to(X_TRANSLATE + mToPx(8.2296), Y_TRANSLATE)

     cr.stroke()


 def draw_rockets(cr):
     # BASE Constants
     X_BASE = 0 + X_TRANSLATE + mToPx(2.41568)
     Y_BASE = 0 + Y_TRANSLATE  #mToPx(4.129151)

     near_side_rocket_center = [
         X_BASE + mToPx((2.89973 + 3.15642) / 2.0), Y_BASE + mToPx(
             (3.86305 + 3.39548) / 2.0)
     ]
     middle_rocket_center = [
         X_BASE + mToPx((3.15642 + 3.6347) / 2.0), Y_BASE + mToPx(
             (3.39548 + 3.392380) / 2.0)
     ]
     far_side_rocket_center = [
         X_BASE + mToPx((3.63473 + 3.89984) / 2.0), Y_BASE + mToPx(
             (3.39238 + 3.86305) / 2.0)
     ]

     cr.move_to(near_side_rocket_center[0], near_side_rocket_center[1])
     cr.line_to(near_side_rocket_center[0] - 0.4 * mToPx(0.866),
                near_side_rocket_center[1] - 0.4 * mToPx(0.5))

     cr.move_to(middle_rocket_center[0], middle_rocket_center[1])
     cr.line_to(middle_rocket_center[0], middle_rocket_center[1] - mToPx(0.4))

     cr.move_to(far_side_rocket_center[0], far_side_rocket_center[1])
     cr.line_to(far_side_rocket_center[0] + 0.4 * mToPx(0.866),
                far_side_rocket_center[1] - 0.4 * mToPx(0.5))

     print("FAR SIDE ROCKET")
     #print(far_side_rocket_center)
     near_side_rocket_center = [
         X_BASE + mToPx((2.89973 + 3.15642) / 2.0), Y_BASE - mToPx(
             (3.86305 + 3.39548) / 2.0)
     ]
     middle_rocket_center = [
         X_BASE + mToPx((3.15642 + 3.6347) / 2.0), Y_BASE - mToPx(
             (3.39548 + 3.392380) / 2.0)
     ]
     far_side_rocket_center = [
         X_BASE + mToPx((3.63473 + 3.89984) / 2.0), Y_BASE - mToPx(
             (3.39238 + 3.86305) / 2.0)
     ]

     cr.move_to(near_side_rocket_center[0], near_side_rocket_center[1])
     cr.line_to(near_side_rocket_center[0] - 0.4 * mToPx(0.866),
                near_side_rocket_center[1] + 0.4 * mToPx(0.5))

     cr.move_to(middle_rocket_center[0], middle_rocket_center[1])
     cr.line_to(middle_rocket_center[0], middle_rocket_center[1] + mToPx(0.4))

     cr.move_to(far_side_rocket_center[0], far_side_rocket_center[1])
     cr.line_to(far_side_rocket_center[0] + 0.4 * mToPx(0.866),
                far_side_rocket_center[1] + 0.4 * mToPx(0.5))

     X_BASE = 0 + X_TRANSLATE  #mToPx(2.41568)
     Y_BASE = 0 + Y_TRANSLATE  #mToPx(4.129151)

     # Leftmost Line
     cr.move_to(X_BASE + mToPx(2.89973), Y_BASE + mToPx(3.86305))
     cr.line_to(X_BASE + mToPx(3.15642), Y_BASE + mToPx(3.39548))

     # Top Line
     cr.move_to(X_BASE + mToPx(3.15642), Y_BASE + mToPx(3.39548))
     cr.line_to(X_BASE + mToPx(3.63473), Y_BASE + mToPx(3.39238))

     #Rightmost Line
     cr.move_to(X_BASE + mToPx(3.63473), Y_BASE + mToPx(3.39238))
     cr.line_to(X_BASE + mToPx(3.89984), Y_BASE + mToPx(3.86305))

     #Back Line
     cr.move_to(X_BASE + mToPx(2.89973), Y_BASE + mToPx(3.86305))
     cr.line_to(X_BASE + mToPx(3.89984), Y_BASE + mToPx(3.86305))

     # Leftmost Line
     cr.move_to(X_BASE + mToPx(2.89973), Y_BASE - mToPx(3.86305))
     cr.line_to(X_BASE + mToPx(3.15642), Y_BASE - mToPx(3.39548))

     # Top Line
     cr.move_to(X_BASE + mToPx(3.15642), Y_BASE - mToPx(3.39548))
     cr.line_to(X_BASE + mToPx(3.63473), Y_BASE - mToPx(3.39238))

     #Rightmost Line
     cr.move_to(X_BASE + mToPx(3.63473), Y_BASE - mToPx(3.39238))
     cr.line_to(X_BASE + mToPx(3.89984), Y_BASE - mToPx(3.86305))

     #Back Line
     cr.move_to(X_BASE + mToPx(2.89973), Y_BASE - mToPx(3.86305))
     cr.line_to(X_BASE + mToPx(3.89984), Y_BASE - mToPx(3.86305))

     cr.stroke()


 def draw_cargo_ship(cr):
     # BASE Constants

     X_BASE = X_TRANSLATE + mToPx(5.59435)
     Y_BASE = 0 + Y_TRANSLATE  #mToPx(4.129151)

     FRONT_PEG_DELTA_Y = mToPx(0.276352)
     cr.move_to(X_BASE, Y_BASE + FRONT_PEG_DELTA_Y)
     cr.line_to(X_BASE - mToPx(0.4), Y_BASE + FRONT_PEG_DELTA_Y)

     cr.move_to(X_BASE, Y_BASE - FRONT_PEG_DELTA_Y)
     cr.line_to(X_BASE - mToPx(0.4), Y_BASE - FRONT_PEG_DELTA_Y)

     SIDE_PEG_Y = mToPx(1.41605 / 2.0)
     SIDE_PEG_X = X_BASE + mToPx(1.148842)
     SIDE_PEG_DX = mToPx(0.55245)

     cr.move_to(SIDE_PEG_X, SIDE_PEG_Y)
     cr.line_to(SIDE_PEG_X, SIDE_PEG_Y + mToPx(0.4))

     cr.move_to(SIDE_PEG_X + SIDE_PEG_DX, SIDE_PEG_Y)
     cr.line_to(SIDE_PEG_X + SIDE_PEG_DX, SIDE_PEG_Y + mToPx(0.4))

     cr.move_to(SIDE_PEG_X + 2.0 * SIDE_PEG_DX, SIDE_PEG_Y)
     cr.line_to(SIDE_PEG_X + 2.0 * SIDE_PEG_DX, SIDE_PEG_Y + mToPx(0.4))

     cr.move_to(SIDE_PEG_X, -1.0 * SIDE_PEG_Y)
     cr.line_to(SIDE_PEG_X, -1.0 * SIDE_PEG_Y - mToPx(0.4))

     cr.move_to(SIDE_PEG_X + SIDE_PEG_DX, -1.0 * SIDE_PEG_Y)
     cr.line_to(SIDE_PEG_X + SIDE_PEG_DX, -1.0 * SIDE_PEG_Y - mToPx(0.4))

     cr.move_to(SIDE_PEG_X + 2.0 * SIDE_PEG_DX, -1.0 * SIDE_PEG_Y)
     cr.line_to(SIDE_PEG_X + 2.0 * SIDE_PEG_DX, -1.0 * SIDE_PEG_Y - mToPx(0.4))

     cr.rectangle(X_BASE, Y_BASE - mToPx(1.41605 / 2.0), mToPx(2.43205),
                  mToPx(1.41605))

     X_BASE = X_TRANSLATE + mToPx(2.41568)
     Y_BASE = 0 + Y_TRANSLATE  #mToPx(4.129151)

     cr.rectangle(X_BASE + mToPx(3.15912), Y_BASE - mToPx(0.72326),
                  mToPx(2.43205), mToPx(1.41605))

     cr.stroke()
	from color import Color, palette
	import cairo

	import numpy as np
	from basic_window import OverrideMatrix, identity, quit_main_loop, set_color

	WIDTH_OF_FIELD_IN_METERS = 8.258302
	PIXELS_ON_SCREEN = 800

	X_TRANSLATE = 0
	Y_TRANSLATE = 0


	def pxToM(p):
	return p * WIDTH_OF_FIELD_IN_METERS / PIXELS_ON_SCREEN


	def mToPx(m):
	return (m * PIXELS_ON_SCREEN / WIDTH_OF_FIELD_IN_METERS)


	def px(cr):
	return OverrideMatrix(cr, identity)


	def draw_px_cross(cr, x, y, length_px, color=palette["RED"]):
	"""Draws a cross with fixed dimensions in pixel space."""
	set_color(cr, color)
	cr.move_to(x, y - length_px)
	cr.line_to(x, y + length_px)
	cr.stroke()

	cr.move_to(x - length_px, y)
	cr.line_to(x + length_px, y)
	cr.stroke()
	set_color(cr, palette["LIGHT_GREY"])


	def draw_px_x(cr, x, y, length_px1, color=palette["BLACK"]):
	"""Draws a x with fixed dimensions in pixel space."""
	length_px = length_px1 / np.sqrt(2)
	set_color(cr, color)
	cr.move_to(x - length_px, y - length_px)
	cr.line_to(x + length_px, y + length_px)
	cr.stroke()

	cr.move_to(x - length_px, y + length_px)
	cr.line_to(x + length_px, y - length_px)
	cr.stroke()
	set_color(cr, palette["LIGHT_GREY"])


	def display_text(cr, text, widtha, heighta, widthb, heightb):
	cr.scale(widtha, -heighta)
	cr.show_text(text)
	cr.scale(widthb, -heightb)


	def redraw(needs_redraw, window):
	print("Redrew")
	if not needs_redraw:
	window.queue_draw()


	def draw_HAB(cr):
	print("WENT IN")
	# BASE Constants
	X_BASE = 0 + X_TRANSLATE #(2.41568)
	Y_BASE = 0 + Y_TRANSLATE #mToPx(4.129151)
	BACKWALL_X = X_TRANSLATE
	LOADING_Y = mToPx(4.129151) - mToPx(0.696976)
	# HAB Levels 2 and 3 called in variables backhab
	# draw loading stations
	cr.move_to(0, LOADING_Y)
	cr.line_to(mToPx(0.6), LOADING_Y)
	cr.move_to(0, -1.0 * LOADING_Y)
	cr.line_to(mToPx(0.6), -1.0 * LOADING_Y)

	BACKWALL_X = X_TRANSLATE

	# HAB Levels 2 and 3 called in variables backhab

	WIDTH_BACKHAB = mToPx(1.2192)

	Y_TOP_BACKHAB_BOX = Y_BASE + mToPx(0.6096)
	BACKHAB_LV2_LENGTH = mToPx(1.016)

	BACKHAB_LV3_LENGTH = mToPx(1.2192)
	Y_LV3_BOX = Y_TOP_BACKHAB_BOX - BACKHAB_LV3_LENGTH

	Y_BOTTOM_BACKHAB_BOX = Y_LV3_BOX - BACKHAB_LV2_LENGTH

	# HAB LEVEL 1
	X_LV1_BOX = BACKWALL_X + WIDTH_BACKHAB

	WIDTH_LV1_BOX = mToPx(0.90805)
	LENGTH_LV1_BOX = mToPx(1.6256)

	Y_BOTTOM_LV1_BOX = Y_BASE - LENGTH_LV1_BOX

	# Ramp off Level 1
	X_RAMP = X_LV1_BOX

	Y_TOP_RAMP = Y_BASE + LENGTH_LV1_BOX
	WIDTH_TOP_RAMP = mToPx(1.20015)
	LENGTH_TOP_RAMP = Y_BASE + mToPx(0.28306)

	X_MIDDLE_RAMP = X_RAMP + WIDTH_LV1_BOX
	Y_MIDDLE_RAMP = Y_BOTTOM_LV1_BOX
	LENGTH_MIDDLE_RAMP = 2 * LENGTH_LV1_BOX
	WIDTH_MIDDLE_RAMP = WIDTH_TOP_RAMP - WIDTH_LV1_BOX

	Y_BOTTOM_RAMP = Y_BASE - LENGTH_LV1_BOX - LENGTH_TOP_RAMP

	# Side Bars to Hold in balls
	X_BARS = BACKWALL_X
	WIDTH_BARS = WIDTH_BACKHAB
	LENGTH_BARS = mToPx(0.574675)

	Y_TOP_BAR = Y_TOP_BACKHAB_BOX + BACKHAB_LV2_LENGTH

	Y_BOTTOM_BAR = Y_BOTTOM_BACKHAB_BOX - LENGTH_BARS

	set_color(cr, palette["BLACK"])
	cr.rectangle(BACKWALL_X, Y_TOP_BACKHAB_BOX, WIDTH_BACKHAB,
	BACKHAB_LV2_LENGTH)
	cr.rectangle(BACKWALL_X, Y_LV3_BOX, WIDTH_BACKHAB, BACKHAB_LV3_LENGTH)
	cr.rectangle(BACKWALL_X, Y_BOTTOM_BACKHAB_BOX, WIDTH_BACKHAB,
	BACKHAB_LV2_LENGTH)
	cr.rectangle(X_LV1_BOX, Y_BASE, WIDTH_LV1_BOX, LENGTH_LV1_BOX)
	cr.rectangle(X_LV1_BOX, Y_BOTTOM_LV1_BOX, WIDTH_LV1_BOX, LENGTH_LV1_BOX)
	cr.rectangle(X_RAMP, Y_TOP_RAMP, WIDTH_TOP_RAMP, LENGTH_TOP_RAMP)
	cr.rectangle(X_MIDDLE_RAMP, Y_MIDDLE_RAMP, WIDTH_MIDDLE_RAMP,
	LENGTH_MIDDLE_RAMP)
	cr.rectangle(X_RAMP, Y_BOTTOM_RAMP, WIDTH_TOP_RAMP, LENGTH_TOP_RAMP)
	cr.rectangle(X_BARS, Y_TOP_BAR, WIDTH_BARS, LENGTH_BARS)
	cr.rectangle(X_BARS, Y_BOTTOM_BAR, WIDTH_BARS, LENGTH_BARS)
	cr.stroke()

	cr.set_line_join(cairo.LINE_JOIN_ROUND)

	cr.stroke()

	#draw 0, 0
	set_color(cr, palette["BLACK"])
	cr.move_to(X_TRANSLATE, Y_TRANSLATE)
	cr.line_to(X_TRANSLATE, Y_TRANSLATE + mToPx(8.2296 / 2.0))
	cr.move_to(X_TRANSLATE, Y_TRANSLATE)
	cr.line_to(X_TRANSLATE, Y_TRANSLATE + mToPx(-8.2296 / 2.0))
	cr.move_to(X_TRANSLATE, Y_TRANSLATE)
	cr.line_to(X_TRANSLATE + mToPx(8.2296), Y_TRANSLATE)

	cr.stroke()


	def draw_rockets(cr):
	# BASE Constants
	X_BASE = 0 + X_TRANSLATE + mToPx(2.41568)
	Y_BASE = 0 + Y_TRANSLATE #mToPx(4.129151)

	near_side_rocket_center = [
	X_BASE + mToPx((2.89973 + 3.15642) / 2.0), Y_BASE + mToPx(
	(3.86305 + 3.39548) / 2.0)
	]
	middle_rocket_center = [
	X_BASE + mToPx((3.15642 + 3.6347) / 2.0), Y_BASE + mToPx(
	(3.39548 + 3.392380) / 2.0)
	]
	far_side_rocket_center = [
	X_BASE + mToPx((3.63473 + 3.89984) / 2.0), Y_BASE + mToPx(
	(3.39238 + 3.86305) / 2.0)
	]

	cr.move_to(near_side_rocket_center[0], near_side_rocket_center[1])
	cr.line_to(near_side_rocket_center[0] - 0.4 * mToPx(0.866),
	near_side_rocket_center[1] - 0.4 * mToPx(0.5))

	cr.move_to(middle_rocket_center[0], middle_rocket_center[1])
	cr.line_to(middle_rocket_center[0], middle_rocket_center[1] - mToPx(0.4))

	cr.move_to(far_side_rocket_center[0], far_side_rocket_center[1])
	cr.line_to(far_side_rocket_center[0] + 0.4 * mToPx(0.866),
	far_side_rocket_center[1] - 0.4 * mToPx(0.5))

	print("FAR SIDE ROCKET")
	#print(far_side_rocket_center)
	near_side_rocket_center = [
	X_BASE + mToPx((2.89973 + 3.15642) / 2.0), Y_BASE - mToPx(
	(3.86305 + 3.39548) / 2.0)
	]
	middle_rocket_center = [
	X_BASE + mToPx((3.15642 + 3.6347) / 2.0), Y_BASE - mToPx(
	(3.39548 + 3.392380) / 2.0)
	]
	far_side_rocket_center = [
	X_BASE + mToPx((3.63473 + 3.89984) / 2.0), Y_BASE - mToPx(
	(3.39238 + 3.86305) / 2.0)
	]

	cr.move_to(near_side_rocket_center[0], near_side_rocket_center[1])
	cr.line_to(near_side_rocket_center[0] - 0.4 * mToPx(0.866),
	near_side_rocket_center[1] + 0.4 * mToPx(0.5))

	cr.move_to(middle_rocket_center[0], middle_rocket_center[1])
	cr.line_to(middle_rocket_center[0], middle_rocket_center[1] + mToPx(0.4))

	cr.move_to(far_side_rocket_center[0], far_side_rocket_center[1])
	cr.line_to(far_side_rocket_center[0] + 0.4 * mToPx(0.866),
	far_side_rocket_center[1] + 0.4 * mToPx(0.5))

	X_BASE = 0 + X_TRANSLATE #mToPx(2.41568)
	Y_BASE = 0 + Y_TRANSLATE #mToPx(4.129151)

	# Leftmost Line
	cr.move_to(X_BASE + mToPx(2.89973), Y_BASE + mToPx(3.86305))
	cr.line_to(X_BASE + mToPx(3.15642), Y_BASE + mToPx(3.39548))

	# Top Line
	cr.move_to(X_BASE + mToPx(3.15642), Y_BASE + mToPx(3.39548))
	cr.line_to(X_BASE + mToPx(3.63473), Y_BASE + mToPx(3.39238))

	#Rightmost Line
	cr.move_to(X_BASE + mToPx(3.63473), Y_BASE + mToPx(3.39238))
	cr.line_to(X_BASE + mToPx(3.89984), Y_BASE + mToPx(3.86305))

	#Back Line
	cr.move_to(X_BASE + mToPx(2.89973), Y_BASE + mToPx(3.86305))
	cr.line_to(X_BASE + mToPx(3.89984), Y_BASE + mToPx(3.86305))

	# Leftmost Line
	cr.move_to(X_BASE + mToPx(2.89973), Y_BASE - mToPx(3.86305))
	cr.line_to(X_BASE + mToPx(3.15642), Y_BASE - mToPx(3.39548))

	# Top Line
	cr.move_to(X_BASE + mToPx(3.15642), Y_BASE - mToPx(3.39548))
	cr.line_to(X_BASE + mToPx(3.63473), Y_BASE - mToPx(3.39238))

	#Rightmost Line
	cr.move_to(X_BASE + mToPx(3.63473), Y_BASE - mToPx(3.39238))
	cr.line_to(X_BASE + mToPx(3.89984), Y_BASE - mToPx(3.86305))

	#Back Line
	cr.move_to(X_BASE + mToPx(2.89973), Y_BASE - mToPx(3.86305))
	cr.line_to(X_BASE + mToPx(3.89984), Y_BASE - mToPx(3.86305))

	cr.stroke()


	def draw_cargo_ship(cr):
	# BASE Constants

	X_BASE = X_TRANSLATE + mToPx(5.59435)
	Y_BASE = 0 + Y_TRANSLATE #mToPx(4.129151)

	FRONT_PEG_DELTA_Y = mToPx(0.276352)
	cr.move_to(X_BASE, Y_BASE + FRONT_PEG_DELTA_Y)
	cr.line_to(X_BASE - mToPx(0.4), Y_BASE + FRONT_PEG_DELTA_Y)

	cr.move_to(X_BASE, Y_BASE - FRONT_PEG_DELTA_Y)
	cr.line_to(X_BASE - mToPx(0.4), Y_BASE - FRONT_PEG_DELTA_Y)

	SIDE_PEG_Y = mToPx(1.41605 / 2.0)
	SIDE_PEG_X = X_BASE + mToPx(1.148842)
	SIDE_PEG_DX = mToPx(0.55245)

	cr.move_to(SIDE_PEG_X, SIDE_PEG_Y)
	cr.line_to(SIDE_PEG_X, SIDE_PEG_Y + mToPx(0.4))

	cr.move_to(SIDE_PEG_X + SIDE_PEG_DX, SIDE_PEG_Y)
	cr.line_to(SIDE_PEG_X + SIDE_PEG_DX, SIDE_PEG_Y + mToPx(0.4))

	cr.move_to(SIDE_PEG_X + 2.0 * SIDE_PEG_DX, SIDE_PEG_Y)
	cr.line_to(SIDE_PEG_X + 2.0 * SIDE_PEG_DX, SIDE_PEG_Y + mToPx(0.4))

	cr.move_to(SIDE_PEG_X, -1.0 * SIDE_PEG_Y)
	cr.line_to(SIDE_PEG_X, -1.0 * SIDE_PEG_Y - mToPx(0.4))

	cr.move_to(SIDE_PEG_X + SIDE_PEG_DX, -1.0 * SIDE_PEG_Y)
	cr.line_to(SIDE_PEG_X + SIDE_PEG_DX, -1.0 * SIDE_PEG_Y - mToPx(0.4))

	cr.move_to(SIDE_PEG_X + 2.0 * SIDE_PEG_DX, -1.0 * SIDE_PEG_Y)
	cr.line_to(SIDE_PEG_X + 2.0 * SIDE_PEG_DX, -1.0 * SIDE_PEG_Y - mToPx(0.4))

	cr.rectangle(X_BASE, Y_BASE - mToPx(1.41605 / 2.0), mToPx(2.43205),
	mToPx(1.41605))

	X_BASE = X_TRANSLATE + mToPx(2.41568)
	Y_BASE = 0 + Y_TRANSLATE #mToPx(4.129151)

	cr.rectangle(X_BASE + mToPx(3.15912), Y_BASE - mToPx(0.72326),
	mToPx(2.43205), mToPx(1.41605))

	cr.stroke()