20 files changed, 2343 insertions, 2091 deletions

diff --git a/.coveragerc b/.coveragerc
deleted file mode 100644
index 8b140ff..0000000
--- a/.coveragerc
+++ /dev/null
@@ -1,4 +0,0 @@
-[report]
-omit =
-    */python?.?/*
-    */site-packages/nose/*
\ No newline at end of file
diff --git a/.github/workflows/pcb-tools.yml b/.github/workflows/pcb-tools.yml
index 85038a7..931c075 100644
--- a/.github/workflows/pcb-tools.yml
+++ b/.github/workflows/pcb-tools.yml
@@ -18,9 +18,7 @@ jobs:
         python-version: ${{ matrix.python-version }}
     - name: Install dependencies
       run: |
-        python -m pip install --upgrade pip
         pip install -r requirements-dev.txt
     - name: Test with pytest
       run: |
-        pip install pytest
         pytest
diff --git a/.gitignore b/.gitignore
index a3ffb1c..12fb69a 100644
--- a/.gitignore
+++ b/.gitignore
@@ -48,3 +48,4 @@ Thumbs.db
 
 # Virtual environment
 venv
+coverage.xml
diff --git a/Makefile b/Makefile
index a1a88ea..96df768 100644
--- a/Makefile
+++ b/Makefile
@@ -1,6 +1,6 @@
 
 PYTHON ?= python
-NOSETESTS ?= nosetests
+PYTEST ?= pytest
 
 DOC_ROOT = doc
 EXAMPLES = examples
@@ -8,17 +8,17 @@ EXAMPLES = examples
 .PHONY: clean
 clean: doc-clean
 	find . -name '*.pyc' -delete
-	rm -rf coverage .coverage
 	rm -rf *.egg-info
+	rm -f coverage.xml
 
 .PHONY: test
 test:
-	$(NOSETESTS) -s -v gerber
+	$(PYTEST)
 
 .PHONY: test-coverage
 test-coverage:
-	rm -rf coverage .coverage
-	$(NOSETESTS) -s -v --with-coverage --cover-package=gerber
+	rm -rf coverage.xml
+	$(PYTEST) --cov=./ --cov-report=xml 
 
 .PHONY: install
 install:
diff --git a/README.md b/README.md
index 42c90f4..63fa47e 100644
--- a/README.md
+++ b/README.md
@@ -55,6 +55,6 @@ Dependencies for developing and testing pcb-tools are listed in requirements-dev
     (venv)$ pip install -r requirements-dev.txt
     (venv)$ pip install -e .
 
-We use nose to run pcb-tools's suite of unittests and doctests.
+We use [pytest](https://docs.pytest.org/en/latest/) to run pcb-tools's suite of unittests and doctests.
 
-    (venv)$ nosetests
+    (venv)$ pytest
diff --git a/gerber/tests/test_am_statements.py b/gerber/tests/test_am_statements.py
index c97556a..0d100b5 100644
--- a/gerber/tests/test_am_statements.py
+++ b/gerber/tests/test_am_statements.py
@@ -3,385 +3,393 @@
 
 # Author: Hamilton Kibbe <ham@hamiltonkib.be>
 
-from .tests import *
+import pytest
+
 from ..am_statements import *
 from ..am_statements import inch, metric
 
 
 def test_AMPrimitive_ctor():
-    for exposure in ('on', 'off', 'ON', 'OFF'):
+    for exposure in ("on", "off", "ON", "OFF"):
         for code in (0, 1, 2, 4, 5, 6, 7, 20, 21, 22):
             p = AMPrimitive(code, exposure)
-            assert_equal(p.code, code)
-            assert_equal(p.exposure, exposure.lower())
+            assert p.code == code
+            assert p.exposure == exposure.lower()
 
 
 def test_AMPrimitive_validation():
-    assert_raises(TypeError, AMPrimitive, '1', 'off')
-    assert_raises(ValueError, AMPrimitive, 0, 'exposed')
-    assert_raises(ValueError, AMPrimitive, 3, 'off')
+    pytest.raises(TypeError, AMPrimitive, "1", "off")
+    pytest.raises(ValueError, AMPrimitive, 0, "exposed")
+    pytest.raises(ValueError, AMPrimitive, 3, "off")
 
 
 def test_AMPrimitive_conversion():
-    p = AMPrimitive(4, 'on')
-    assert_raises(NotImplementedError, p.to_inch)
-    assert_raises(NotImplementedError, p.to_metric)
+    p = AMPrimitive(4, "on")
+    pytest.raises(NotImplementedError, p.to_inch)
+    pytest.raises(NotImplementedError, p.to_metric)
 
 
 def test_AMCommentPrimitive_ctor():
-    c = AMCommentPrimitive(0, ' This is a comment *')
-    assert_equal(c.code, 0)
-    assert_equal(c.comment, 'This is a comment')
+    c = AMCommentPrimitive(0, " This is a comment *")
+    assert c.code == 0
+    assert c.comment == "This is a comment"
 
 
 def test_AMCommentPrimitive_validation():
-    assert_raises(ValueError, AMCommentPrimitive, 1, 'This is a comment')
+    pytest.raises(ValueError, AMCommentPrimitive, 1, "This is a comment")
 
 
 def test_AMCommentPrimitive_factory():
-    c = AMCommentPrimitive.from_gerber('0 Rectangle with rounded corners. *')
-    assert_equal(c.code, 0)
-    assert_equal(c.comment, 'Rectangle with rounded corners.')
+    c = AMCommentPrimitive.from_gerber("0 Rectangle with rounded corners. *")
+    assert c.code == 0
+    assert c.comment == "Rectangle with rounded corners."
 
 
 def test_AMCommentPrimitive_dump():
-    c = AMCommentPrimitive(0, 'Rectangle with rounded corners.')
-    assert_equal(c.to_gerber(), '0 Rectangle with rounded corners. *')
+    c = AMCommentPrimitive(0, "Rectangle with rounded corners.")
+    assert c.to_gerber() == "0 Rectangle with rounded corners. *"
 
 
 def test_AMCommentPrimitive_conversion():
-    c = AMCommentPrimitive(0, 'Rectangle with rounded corners.')
+    c = AMCommentPrimitive(0, "Rectangle with rounded corners.")
     ci = c
     cm = c
     ci.to_inch()
     cm.to_metric()
-    assert_equal(c, ci)
-    assert_equal(c, cm)
+    assert c == ci
+    assert c == cm
 
 
 def test_AMCommentPrimitive_string():
-    c = AMCommentPrimitive(0, 'Test Comment')
-    assert_equal(str(c), '<Aperture Macro Comment: Test Comment>')
+    c = AMCommentPrimitive(0, "Test Comment")
+    assert str(c) == "<Aperture Macro Comment: Test Comment>"
 
 
 def test_AMCirclePrimitive_ctor():
-    test_cases = ((1, 'on', 0, (0, 0)),
-                  (1, 'off', 1, (0, 1)),
-                  (1, 'on', 2.5, (0, 2)),
-                  (1, 'off', 5.0, (3, 3)))
+    test_cases = (
+        (1, "on", 0, (0, 0)),
+        (1, "off", 1, (0, 1)),
+        (1, "on", 2.5, (0, 2)),
+        (1, "off", 5.0, (3, 3)),
+    )
     for code, exposure, diameter, position in test_cases:
         c = AMCirclePrimitive(code, exposure, diameter, position)
-        assert_equal(c.code, code)
-        assert_equal(c.exposure, exposure)
-        assert_equal(c.diameter, diameter)
-        assert_equal(c.position, position)
+        assert c.code == code
+        assert c.exposure == exposure
+        assert c.diameter == diameter
+        assert c.position == position
 
 
 def test_AMCirclePrimitive_validation():
-    assert_raises(ValueError, AMCirclePrimitive, 2, 'on', 0, (0, 0))
+    pytest.raises(ValueError, AMCirclePrimitive, 2, "on", 0, (0, 0))
 
 
 def test_AMCirclePrimitive_factory():
-    c = AMCirclePrimitive.from_gerber('1,0,5,0,0*')
-    assert_equal(c.code, 1)
-    assert_equal(c.exposure, 'off')
-    assert_equal(c.diameter, 5)
-    assert_equal(c.position, (0, 0))
+    c = AMCirclePrimitive.from_gerber("1,0,5,0,0*")
+    assert c.code == 1
+    assert c.exposure == "off"
+    assert c.diameter == 5
+    assert c.position == (0, 0)
 
 
 def test_AMCirclePrimitive_dump():
-    c = AMCirclePrimitive(1, 'off', 5, (0, 0))
-    assert_equal(c.to_gerber(), '1,0,5,0,0*')
-    c = AMCirclePrimitive(1, 'on', 5, (0, 0))
-    assert_equal(c.to_gerber(), '1,1,5,0,0*')
+    c = AMCirclePrimitive(1, "off", 5, (0, 0))
+    assert c.to_gerber() == "1,0,5,0,0*"
+    c = AMCirclePrimitive(1, "on", 5, (0, 0))
+    assert c.to_gerber() == "1,1,5,0,0*"
 
 
 def test_AMCirclePrimitive_conversion():
-    c = AMCirclePrimitive(1, 'off', 25.4, (25.4, 0))
+    c = AMCirclePrimitive(1, "off", 25.4, (25.4, 0))
     c.to_inch()
-    assert_equal(c.diameter, 1)
-    assert_equal(c.position, (1, 0))
+    assert c.diameter == 1
+    assert c.position == (1, 0)
 
-    c = AMCirclePrimitive(1, 'off', 1, (1, 0))
+    c = AMCirclePrimitive(1, "off", 1, (1, 0))
     c.to_metric()
-    assert_equal(c.diameter, 25.4)
-    assert_equal(c.position, (25.4, 0))
+    assert c.diameter == 25.4
+    assert c.position == (25.4, 0)
 
 
 def test_AMVectorLinePrimitive_validation():
-    assert_raises(ValueError, AMVectorLinePrimitive,
-                  3, 'on', 0.1, (0, 0), (3.3, 5.4), 0)
+    pytest.raises(
+        ValueError, AMVectorLinePrimitive, 3, "on", 0.1, (0, 0), (3.3, 5.4), 0
+    )
 
 
 def test_AMVectorLinePrimitive_factory():
-    l = AMVectorLinePrimitive.from_gerber('20,1,0.9,0,0.45,12,0.45,0*')
-    assert_equal(l.code, 20)
-    assert_equal(l.exposure, 'on')
-    assert_equal(l.width, 0.9)
-    assert_equal(l.start, (0, 0.45))
-    assert_equal(l.end, (12, 0.45))
-    assert_equal(l.rotation, 0)
+    l = AMVectorLinePrimitive.from_gerber("20,1,0.9,0,0.45,12,0.45,0*")
+    assert l.code == 20
+    assert l.exposure == "on"
+    assert l.width == 0.9
+    assert l.start == (0, 0.45)
+    assert l.end == (12, 0.45)
+    assert l.rotation == 0
 
 
 def test_AMVectorLinePrimitive_dump():
-    l = AMVectorLinePrimitive.from_gerber('20,1,0.9,0,0.45,12,0.45,0*')
-    assert_equal(l.to_gerber(), '20,1,0.9,0.0,0.45,12.0,0.45,0.0*')
+    l = AMVectorLinePrimitive.from_gerber("20,1,0.9,0,0.45,12,0.45,0*")
+    assert l.to_gerber() == "20,1,0.9,0.0,0.45,12.0,0.45,0.0*"
 
 
 def test_AMVectorLinePrimtive_conversion():
-    l = AMVectorLinePrimitive(20, 'on', 25.4, (0, 0), (25.4, 25.4), 0)
+    l = AMVectorLinePrimitive(20, "on", 25.4, (0, 0), (25.4, 25.4), 0)
     l.to_inch()
-    assert_equal(l.width, 1)
-    assert_equal(l.start, (0, 0))
-    assert_equal(l.end, (1, 1))
+    assert l.width == 1
+    assert l.start == (0, 0)
+    assert l.end == (1, 1)
 
-    l = AMVectorLinePrimitive(20, 'on', 1, (0, 0), (1, 1), 0)
+    l = AMVectorLinePrimitive(20, "on", 1, (0, 0), (1, 1), 0)
     l.to_metric()
-    assert_equal(l.width, 25.4)
-    assert_equal(l.start, (0, 0))
-    assert_equal(l.end, (25.4, 25.4))
+    assert l.width == 25.4
+    assert l.start == (0, 0)
+    assert l.end == (25.4, 25.4)
 
 
 def test_AMOutlinePrimitive_validation():
-    assert_raises(ValueError, AMOutlinePrimitive, 7, 'on',
-                  (0, 0), [(3.3, 5.4), (4.0, 5.4), (0, 0)], 0)
-    assert_raises(ValueError, AMOutlinePrimitive, 4, 'on',
-                  (0, 0), [(3.3, 5.4), (4.0, 5.4), (0, 1)], 0)
+    pytest.raises(
+        ValueError,
+        AMOutlinePrimitive,
+        7,
+        "on",
+        (0, 0),
+        [(3.3, 5.4), (4.0, 5.4), (0, 0)],
+        0,
+    )
+    pytest.raises(
+        ValueError,
+        AMOutlinePrimitive,
+        4,
+        "on",
+        (0, 0),
+        [(3.3, 5.4), (4.0, 5.4), (0, 1)],
+        0,
+    )
 
 
 def test_AMOutlinePrimitive_factory():
-    o = AMOutlinePrimitive.from_gerber('4,1,3,0,0,3,3,3,0,0,0,0*')
-    assert_equal(o.code, 4)
-    assert_equal(o.exposure, 'on')
-    assert_equal(o.start_point, (0, 0))
-    assert_equal(o.points, [(3, 3), (3, 0), (0, 0)])
-    assert_equal(o.rotation, 0)
+    o = AMOutlinePrimitive.from_gerber("4,1,3,0,0,3,3,3,0,0,0,0*")
+    assert o.code == 4
+    assert o.exposure == "on"
+    assert o.start_point == (0, 0)
+    assert o.points == [(3, 3), (3, 0), (0, 0)]
+    assert o.rotation == 0
 
 
 def test_AMOUtlinePrimitive_dump():
-    o = AMOutlinePrimitive(4, 'on', (0, 0), [(3, 3), (3, 0), (0, 0)], 0)
+    o = AMOutlinePrimitive(4, "on", (0, 0), [(3, 3), (3, 0), (0, 0)], 0)
     # New lines don't matter for Gerber, but we insert them to make it easier to remove
     # For test purposes we can ignore them
-    assert_equal(o.to_gerber().replace('\n', ''), '4,1,3,0,0,3,3,3,0,0,0,0*')
-
-
+    assert o.to_gerber().replace("\n", "") == "4,1,3,0,0,3,3,3,0,0,0,0*"
 
 
 def test_AMOutlinePrimitive_conversion():
-    o = AMOutlinePrimitive(
-        4, 'on', (0, 0), [(25.4, 25.4), (25.4, 0), (0, 0)], 0)
+    o = AMOutlinePrimitive(4, "on", (0, 0), [(25.4, 25.4), (25.4, 0), (0, 0)], 0)
     o.to_inch()
-    assert_equal(o.start_point, (0, 0))
-    assert_equal(o.points, ((1., 1.), (1., 0.), (0., 0.)))
+    assert o.start_point == (0, 0)
+    assert o.points == ((1.0, 1.0), (1.0, 0.0), (0.0, 0.0))
 
-    o = AMOutlinePrimitive(4, 'on', (0, 0), [(1, 1), (1, 0), (0, 0)], 0)
+    o = AMOutlinePrimitive(4, "on", (0, 0), [(1, 1), (1, 0), (0, 0)], 0)
     o.to_metric()
-    assert_equal(o.start_point, (0, 0))
-    assert_equal(o.points, ((25.4, 25.4), (25.4, 0), (0, 0)))
+    assert o.start_point == (0, 0)
+    assert o.points == ((25.4, 25.4), (25.4, 0), (0, 0))
 
 
 def test_AMPolygonPrimitive_validation():
-    assert_raises(ValueError, AMPolygonPrimitive, 6, 'on', 3, (3.3, 5.4), 3, 0)
-    assert_raises(ValueError, AMPolygonPrimitive, 5, 'on', 2, (3.3, 5.4), 3, 0)
-    assert_raises(ValueError, AMPolygonPrimitive, 5, 'on', 13, (3.3, 5.4), 3, 0)
+    pytest.raises(ValueError, AMPolygonPrimitive, 6, "on", 3, (3.3, 5.4), 3, 0)
+    pytest.raises(ValueError, AMPolygonPrimitive, 5, "on", 2, (3.3, 5.4), 3, 0)
+    pytest.raises(ValueError, AMPolygonPrimitive, 5, "on", 13, (3.3, 5.4), 3, 0)
 
 
 def test_AMPolygonPrimitive_factory():
-    p = AMPolygonPrimitive.from_gerber('5,1,3,3.3,5.4,3,0')
-    assert_equal(p.code, 5)
-    assert_equal(p.exposure, 'on')
-    assert_equal(p.vertices, 3)
-    assert_equal(p.position, (3.3, 5.4))
-    assert_equal(p.diameter, 3)
-    assert_equal(p.rotation, 0)
+    p = AMPolygonPrimitive.from_gerber("5,1,3,3.3,5.4,3,0")
+    assert p.code == 5
+    assert p.exposure == "on"
+    assert p.vertices == 3
+    assert p.position == (3.3, 5.4)
+    assert p.diameter == 3
+    assert p.rotation == 0
 
 
 def test_AMPolygonPrimitive_dump():
-    p = AMPolygonPrimitive(5, 'on', 3, (3.3, 5.4), 3, 0)
-    assert_equal(p.to_gerber(), '5,1,3,3.3,5.4,3,0*')
+    p = AMPolygonPrimitive(5, "on", 3, (3.3, 5.4), 3, 0)
+    assert p.to_gerber() == "5,1,3,3.3,5.4,3,0*"
 
 
 def test_AMPolygonPrimitive_conversion():
-    p = AMPolygonPrimitive(5, 'off', 3, (25.4, 0), 25.4, 0)
+    p = AMPolygonPrimitive(5, "off", 3, (25.4, 0), 25.4, 0)
     p.to_inch()
-    assert_equal(p.diameter, 1)
-    assert_equal(p.position, (1, 0))
+    assert p.diameter == 1
+    assert p.position == (1, 0)
 
-    p = AMPolygonPrimitive(5, 'off', 3, (1, 0), 1, 0)
+    p = AMPolygonPrimitive(5, "off", 3, (1, 0), 1, 0)
     p.to_metric()
-    assert_equal(p.diameter, 25.4)
-    assert_equal(p.position, (25.4, 0))
+    assert p.diameter == 25.4
+    assert p.position == (25.4, 0)
 
 
 def test_AMMoirePrimitive_validation():
-    assert_raises(ValueError, AMMoirePrimitive, 7,
-                  (0, 0), 5.1, 0.2, 0.4, 6, 0.1, 6.1, 0)
+    pytest.raises(
+        ValueError, AMMoirePrimitive, 7, (0, 0), 5.1, 0.2, 0.4, 6, 0.1, 6.1, 0
+    )
 
 
 def test_AMMoirePrimitive_factory():
-    m = AMMoirePrimitive.from_gerber('6,0,0,5,0.5,0.5,2,0.1,6,0*')
-    assert_equal(m.code, 6)
-    assert_equal(m.position, (0, 0))
-    assert_equal(m.diameter, 5)
-    assert_equal(m.ring_thickness, 0.5)
-    assert_equal(m.gap, 0.5)
-    assert_equal(m.max_rings, 2)
-    assert_equal(m.crosshair_thickness, 0.1)
-    assert_equal(m.crosshair_length, 6)
-    assert_equal(m.rotation, 0)
+    m = AMMoirePrimitive.from_gerber("6,0,0,5,0.5,0.5,2,0.1,6,0*")
+    assert m.code == 6
+    assert m.position == (0, 0)
+    assert m.diameter == 5
+    assert m.ring_thickness == 0.5
+    assert m.gap == 0.5
+    assert m.max_rings == 2
+    assert m.crosshair_thickness == 0.1
+    assert m.crosshair_length == 6
+    assert m.rotation == 0
 
 
 def test_AMMoirePrimitive_dump():
-    m = AMMoirePrimitive.from_gerber('6,0,0,5,0.5,0.5,2,0.1,6,0*')
-    assert_equal(m.to_gerber(), '6,0,0,5.0,0.5,0.5,2,0.1,6.0,0.0*')
+    m = AMMoirePrimitive.from_gerber("6,0,0,5,0.5,0.5,2,0.1,6,0*")
+    assert m.to_gerber() == "6,0,0,5.0,0.5,0.5,2,0.1,6.0,0.0*"
 
 
 def test_AMMoirePrimitive_conversion():
     m = AMMoirePrimitive(6, (25.4, 25.4), 25.4, 25.4, 25.4, 6, 25.4, 25.4, 0)
     m.to_inch()
-    assert_equal(m.position, (1., 1.))
-    assert_equal(m.diameter, 1.)
-    assert_equal(m.ring_thickness, 1.)
-    assert_equal(m.gap, 1.)
-    assert_equal(m.crosshair_thickness, 1.)
-    assert_equal(m.crosshair_length, 1.)
+    assert m.position == (1.0, 1.0)
+    assert m.diameter == 1.0
+    assert m.ring_thickness == 1.0
+    assert m.gap == 1.0
+    assert m.crosshair_thickness == 1.0
+    assert m.crosshair_length == 1.0
 
     m = AMMoirePrimitive(6, (1, 1), 1, 1, 1, 6, 1, 1, 0)
     m.to_metric()
-    assert_equal(m.position, (25.4, 25.4))
-    assert_equal(m.diameter, 25.4)
-    assert_equal(m.ring_thickness, 25.4)
-    assert_equal(m.gap, 25.4)
-    assert_equal(m.crosshair_thickness, 25.4)
-    assert_equal(m.crosshair_length, 25.4)
+    assert m.position == (25.4, 25.4)
+    assert m.diameter == 25.4
+    assert m.ring_thickness == 25.4
+    assert m.gap == 25.4
+    assert m.crosshair_thickness == 25.4
+    assert m.crosshair_length == 25.4
 
 
 def test_AMThermalPrimitive_validation():
-    assert_raises(ValueError, AMThermalPrimitive, 8, (0.0, 0.0), 7, 5, 0.2, 0.0)
-    assert_raises(TypeError, AMThermalPrimitive, 7, (0.0, '0'), 7, 5, 0.2, 0.0)
-
-
+    pytest.raises(ValueError, AMThermalPrimitive, 8, (0.0, 0.0), 7, 5, 0.2, 0.0)
+    pytest.raises(TypeError, AMThermalPrimitive, 7, (0.0, "0"), 7, 5, 0.2, 0.0)
 
 
 def test_AMThermalPrimitive_factory():
-    t = AMThermalPrimitive.from_gerber('7,0,0,7,6,0.2,45*')
-    assert_equal(t.code, 7)
-    assert_equal(t.position, (0, 0))
-    assert_equal(t.outer_diameter, 7)
-    assert_equal(t.inner_diameter, 6)
-    assert_equal(t.gap, 0.2)
-    assert_equal(t.rotation, 45)
-
-
+    t = AMThermalPrimitive.from_gerber("7,0,0,7,6,0.2,45*")
+    assert t.code == 7
+    assert t.position == (0, 0)
+    assert t.outer_diameter == 7
+    assert t.inner_diameter == 6
+    assert t.gap == 0.2
+    assert t.rotation == 45
 
 
 def test_AMThermalPrimitive_dump():
-    t = AMThermalPrimitive.from_gerber('7,0,0,7,6,0.2,30*')
-    assert_equal(t.to_gerber(), '7,0,0,7.0,6.0,0.2,30.0*')
-
-
+    t = AMThermalPrimitive.from_gerber("7,0,0,7,6,0.2,30*")
+    assert t.to_gerber() == "7,0,0,7.0,6.0,0.2,30.0*"
 
 
 def test_AMThermalPrimitive_conversion():
     t = AMThermalPrimitive(7, (25.4, 25.4), 25.4, 25.4, 25.4, 0.0)
     t.to_inch()
-    assert_equal(t.position, (1., 1.))
-    assert_equal(t.outer_diameter, 1.)
-    assert_equal(t.inner_diameter, 1.)
-    assert_equal(t.gap, 1.)
+    assert t.position == (1.0, 1.0)
+    assert t.outer_diameter == 1.0
+    assert t.inner_diameter == 1.0
+    assert t.gap == 1.0
 
     t = AMThermalPrimitive(7, (1, 1), 1, 1, 1, 0)
     t.to_metric()
-    assert_equal(t.position, (25.4, 25.4))
-    assert_equal(t.outer_diameter, 25.4)
-    assert_equal(t.inner_diameter, 25.4)
-    assert_equal(t.gap, 25.4)
+    assert t.position == (25.4, 25.4)
+    assert t.outer_diameter == 25.4
+    assert t.inner_diameter == 25.4
+    assert t.gap == 25.4
 
 
 def test_AMCenterLinePrimitive_validation():
-    assert_raises(ValueError, AMCenterLinePrimitive,
-                  22, 1, 0.2, 0.5, (0, 0), 0)
+    pytest.raises(ValueError, AMCenterLinePrimitive, 22, 1, 0.2, 0.5, (0, 0), 0)
 
 
 def test_AMCenterLinePrimtive_factory():
-    l = AMCenterLinePrimitive.from_gerber('21,1,6.8,1.2,3.4,0.6,0*')
-    assert_equal(l.code, 21)
-    assert_equal(l.exposure, 'on')
-    assert_equal(l.width, 6.8)
-    assert_equal(l.height, 1.2)
-    assert_equal(l.center, (3.4, 0.6))
-    assert_equal(l.rotation, 0)
+    l = AMCenterLinePrimitive.from_gerber("21,1,6.8,1.2,3.4,0.6,0*")
+    assert l.code == 21
+    assert l.exposure == "on"
+    assert l.width == 6.8
+    assert l.height == 1.2
+    assert l.center == (3.4, 0.6)
+    assert l.rotation == 0
 
 
 def test_AMCenterLinePrimitive_dump():
-    l = AMCenterLinePrimitive.from_gerber('21,1,6.8,1.2,3.4,0.6,0*')
-    assert_equal(l.to_gerber(), '21,1,6.8,1.2,3.4,0.6,0.0*')
+    l = AMCenterLinePrimitive.from_gerber("21,1,6.8,1.2,3.4,0.6,0*")
+    assert l.to_gerber() == "21,1,6.8,1.2,3.4,0.6,0.0*"
 
 
 def test_AMCenterLinePrimitive_conversion():
-    l = AMCenterLinePrimitive(21, 'on', 25.4, 25.4, (25.4, 25.4), 0)
+    l = AMCenterLinePrimitive(21, "on", 25.4, 25.4, (25.4, 25.4), 0)
     l.to_inch()
-    assert_equal(l.width, 1.)
-    assert_equal(l.height, 1.)
-    assert_equal(l.center, (1., 1.))
+    assert l.width == 1.0
+    assert l.height == 1.0
+    assert l.center == (1.0, 1.0)
 
-    l = AMCenterLinePrimitive(21, 'on', 1, 1, (1, 1), 0)
+    l = AMCenterLinePrimitive(21, "on", 1, 1, (1, 1), 0)
     l.to_metric()
-    assert_equal(l.width, 25.4)
-    assert_equal(l.height, 25.4)
-    assert_equal(l.center, (25.4, 25.4))
+    assert l.width == 25.4
+    assert l.height == 25.4
+    assert l.center == (25.4, 25.4)
 
 
 def test_AMLowerLeftLinePrimitive_validation():
-    assert_raises(ValueError, AMLowerLeftLinePrimitive,
-                  23, 1, 0.2, 0.5, (0, 0), 0)
+    pytest.raises(ValueError, AMLowerLeftLinePrimitive, 23, 1, 0.2, 0.5, (0, 0), 0)
 
 
 def test_AMLowerLeftLinePrimtive_factory():
-    l = AMLowerLeftLinePrimitive.from_gerber('22,1,6.8,1.2,3.4,0.6,0*')
-    assert_equal(l.code, 22)
-    assert_equal(l.exposure, 'on')
-    assert_equal(l.width, 6.8)
-    assert_equal(l.height, 1.2)
-    assert_equal(l.lower_left, (3.4, 0.6))
-    assert_equal(l.rotation, 0)
+    l = AMLowerLeftLinePrimitive.from_gerber("22,1,6.8,1.2,3.4,0.6,0*")
+    assert l.code == 22
+    assert l.exposure == "on"
+    assert l.width == 6.8
+    assert l.height == 1.2
+    assert l.lower_left == (3.4, 0.6)
+    assert l.rotation == 0
 
 
 def test_AMLowerLeftLinePrimitive_dump():
-    l = AMLowerLeftLinePrimitive.from_gerber('22,1,6.8,1.2,3.4,0.6,0*')
-    assert_equal(l.to_gerber(), '22,1,6.8,1.2,3.4,0.6,0.0*')
+    l = AMLowerLeftLinePrimitive.from_gerber("22,1,6.8,1.2,3.4,0.6,0*")
+    assert l.to_gerber() == "22,1,6.8,1.2,3.4,0.6,0.0*"
 
 
 def test_AMLowerLeftLinePrimitive_conversion():
-    l = AMLowerLeftLinePrimitive(22, 'on', 25.4, 25.4, (25.4, 25.4), 0)
+    l = AMLowerLeftLinePrimitive(22, "on", 25.4, 25.4, (25.4, 25.4), 0)
     l.to_inch()
-    assert_equal(l.width, 1.)
-    assert_equal(l.height, 1.)
-    assert_equal(l.lower_left, (1., 1.))
+    assert l.width == 1.0
+    assert l.height == 1.0
+    assert l.lower_left == (1.0, 1.0)
 
-    l = AMLowerLeftLinePrimitive(22, 'on', 1, 1, (1, 1), 0)
+    l = AMLowerLeftLinePrimitive(22, "on", 1, 1, (1, 1), 0)
     l.to_metric()
-    assert_equal(l.width, 25.4)
-    assert_equal(l.height, 25.4)
-    assert_equal(l.lower_left, (25.4, 25.4))
+    assert l.width == 25.4
+    assert l.height == 25.4
+    assert l.lower_left == (25.4, 25.4)
 
 
 def test_AMUnsupportPrimitive():
-    u = AMUnsupportPrimitive.from_gerber('Test')
-    assert_equal(u.primitive, 'Test')
-    u = AMUnsupportPrimitive('Test')
-    assert_equal(u.to_gerber(), 'Test')
+    u = AMUnsupportPrimitive.from_gerber("Test")
+    assert u.primitive == "Test"
+    u = AMUnsupportPrimitive("Test")
+    assert u.to_gerber() == "Test"
 
 
 def test_AMUnsupportPrimitive_smoketest():
-    u = AMUnsupportPrimitive.from_gerber('Test')
+    u = AMUnsupportPrimitive.from_gerber("Test")
     u.to_inch()
     u.to_metric()
 
 
 def test_inch():
-    assert_equal(inch(25.4), 1)
+    assert inch(25.4) == 1
 
 
 def test_metric():
-    assert_equal(metric(1), 25.4)
+    assert metric(1) == 25.4
diff --git a/gerber/tests/test_cairo_backend.py b/gerber/tests/test_cairo_backend.py
index d5ce4ed..51007a9 100644
--- a/gerber/tests/test_cairo_backend.py
+++ b/gerber/tests/test_cairo_backend.py
@@ -8,63 +8,87 @@ import tempfile
 
 from ..render.cairo_backend import GerberCairoContext
 from ..rs274x import read
-from .tests import *
-from nose.tools import assert_tuple_equal
+
 
 def _DISABLED_test_render_two_boxes():
     """Umaco exapmle of two boxes"""
-    _test_render('resources/example_two_square_boxes.gbr', 'golden/example_two_square_boxes.png')
+    _test_render(
+        "resources/example_two_square_boxes.gbr", "golden/example_two_square_boxes.png"
+    )
 
 
 def _DISABLED_test_render_single_quadrant():
     """Umaco exapmle of a single quadrant arc"""
-    _test_render('resources/example_single_quadrant.gbr', 'golden/example_single_quadrant.png')
+    _test_render(
+        "resources/example_single_quadrant.gbr", "golden/example_single_quadrant.png"
+    )
 
 
-def  _DISABLED_test_render_simple_contour():
+def _DISABLED_test_render_simple_contour():
     """Umaco exapmle of a simple arrow-shaped contour"""
-    gerber = _test_render('resources/example_simple_contour.gbr', 'golden/example_simple_contour.png')
+    gerber = _test_render(
+        "resources/example_simple_contour.gbr", "golden/example_simple_contour.png"
+    )
 
     # Check the resulting dimensions
-    assert_tuple_equal(((2.0, 11.0), (1.0, 9.0)), gerber.bounding_box)
+    assert ((2.0, 11.0), (1.0, 9.0)) == gerber.bounding_box
 
 
 def _DISABLED_test_render_single_contour_1():
     """Umaco example of a single contour
 
     The resulting image for this test is used by other tests because they must generate the same output."""
-    _test_render('resources/example_single_contour_1.gbr', 'golden/example_single_contour.png')
+    _test_render(
+        "resources/example_single_contour_1.gbr", "golden/example_single_contour.png"
+    )
 
 
 def _DISABLED_test_render_single_contour_2():
     """Umaco exapmle of a single contour, alternate contour end order
 
     The resulting image for this test is used by other tests because they must generate the same output."""
-    _test_render('resources/example_single_contour_2.gbr', 'golden/example_single_contour.png')
+    _test_render(
+        "resources/example_single_contour_2.gbr", "golden/example_single_contour.png"
+    )
 
 
 def _DISABLED_test_render_single_contour_3():
     """Umaco exapmle of a single contour with extra line"""
-    _test_render('resources/example_single_contour_3.gbr', 'golden/example_single_contour_3.png')
+    _test_render(
+        "resources/example_single_contour_3.gbr", "golden/example_single_contour_3.png"
+    )
 
 
-def  _DISABLED_test_render_not_overlapping_contour():
+def _DISABLED_test_render_not_overlapping_contour():
     """Umaco example of D02 staring a second contour"""
-    _test_render('resources/example_not_overlapping_contour.gbr', 'golden/example_not_overlapping_contour.png')
+    _test_render(
+        "resources/example_not_overlapping_contour.gbr",
+        "golden/example_not_overlapping_contour.png",
+    )
+
 
-def  _DISABLED_test_render_not_overlapping_touching():
+def _DISABLED_test_render_not_overlapping_touching():
     """Umaco example of D02 staring a second contour"""
-    _test_render('resources/example_not_overlapping_touching.gbr', 'golden/example_not_overlapping_touching.png')
+    _test_render(
+        "resources/example_not_overlapping_touching.gbr",
+        "golden/example_not_overlapping_touching.png",
+    )
 
 
 def test_render_overlapping_touching():
     """Umaco example of D02 staring a second contour"""
-    _test_render('resources/example_overlapping_touching.gbr', 'golden/example_overlapping_touching.png')
+    _test_render(
+        "resources/example_overlapping_touching.gbr",
+        "golden/example_overlapping_touching.png",
+    )
 
 
 def test_render_overlapping_contour():
     """Umaco example of D02 staring a second contour"""
-    _test_render('resources/example_overlapping_contour.gbr', 'golden/example_overlapping_contour.png')
+    _test_render(
+        "resources/example_overlapping_contour.gbr",
+        "golden/example_overlapping_contour.png",
+    )
 
 
 def _DISABLED_test_render_level_holes():
@@ -72,82 +96,107 @@ def _DISABLED_test_render_level_holes():
 
     # TODO This is clearly rendering wrong. I'm temporarily checking this in because there are more
     # rendering fixes in the related repository that may resolve these.
-    _test_render('resources/example_level_holes.gbr', 'golden/example_overlapping_contour.png')
+    _test_render(
+        "resources/example_level_holes.gbr", "golden/example_overlapping_contour.png"
+    )
 
 
 def _DISABLED_test_render_cutin():
     """Umaco example of using a cutin"""
 
     # TODO This is clearly rendering wrong.
-    _test_render('resources/example_cutin.gbr', 'golden/example_cutin.png', '/Users/ham/Desktop/cutin.png')
+    _test_render(
+        "resources/example_cutin.gbr",
+        "golden/example_cutin.png",
+        "/Users/ham/Desktop/cutin.png",
+    )
 
 
-def  _DISABLED_test_render_fully_coincident():
+def _DISABLED_test_render_fully_coincident():
     """Umaco example of coincident lines rendering two contours"""
 
-    _test_render('resources/example_fully_coincident.gbr', 'golden/example_fully_coincident.png')
+    _test_render(
+        "resources/example_fully_coincident.gbr", "golden/example_fully_coincident.png"
+    )
 
 
-def  _DISABLED_test_render_coincident_hole():
+def _DISABLED_test_render_coincident_hole():
     """Umaco example of coincident lines rendering a hole in the contour"""
 
-    _test_render('resources/example_coincident_hole.gbr', 'golden/example_coincident_hole.png')
+    _test_render(
+        "resources/example_coincident_hole.gbr", "golden/example_coincident_hole.png"
+    )
 
 
 def test_render_cutin_multiple():
     """Umaco example of a region with multiple cutins"""
 
-    _test_render('resources/example_cutin_multiple.gbr', 'golden/example_cutin_multiple.png')
+    _test_render(
+        "resources/example_cutin_multiple.gbr", "golden/example_cutin_multiple.png"
+    )
 
 
 def _DISABLED_test_flash_circle():
     """Umaco example a simple circular flash with and without a hole"""
 
-    _test_render('resources/example_flash_circle.gbr', 'golden/example_flash_circle.png',
-                 '/Users/ham/Desktop/flashcircle.png')
+    _test_render(
+        "resources/example_flash_circle.gbr",
+        "golden/example_flash_circle.png",
+        "/Users/ham/Desktop/flashcircle.png",
+    )
 
 
 def _DISABLED_test_flash_rectangle():
     """Umaco example a simple rectangular flash with and without a hole"""
 
-    _test_render('resources/example_flash_rectangle.gbr', 'golden/example_flash_rectangle.png')
+    _test_render(
+        "resources/example_flash_rectangle.gbr", "golden/example_flash_rectangle.png"
+    )
 
 
 def _DISABLED_test_flash_obround():
     """Umaco example a simple obround flash with and without a hole"""
 
-    _test_render('resources/example_flash_obround.gbr', 'golden/example_flash_obround.png')
+    _test_render(
+        "resources/example_flash_obround.gbr", "golden/example_flash_obround.png"
+    )
 
 
 def _DISABLED_test_flash_polygon():
     """Umaco example a simple polygon flash with and without a hole"""
 
-    _test_render('resources/example_flash_polygon.gbr', 'golden/example_flash_polygon.png')
+    _test_render(
+        "resources/example_flash_polygon.gbr", "golden/example_flash_polygon.png"
+    )
 
 
 def _DISABLED_test_holes_dont_clear():
     """Umaco example that an aperture with a hole does not clear the area"""
 
-    _test_render('resources/example_holes_dont_clear.gbr', 'golden/example_holes_dont_clear.png')
+    _test_render(
+        "resources/example_holes_dont_clear.gbr", "golden/example_holes_dont_clear.png"
+    )
 
 
 def _DISABLED_test_render_am_exposure_modifier():
     """Umaco example that an aperture macro with a hole does not clear the area"""
 
-    _test_render('resources/example_am_exposure_modifier.gbr', 'golden/example_am_exposure_modifier.png')
+    _test_render(
+        "resources/example_am_exposure_modifier.gbr",
+        "golden/example_am_exposure_modifier.png",
+    )
 
 
 def test_render_svg_simple_contour():
     """Example of rendering to an SVG file"""
-    _test_simple_render_svg('resources/example_simple_contour.gbr')
+    _test_simple_render_svg("resources/example_simple_contour.gbr")
 
 
 def _resolve_path(path):
-    return os.path.join(os.path.dirname(__file__),
-                                path)
+    return os.path.join(os.path.dirname(__file__), path)
 
 
-def _test_render(gerber_path, png_expected_path, create_output_path = None):
+def _test_render(gerber_path, png_expected_path, create_output_path=None):
     """Render the gerber file and compare to the expected PNG output.
 
     Parameters
@@ -176,21 +225,24 @@ def _test_render(gerber_path, png_expected_path, create_output_path = None):
 
     # If we want to write the file bytes, do it now. This happens
     if create_output_path:
-        with open(create_output_path, 'wb') as out_file:
+        with open(create_output_path, "wb") as out_file:
             out_file.write(actual_bytes)
         # Creating the output is dangerous - it could overwrite the expected result.
         # So if we are creating the output, we make the test fail on purpose so you
         # won't forget to disable this
-        assert_false(True, 'Test created the output %s. This needs to be disabled to make sure the test behaves correctly' % (create_output_path,))
+        assert not True, (
+            "Test created the output %s. This needs to be disabled to make sure the test behaves correctly"
+            % (create_output_path,)
+        )
 
     # Read the expected PNG file
 
-    with open(png_expected_path, 'rb') as expected_file:
+    with open(png_expected_path, "rb") as expected_file:
         expected_bytes = expected_file.read()
 
     # Don't directly use assert_equal otherwise any failure pollutes the test results
-    equal = (expected_bytes == actual_bytes)
-    assert_true(equal)
+    equal = expected_bytes == actual_bytes
+    assert equal
 
     return gerber
 
@@ -214,14 +266,14 @@ def _test_simple_render_svg(gerber_path):
     gerber.render(ctx)
 
     temp_dir = tempfile.mkdtemp()
-    svg_temp_path = os.path.join(temp_dir, 'output.svg')
+    svg_temp_path = os.path.join(temp_dir, "output.svg")
 
-    assert_false(os.path.exists(svg_temp_path))
+    assert not os.path.exists(svg_temp_path)
     ctx.dump(svg_temp_path)
-    assert_true(os.path.exists(svg_temp_path))
+    assert os.path.exists(svg_temp_path)
 
-    with open(svg_temp_path, 'r') as expected_file:
+    with open(svg_temp_path, "r") as expected_file:
         expected_bytes = expected_file.read()
-    assert_equal(expected_bytes[:38], '<?xml version="1.0" encoding="UTF-8"?>')
+    assert expected_bytes[:38] == '<?xml version="1.0" encoding="UTF-8"?>'
 
     shutil.rmtree(temp_dir)
diff --git a/gerber/tests/test_cam.py b/gerber/tests/test_cam.py
index ba5e99d..8a71a32 100644
--- a/gerber/tests/test_cam.py
+++ b/gerber/tests/test_cam.py
@@ -3,56 +3,57 @@
 
 # Author: Hamilton Kibbe <ham@hamiltonkib.be>
 
+import pytest
+
 from ..cam import CamFile, FileSettings
-from .tests import *
 
 
 def test_filesettings_defaults():
     """ Test FileSettings default values
     """
     fs = FileSettings()
-    assert_equal(fs.format, (2, 5))
-    assert_equal(fs.notation, 'absolute')
-    assert_equal(fs.zero_suppression, 'trailing')
-    assert_equal(fs.units, 'inch')
+    assert fs.format == (2, 5)
+    assert fs.notation == "absolute"
+    assert fs.zero_suppression == "trailing"
+    assert fs.units == "inch"
 
 
 def test_filesettings_dict():
     """ Test FileSettings Dict
     """
     fs = FileSettings()
-    assert_equal(fs['format'], (2, 5))
-    assert_equal(fs['notation'], 'absolute')
-    assert_equal(fs['zero_suppression'], 'trailing')
-    assert_equal(fs['units'], 'inch')
+    assert fs["format"] == (2, 5)
+    assert fs["notation"] == "absolute"
+    assert fs["zero_suppression"] == "trailing"
+    assert fs["units"] == "inch"
 
 
 def test_filesettings_assign():
     """ Test FileSettings attribute assignment
     """
     fs = FileSettings()
-    fs.units = 'test1'
-    fs.notation = 'test2'
-    fs.zero_suppression = 'test3'
-    fs.format = 'test4'
-    assert_equal(fs.units, 'test1')
-    assert_equal(fs.notation, 'test2')
-    assert_equal(fs.zero_suppression, 'test3')
-    assert_equal(fs.format, 'test4')
+    fs.units = "test1"
+    fs.notation = "test2"
+    fs.zero_suppression = "test3"
+    fs.format = "test4"
+    assert fs.units == "test1"
+    assert fs.notation == "test2"
+    assert fs.zero_suppression == "test3"
+    assert fs.format == "test4"
 
 
 def test_filesettings_dict_assign():
     """ Test FileSettings dict-style attribute assignment
     """
     fs = FileSettings()
-    fs['units'] = 'metric'
-    fs['notation'] = 'incremental'
-    fs['zero_suppression'] = 'leading'
-    fs['format'] = (1, 2)
-    assert_equal(fs.units, 'metric')
-    assert_equal(fs.notation, 'incremental')
-    assert_equal(fs.zero_suppression, 'leading')
-    assert_equal(fs.format, (1, 2))
+    fs["units"] = "metric"
+    fs["notation"] = "incremental"
+    fs["zero_suppression"] = "leading"
+    fs["format"] = (1, 2)
+    assert fs.units == "metric"
+    assert fs.notation == "incremental"
+    assert fs.zero_suppression == "leading"
+    assert fs.format == (1, 2)
 
 
 def test_camfile_init():
@@ -65,7 +66,7 @@ def test_camfile_settings():
     """ Test CamFile Default Settings
     """
     cf = CamFile()
-    assert_equal(cf.settings, FileSettings())
+    assert cf.settings == FileSettings()
 
 
 def test_bounds_override_smoketest():
@@ -77,73 +78,74 @@ def test_zeros():
     """ Test zero/zero_suppression interaction
     """
     fs = FileSettings()
-    assert_equal(fs.zero_suppression, 'trailing')
-    assert_equal(fs.zeros, 'leading')
+    assert fs.zero_suppression == "trailing"
+    assert fs.zeros == "leading"
 
-    fs['zero_suppression'] = 'leading'
-    assert_equal(fs.zero_suppression, 'leading')
-    assert_equal(fs.zeros, 'trailing')
+    fs["zero_suppression"] = "leading"
+    assert fs.zero_suppression == "leading"
+    assert fs.zeros == "trailing"
 
-    fs.zero_suppression = 'trailing'
-    assert_equal(fs.zero_suppression, 'trailing')
-    assert_equal(fs.zeros, 'leading')
+    fs.zero_suppression = "trailing"
+    assert fs.zero_suppression == "trailing"
+    assert fs.zeros == "leading"
 
-    fs['zeros'] = 'trailing'
-    assert_equal(fs.zeros, 'trailing')
-    assert_equal(fs.zero_suppression, 'leading')
+    fs["zeros"] = "trailing"
+    assert fs.zeros == "trailing"
+    assert fs.zero_suppression == "leading"
 
-    fs.zeros = 'leading'
-    assert_equal(fs.zeros, 'leading')
-    assert_equal(fs.zero_suppression, 'trailing')
+    fs.zeros = "leading"
+    assert fs.zeros == "leading"
+    assert fs.zero_suppression == "trailing"
 
-    fs = FileSettings(zeros='leading')
-    assert_equal(fs.zeros, 'leading')
-    assert_equal(fs.zero_suppression, 'trailing')
+    fs = FileSettings(zeros="leading")
+    assert fs.zeros == "leading"
+    assert fs.zero_suppression == "trailing"
 
-    fs = FileSettings(zero_suppression='leading')
-    assert_equal(fs.zeros, 'trailing')
-    assert_equal(fs.zero_suppression, 'leading')
+    fs = FileSettings(zero_suppression="leading")
+    assert fs.zeros == "trailing"
+    assert fs.zero_suppression == "leading"
 
-    fs = FileSettings(zeros='leading', zero_suppression='trailing')
-    assert_equal(fs.zeros, 'leading')
-    assert_equal(fs.zero_suppression, 'trailing')
+    fs = FileSettings(zeros="leading", zero_suppression="trailing")
+    assert fs.zeros == "leading"
+    assert fs.zero_suppression == "trailing"
 
-    fs = FileSettings(zeros='trailing', zero_suppression='leading')
-    assert_equal(fs.zeros, 'trailing')
-    assert_equal(fs.zero_suppression, 'leading')
+    fs = FileSettings(zeros="trailing", zero_suppression="leading")
+    assert fs.zeros == "trailing"
+    assert fs.zero_suppression == "leading"
 
 
 def test_filesettings_validation():
     """ Test FileSettings constructor argument validation
     """
     # absolute-ish is not a valid notation
-    assert_raises(ValueError, FileSettings, 'absolute-ish',
-                  'inch', None, (2, 5), None)
+    pytest.raises(ValueError, FileSettings, "absolute-ish", "inch", None, (2, 5), None)
 
     # degrees kelvin isn't a valid unit for a CAM file
-    assert_raises(ValueError, FileSettings, 'absolute',
-                  'degrees kelvin', None, (2, 5), None)
+    pytest.raises(
+        ValueError, FileSettings, "absolute", "degrees kelvin", None, (2, 5), None
+    )
 
-    assert_raises(ValueError, FileSettings, 'absolute',
-                  'inch', 'leading', (2, 5), 'leading')
+    pytest.raises(
+        ValueError, FileSettings, "absolute", "inch", "leading", (2, 5), "leading"
+    )
 
     # Technnically this should be an error, but Eangle files often do this incorrectly so we
     # allow it
-    #assert_raises(ValueError, FileSettings, 'absolute',
+    # pytest.raises(ValueError, FileSettings, 'absolute',
     #              'inch', 'following', (2, 5), None)
 
-    assert_raises(ValueError, FileSettings, 'absolute',
-                  'inch', None, (2, 5), 'following')
-    assert_raises(ValueError, FileSettings, 'absolute',
-                  'inch', None, (2, 5, 6), None)
+    pytest.raises(
+        ValueError, FileSettings, "absolute", "inch", None, (2, 5), "following"
+    )
+    pytest.raises(ValueError, FileSettings, "absolute", "inch", None, (2, 5, 6), None)
 
 
 def test_key_validation():
     fs = FileSettings()
-    assert_raises(KeyError, fs.__getitem__, 'octopus')
-    assert_raises(KeyError, fs.__setitem__, 'octopus', 'do not care')
-    assert_raises(ValueError, fs.__setitem__, 'notation', 'absolute-ish')
-    assert_raises(ValueError, fs.__setitem__, 'units', 'degrees kelvin')
-    assert_raises(ValueError, fs.__setitem__, 'zero_suppression', 'following')
-    assert_raises(ValueError, fs.__setitem__, 'zeros', 'following')
-    assert_raises(ValueError, fs.__setitem__, 'format', (2, 5, 6))
+    pytest.raises(KeyError, fs.__getitem__, "octopus")
+    pytest.raises(KeyError, fs.__setitem__, "octopus", "do not care")
+    pytest.raises(ValueError, fs.__setitem__, "notation", "absolute-ish")
+    pytest.raises(ValueError, fs.__setitem__, "units", "degrees kelvin")
+    pytest.raises(ValueError, fs.__setitem__, "zero_suppression", "following")
+    pytest.raises(ValueError, fs.__setitem__, "zeros", "following")
+    pytest.raises(ValueError, fs.__setitem__, "format", (2, 5, 6))
diff --git a/gerber/tests/test_common.py b/gerber/tests/test_common.py
index 0224c48..a6b1264 100644
--- a/gerber/tests/test_common.py
+++ b/gerber/tests/test_common.py
@@ -6,15 +6,12 @@ from ..exceptions import ParseError
 from ..common import read, loads
 from ..excellon import ExcellonFile
 from ..rs274x import GerberFile
-from .tests import *
-
 import os
+import pytest
 
 
-NCDRILL_FILE = os.path.join(os.path.dirname(__file__),
-                            'resources/ncdrill.DRD')
-TOP_COPPER_FILE = os.path.join(os.path.dirname(__file__),
-                               'resources/top_copper.GTL')
+NCDRILL_FILE = os.path.join(os.path.dirname(__file__), "resources/ncdrill.DRD")
+TOP_COPPER_FILE = os.path.join(os.path.dirname(__file__), "resources/top_copper.GTL")
 
 
 def test_file_type_detection():
@@ -22,20 +19,20 @@ def test_file_type_detection():
     """
     ncdrill = read(NCDRILL_FILE)
     top_copper = read(TOP_COPPER_FILE)
-    assert_true(isinstance(ncdrill, ExcellonFile))
-    assert_true(isinstance(top_copper, GerberFile))
+    assert isinstance(ncdrill, ExcellonFile)
+    assert isinstance(top_copper, GerberFile)
 
 
 def test_load_from_string():
-    with open(NCDRILL_FILE, 'rU') as f:
+    with open(NCDRILL_FILE, "rU") as f:
         ncdrill = loads(f.read())
-    with open(TOP_COPPER_FILE, 'rU') as f:
+    with open(TOP_COPPER_FILE, "rU") as f:
         top_copper = loads(f.read())
-    assert_true(isinstance(ncdrill, ExcellonFile))
-    assert_true(isinstance(top_copper, GerberFile))
+    assert isinstance(ncdrill, ExcellonFile)
+    assert isinstance(top_copper, GerberFile)
 
 
 def test_file_type_validation():
     """ Test file format validation
     """
-    assert_raises(ParseError, read, __file__)
+    pytest.raises(ParseError, read, __file__)
diff --git a/gerber/tests/test_excellon.py b/gerber/tests/test_excellon.py
index d17791c..d6e83cc 100644
--- a/gerber/tests/test_excellon.py
+++ b/gerber/tests/test_excellon.py
@@ -3,16 +3,15 @@
 
 # Author: Hamilton Kibbe <ham@hamiltonkib.be>
 import os
+import pytest
 
 from ..cam import FileSettings
 from ..excellon import read, detect_excellon_format, ExcellonFile, ExcellonParser
 from ..excellon import DrillHit, DrillSlot
 from ..excellon_statements import ExcellonTool, RouteModeStmt
-from .tests import *
 
 
-NCDRILL_FILE = os.path.join(os.path.dirname(__file__),
-                            'resources/ncdrill.DRD')
+NCDRILL_FILE = os.path.join(os.path.dirname(__file__), "resources/ncdrill.DRD")
 
 
 def test_format_detection():
@@ -21,320 +20,327 @@ def test_format_detection():
     with open(NCDRILL_FILE, "rU") as f:
         data = f.read()
     settings = detect_excellon_format(data)
-    assert_equal(settings['format'], (2, 4))
-    assert_equal(settings['zeros'], 'trailing')
+    assert settings["format"] == (2, 4)
+    assert settings["zeros"] == "trailing"
 
     settings = detect_excellon_format(filename=NCDRILL_FILE)
-    assert_equal(settings['format'], (2, 4))
-    assert_equal(settings['zeros'], 'trailing')
+    assert settings["format"] == (2, 4)
+    assert settings["zeros"] == "trailing"
 
 
 def test_read():
     ncdrill = read(NCDRILL_FILE)
-    assert(isinstance(ncdrill, ExcellonFile))
+    assert isinstance(ncdrill, ExcellonFile)
 
 
 def test_write():
     ncdrill = read(NCDRILL_FILE)
-    ncdrill.write('test.ncd')
+    ncdrill.write("test.ncd")
     with open(NCDRILL_FILE, "rU") as src:
         srclines = src.readlines()
-    with open('test.ncd', "rU") as res:
+    with open("test.ncd", "rU") as res:
         for idx, line in enumerate(res):
-            assert_equal(line.strip(), srclines[idx].strip())
-    os.remove('test.ncd')
+            assert line.strip() == srclines[idx].strip()
+    os.remove("test.ncd")
 
 
 def test_read_settings():
     ncdrill = read(NCDRILL_FILE)
-    assert_equal(ncdrill.settings['format'], (2, 4))
-    assert_equal(ncdrill.settings['zeros'], 'trailing')
+    assert ncdrill.settings["format"] == (2, 4)
+    assert ncdrill.settings["zeros"] == "trailing"
 
 
 def test_bounding_box():
     ncdrill = read(NCDRILL_FILE)
     xbound, ybound = ncdrill.bounding_box
-    assert_array_almost_equal(xbound, (0.1300, 2.1430))
-    assert_array_almost_equal(ybound, (0.3946, 1.7164))
+    pytest.approx(xbound, (0.1300, 2.1430))
+    pytest.approx(ybound, (0.3946, 1.7164))
 
 
 def test_report():
     ncdrill = read(NCDRILL_FILE)
     rprt = ncdrill.report()
 
+
 def test_conversion():
     import copy
+
     ncdrill = read(NCDRILL_FILE)
-    assert_equal(ncdrill.settings.units, 'inch')
+    assert ncdrill.settings.units == "inch"
     ncdrill_inch = copy.deepcopy(ncdrill)
 
     ncdrill.to_metric()
-    assert_equal(ncdrill.settings.units, 'metric')
+    assert ncdrill.settings.units == "metric"
     for tool in iter(ncdrill_inch.tools.values()):
         tool.to_metric()
 
     for statement in ncdrill_inch.statements:
         statement.to_metric()
 
-    for m_tool, i_tool in zip(iter(ncdrill.tools.values()),
-                              iter(ncdrill_inch.tools.values())):
-        assert_equal(i_tool, m_tool)
+    for m_tool, i_tool in zip(
+        iter(ncdrill.tools.values()), iter(ncdrill_inch.tools.values())
+    ):
+        assert i_tool == m_tool
 
     for m, i in zip(ncdrill.primitives, ncdrill_inch.primitives):
 
-        assert_equal(m.position, i.position, '%s not equal to %s' % (m, i))
-        assert_equal(m.diameter, i.diameter, '%s not equal to %s' % (m, i))
+        assert m.position == i.position, "%s not equal to %s" % (m, i)
+        assert m.diameter == i.diameter, "%s not equal to %s" % (m, i)
 
 
 def test_parser_hole_count():
     settings = FileSettings(**detect_excellon_format(NCDRILL_FILE))
     p = ExcellonParser(settings)
     p.parse(NCDRILL_FILE)
-    assert_equal(p.hole_count, 36)
+    assert p.hole_count == 36
 
 
 def test_parser_hole_sizes():
     settings = FileSettings(**detect_excellon_format(NCDRILL_FILE))
     p = ExcellonParser(settings)
     p.parse(NCDRILL_FILE)
-    assert_equal(p.hole_sizes, [0.0236, 0.0354, 0.04, 0.126, 0.128])
+    assert p.hole_sizes == [0.0236, 0.0354, 0.04, 0.126, 0.128]
 
 
 def test_parse_whitespace():
     p = ExcellonParser(FileSettings())
-    assert_equal(p._parse_line('         '), None)
+    assert p._parse_line("         ") == None
 
 
 def test_parse_comment():
     p = ExcellonParser(FileSettings())
-    p._parse_line(';A comment')
-    assert_equal(p.statements[0].comment, 'A comment')
+    p._parse_line(";A comment")
+    assert p.statements[0].comment == "A comment"
 
 
 def test_parse_format_comment():
     p = ExcellonParser(FileSettings())
-    p._parse_line('; FILE_FORMAT=9:9 ')
-    assert_equal(p.format, (9, 9))
+    p._parse_line("; FILE_FORMAT=9:9 ")
+    assert p.format == (9, 9)
 
 
 def test_parse_header():
     p = ExcellonParser(FileSettings())
-    p._parse_line('M48   ')
-    assert_equal(p.state, 'HEADER')
-    p._parse_line('M95   ')
-    assert_equal(p.state, 'DRILL')
+    p._parse_line("M48   ")
+    assert p.state == "HEADER"
+    p._parse_line("M95   ")
+    assert p.state == "DRILL"
 
 
 def test_parse_rout():
     p = ExcellonParser(FileSettings())
-    p._parse_line('G00X040944Y019842')
-    assert_equal(p.state, 'ROUT')
-    p._parse_line('G05 ')
-    assert_equal(p.state, 'DRILL')
+    p._parse_line("G00X040944Y019842")
+    assert p.state == "ROUT"
+    p._parse_line("G05 ")
+    assert p.state == "DRILL"
 
 
 def test_parse_version():
     p = ExcellonParser(FileSettings())
-    p._parse_line('VER,1  ')
-    assert_equal(p.statements[0].version, 1)
-    p._parse_line('VER,2  ')
-    assert_equal(p.statements[1].version, 2)
+    p._parse_line("VER,1  ")
+    assert p.statements[0].version == 1
+    p._parse_line("VER,2  ")
+    assert p.statements[1].version == 2
 
 
 def test_parse_format():
     p = ExcellonParser(FileSettings())
-    p._parse_line('FMAT,1  ')
-    assert_equal(p.statements[0].format, 1)
-    p._parse_line('FMAT,2  ')
-    assert_equal(p.statements[1].format, 2)
+    p._parse_line("FMAT,1  ")
+    assert p.statements[0].format == 1
+    p._parse_line("FMAT,2  ")
+    assert p.statements[1].format == 2
 
 
 def test_parse_units():
-    settings = FileSettings(units='inch', zeros='trailing')
+    settings = FileSettings(units="inch", zeros="trailing")
     p = ExcellonParser(settings)
-    p._parse_line(';METRIC,LZ')
-    assert_equal(p.units, 'inch')
-    assert_equal(p.zeros, 'trailing')
-    p._parse_line('METRIC,LZ')
-    assert_equal(p.units, 'metric')
-    assert_equal(p.zeros, 'leading')
+    p._parse_line(";METRIC,LZ")
+    assert p.units == "inch"
+    assert p.zeros == "trailing"
+    p._parse_line("METRIC,LZ")
+    assert p.units == "metric"
+    assert p.zeros == "leading"
 
 
 def test_parse_incremental_mode():
-    settings = FileSettings(units='inch', zeros='trailing')
+    settings = FileSettings(units="inch", zeros="trailing")
     p = ExcellonParser(settings)
-    assert_equal(p.notation, 'absolute')
-    p._parse_line('ICI,ON  ')
-    assert_equal(p.notation, 'incremental')
-    p._parse_line('ICI,OFF  ')
-    assert_equal(p.notation, 'absolute')
+    assert p.notation == "absolute"
+    p._parse_line("ICI,ON  ")
+    assert p.notation == "incremental"
+    p._parse_line("ICI,OFF  ")
+    assert p.notation == "absolute"
 
 
 def test_parse_absolute_mode():
-    settings = FileSettings(units='inch', zeros='trailing')
+    settings = FileSettings(units="inch", zeros="trailing")
     p = ExcellonParser(settings)
-    assert_equal(p.notation, 'absolute')
-    p._parse_line('ICI,ON  ')
-    assert_equal(p.notation, 'incremental')
-    p._parse_line('G90  ')
-    assert_equal(p.notation, 'absolute')
+    assert p.notation == "absolute"
+    p._parse_line("ICI,ON  ")
+    assert p.notation == "incremental"
+    p._parse_line("G90  ")
+    assert p.notation == "absolute"
 
 
 def test_parse_repeat_hole():
     p = ExcellonParser(FileSettings())
     p.active_tool = ExcellonTool(FileSettings(), number=8)
-    p._parse_line('R03X1.5Y1.5')
-    assert_equal(p.statements[0].count, 3)
+    p._parse_line("R03X1.5Y1.5")
+    assert p.statements[0].count == 3
 
 
 def test_parse_incremental_position():
-    p = ExcellonParser(FileSettings(notation='incremental'))
-    p._parse_line('X01Y01')
-    p._parse_line('X01Y01')
-    assert_equal(p.pos, [2., 2.])
+    p = ExcellonParser(FileSettings(notation="incremental"))
+    p._parse_line("X01Y01")
+    p._parse_line("X01Y01")
+    assert p.pos == [2.0, 2.0]
 
 
 def test_parse_unknown():
     p = ExcellonParser(FileSettings())
-    p._parse_line('Not A Valid Statement')
-    assert_equal(p.statements[0].stmt, 'Not A Valid Statement')
+    p._parse_line("Not A Valid Statement")
+    assert p.statements[0].stmt == "Not A Valid Statement"
+
 
 def test_drill_hit_units_conversion():
     """ Test unit conversion for drill hits
     """
     # Inch hit
-    settings = FileSettings(units='inch')
+    settings = FileSettings(units="inch")
     tool = ExcellonTool(settings, diameter=1.0)
     hit = DrillHit(tool, (1.0, 1.0))
 
-    assert_equal(hit.tool.settings.units, 'inch')
-    assert_equal(hit.tool.diameter, 1.0)
-    assert_equal(hit.position, (1.0, 1.0))
+    assert hit.tool.settings.units == "inch"
+    assert hit.tool.diameter == 1.0
+    assert hit.position == (1.0, 1.0)
 
     # No Effect
     hit.to_inch()
 
-    assert_equal(hit.tool.settings.units, 'inch')
-    assert_equal(hit.tool.diameter, 1.0)
-    assert_equal(hit.position, (1.0, 1.0))
+    assert hit.tool.settings.units == "inch"
+    assert hit.tool.diameter == 1.0
+    assert hit.position == (1.0, 1.0)
 
     # Should convert
     hit.to_metric()
 
-    assert_equal(hit.tool.settings.units, 'metric')
-    assert_equal(hit.tool.diameter, 25.4)
-    assert_equal(hit.position, (25.4, 25.4))
+    assert hit.tool.settings.units == "metric"
+    assert hit.tool.diameter == 25.4
+    assert hit.position == (25.4, 25.4)
 
     # No Effect
     hit.to_metric()
 
-    assert_equal(hit.tool.settings.units, 'metric')
-    assert_equal(hit.tool.diameter, 25.4)
-    assert_equal(hit.position, (25.4, 25.4))
+    assert hit.tool.settings.units == "metric"
+    assert hit.tool.diameter == 25.4
+    assert hit.position == (25.4, 25.4)
 
     # Convert back to inch
     hit.to_inch()
 
-    assert_equal(hit.tool.settings.units, 'inch')
-    assert_equal(hit.tool.diameter, 1.0)
-    assert_equal(hit.position, (1.0, 1.0))
+    assert hit.tool.settings.units == "inch"
+    assert hit.tool.diameter == 1.0
+    assert hit.position == (1.0, 1.0)
+
 
 def test_drill_hit_offset():
     TEST_VECTORS = [
-        ((0.0 ,0.0), (0.0, 1.0), (0.0, 1.0)),
+        ((0.0, 0.0), (0.0, 1.0), (0.0, 1.0)),
         ((0.0, 0.0), (1.0, 1.0), (1.0, 1.0)),
         ((1.0, 1.0), (0.0, -1.0), (1.0, 0.0)),
         ((1.0, 1.0), (-1.0, -1.0), (0.0, 0.0)),
-
     ]
     for position, offset, expected in TEST_VECTORS:
-        settings = FileSettings(units='inch')
+        settings = FileSettings(units="inch")
         tool = ExcellonTool(settings, diameter=1.0)
         hit = DrillHit(tool, position)
 
-        assert_equal(hit.position, position)
+        assert hit.position == position
 
         hit.offset(offset[0], offset[1])
 
-        assert_equal(hit.position, expected)
+        assert hit.position == expected
 
 
 def test_drill_slot_units_conversion():
     """ Test unit conversion for drill hits
     """
     # Inch hit
-    settings = FileSettings(units='inch')
+    settings = FileSettings(units="inch")
     tool = ExcellonTool(settings, diameter=1.0)
     hit = DrillSlot(tool, (1.0, 1.0), (10.0, 10.0), DrillSlot.TYPE_ROUT)
 
-    assert_equal(hit.tool.settings.units, 'inch')
-    assert_equal(hit.tool.diameter, 1.0)
-    assert_equal(hit.start, (1.0, 1.0))
-    assert_equal(hit.end, (10.0, 10.0))
+    assert hit.tool.settings.units == "inch"
+    assert hit.tool.diameter == 1.0
+    assert hit.start == (1.0, 1.0)
+    assert hit.end == (10.0, 10.0)
 
     # No Effect
     hit.to_inch()
 
-    assert_equal(hit.tool.settings.units, 'inch')
-    assert_equal(hit.tool.diameter, 1.0)
-    assert_equal(hit.start, (1.0, 1.0))
-    assert_equal(hit.end, (10.0, 10.0))
+    assert hit.tool.settings.units == "inch"
+    assert hit.tool.diameter == 1.0
+    assert hit.start == (1.0, 1.0)
+    assert hit.end == (10.0, 10.0)
 
     # Should convert
     hit.to_metric()
 
-    assert_equal(hit.tool.settings.units, 'metric')
-    assert_equal(hit.tool.diameter, 25.4)
-    assert_equal(hit.start, (25.4, 25.4))
-    assert_equal(hit.end, (254.0, 254.0))
+    assert hit.tool.settings.units == "metric"
+    assert hit.tool.diameter == 25.4
+    assert hit.start == (25.4, 25.4)
+    assert hit.end == (254.0, 254.0)
 
     # No Effect
     hit.to_metric()
 
-    assert_equal(hit.tool.settings.units, 'metric')
-    assert_equal(hit.tool.diameter, 25.4)
-    assert_equal(hit.start, (25.4, 25.4))
-    assert_equal(hit.end, (254.0, 254.0))
+    assert hit.tool.settings.units == "metric"
+    assert hit.tool.diameter == 25.4
+    assert hit.start == (25.4, 25.4)
+    assert hit.end == (254.0, 254.0)
 
     # Convert back to inch
     hit.to_inch()
 
-    assert_equal(hit.tool.settings.units, 'inch')
-    assert_equal(hit.tool.diameter, 1.0)
-    assert_equal(hit.start, (1.0, 1.0))
-    assert_equal(hit.end, (10.0, 10.0))
+    assert hit.tool.settings.units == "inch"
+    assert hit.tool.diameter == 1.0
+    assert hit.start == (1.0, 1.0)
+    assert hit.end == (10.0, 10.0)
+
 
 def test_drill_slot_offset():
     TEST_VECTORS = [
-        ((0.0 ,0.0), (1.0, 1.0), (0.0, 0.0), (0.0, 0.0), (1.0, 1.0)),
+        ((0.0, 0.0), (1.0, 1.0), (0.0, 0.0), (0.0, 0.0), (1.0, 1.0)),
         ((0.0, 0.0), (1.0, 1.0), (1.0, 0.0), (1.0, 0.0), (2.0, 1.0)),
         ((0.0, 0.0), (1.0, 1.0), (1.0, 1.0), (1.0, 1.0), (2.0, 2.0)),
         ((0.0, 0.0), (1.0, 1.0), (-1.0, 1.0), (-1.0, 1.0), (0.0, 2.0)),
     ]
     for start, end, offset, expected_start, expected_end in TEST_VECTORS:
-        settings = FileSettings(units='inch')
+        settings = FileSettings(units="inch")
         tool = ExcellonTool(settings, diameter=1.0)
         slot = DrillSlot(tool, start, end, DrillSlot.TYPE_ROUT)
 
-        assert_equal(slot.start, start)
-        assert_equal(slot.end, end)
+        assert slot.start == start
+        assert slot.end == end
 
         slot.offset(offset[0], offset[1])
 
-        assert_equal(slot.start, expected_start)
-        assert_equal(slot.end, expected_end)
+        assert slot.start == expected_start
+        assert slot.end == expected_end
+
 
 def test_drill_slot_bounds():
     TEST_VECTORS = [
         ((0.0, 0.0), (1.0, 1.0), 1.0, ((-0.5, 1.5), (-0.5, 1.5))),
         ((0.0, 0.0), (1.0, 1.0), 0.5, ((-0.25, 1.25), (-0.25, 1.25))),
     ]
-    for start, end, diameter, expected, in TEST_VECTORS:
-        settings = FileSettings(units='inch')
+    for start, end, diameter, expected in TEST_VECTORS:
+        settings = FileSettings(units="inch")
         tool = ExcellonTool(settings, diameter=diameter)
         slot = DrillSlot(tool, start, end, DrillSlot.TYPE_ROUT)
 
-        assert_equal(slot.bounding_box, expected)
+        assert slot.bounding_box == expected
+
 
 def test_handling_multi_line_g00_and_g1():
     """Route Mode statements with coordinates on separate line are handled
@@ -355,6 +361,6 @@ M16
 """
     uut = ExcellonParser()
     uut.parse_raw(test_data)
-    assert_equal(len([stmt for stmt in uut.statements
-                      if isinstance(stmt, RouteModeStmt)]), 2)
-
+    assert (
+        len([stmt for stmt in uut.statements if isinstance(stmt, RouteModeStmt)]) == 2
+    )
diff --git a/gerber/tests/test_excellon_statements.py b/gerber/tests/test_excellon_statements.py
index 8e6e06e..41fe294 100644
--- a/gerber/tests/test_excellon_statements.py
+++ b/gerber/tests/test_excellon_statements.py
@@ -3,15 +3,15 @@
 
 # Author: Hamilton Kibbe <ham@hamiltonkib.be>
 
-from .tests import assert_equal, assert_not_equal, assert_raises
+import pytest
 from ..excellon_statements import *
 from ..cam import FileSettings
 
 
 def test_excellon_statement_implementation():
     stmt = ExcellonStatement()
-    assert_raises(NotImplementedError, stmt.from_excellon, None)
-    assert_raises(NotImplementedError, stmt.to_excellon)
+    pytest.raises(NotImplementedError, stmt.from_excellon, None)
+    pytest.raises(NotImplementedError, stmt.to_excellon)
 
 
 def test_excellontstmt():
@@ -26,154 +26,173 @@ def test_excellontstmt():
 def test_excellontool_factory():
     """ Test ExcellonTool factory methods
     """
-    exc_line = 'T8F01B02S00003H04Z05C0.12500'
-    settings = FileSettings(format=(2, 5), zero_suppression='trailing',
-                            units='inch', notation='absolute')
+    exc_line = "T8F01B02S00003H04Z05C0.12500"
+    settings = FileSettings(
+        format=(2, 5), zero_suppression="trailing", units="inch", notation="absolute"
+    )
     tool = ExcellonTool.from_excellon(exc_line, settings)
-    assert_equal(tool.number, 8)
-    assert_equal(tool.diameter, 0.125)
-    assert_equal(tool.feed_rate, 1)
-    assert_equal(tool.retract_rate, 2)
-    assert_equal(tool.rpm, 3)
-    assert_equal(tool.max_hit_count, 4)
-    assert_equal(tool.depth_offset, 5)
-
-    stmt = {'number': 8, 'feed_rate': 1, 'retract_rate': 2, 'rpm': 3,
-            'diameter': 0.125, 'max_hit_count': 4, 'depth_offset': 5}
+    assert tool.number == 8
+    assert tool.diameter == 0.125
+    assert tool.feed_rate == 1
+    assert tool.retract_rate == 2
+    assert tool.rpm == 3
+    assert tool.max_hit_count == 4
+    assert tool.depth_offset == 5
+
+    stmt = {
+        "number": 8,
+        "feed_rate": 1,
+        "retract_rate": 2,
+        "rpm": 3,
+        "diameter": 0.125,
+        "max_hit_count": 4,
+        "depth_offset": 5,
+    }
     tool = ExcellonTool.from_dict(settings, stmt)
-    assert_equal(tool.number, 8)
-    assert_equal(tool.diameter, 0.125)
-    assert_equal(tool.feed_rate, 1)
-    assert_equal(tool.retract_rate, 2)
-    assert_equal(tool.rpm, 3)
-    assert_equal(tool.max_hit_count, 4)
-    assert_equal(tool.depth_offset, 5)
+    assert tool.number == 8
+    assert tool.diameter == 0.125
+    assert tool.feed_rate == 1
+    assert tool.retract_rate == 2
+    assert tool.rpm == 3
+    assert tool.max_hit_count == 4
+    assert tool.depth_offset == 5
 
 
 def test_excellontool_dump():
     """ Test ExcellonTool to_excellon()
     """
-    exc_lines = ['T01F0S0C0.01200', 'T02F0S0C0.01500', 'T03F0S0C0.01968',
-                 'T04F0S0C0.02800', 'T05F0S0C0.03300', 'T06F0S0C0.03800',
-                 'T07F0S0C0.04300', 'T08F0S0C0.12500', 'T09F0S0C0.13000',
-                 'T08B01F02H03S00003C0.12500Z04', 'T01F0S300.999C0.01200']
-    settings = FileSettings(format=(2, 5), zero_suppression='trailing',
-                            units='inch', notation='absolute')
+    exc_lines = [
+        "T01F0S0C0.01200",
+        "T02F0S0C0.01500",
+        "T03F0S0C0.01968",
+        "T04F0S0C0.02800",
+        "T05F0S0C0.03300",
+        "T06F0S0C0.03800",
+        "T07F0S0C0.04300",
+        "T08F0S0C0.12500",
+        "T09F0S0C0.13000",
+        "T08B01F02H03S00003C0.12500Z04",
+        "T01F0S300.999C0.01200",
+    ]
+    settings = FileSettings(
+        format=(2, 5), zero_suppression="trailing", units="inch", notation="absolute"
+    )
     for line in exc_lines:
         tool = ExcellonTool.from_excellon(line, settings)
-        assert_equal(tool.to_excellon(), line)
+        assert tool.to_excellon() == line
 
 
 def test_excellontool_order():
-    settings = FileSettings(format=(2, 5), zero_suppression='trailing',
-                            units='inch', notation='absolute')
-    line = 'T8F00S00C0.12500'
+    settings = FileSettings(
+        format=(2, 5), zero_suppression="trailing", units="inch", notation="absolute"
+    )
+    line = "T8F00S00C0.12500"
     tool1 = ExcellonTool.from_excellon(line, settings)
-    line = 'T8C0.12500F00S00'
+    line = "T8C0.12500F00S00"
     tool2 = ExcellonTool.from_excellon(line, settings)
-    assert_equal(tool1.diameter, tool2.diameter)
-    assert_equal(tool1.feed_rate, tool2.feed_rate)
-    assert_equal(tool1.rpm, tool2.rpm)
+    assert tool1.diameter == tool2.diameter
+    assert tool1.feed_rate == tool2.feed_rate
+    assert tool1.rpm == tool2.rpm
 
 
 def test_excellontool_conversion():
-    tool = ExcellonTool.from_dict(FileSettings(units='metric'),
-                                  {'number': 8, 'diameter': 25.4})
+    tool = ExcellonTool.from_dict(
+        FileSettings(units="metric"), {"number": 8, "diameter": 25.4}
+    )
     tool.to_inch()
-    assert_equal(tool.diameter, 1.)
-    tool = ExcellonTool.from_dict(FileSettings(units='inch'),
-                                  {'number': 8, 'diameter': 1.})
+    assert tool.diameter == 1.0
+    tool = ExcellonTool.from_dict(
+        FileSettings(units="inch"), {"number": 8, "diameter": 1.0}
+    )
     tool.to_metric()
-    assert_equal(tool.diameter, 25.4)
+    assert tool.diameter == 25.4
 
     # Shouldn't change units if we're already using target units
-    tool = ExcellonTool.from_dict(FileSettings(units='inch'),
-                                  {'number': 8, 'diameter': 25.4})
+    tool = ExcellonTool.from_dict(
+        FileSettings(units="inch"), {"number": 8, "diameter": 25.4}
+    )
     tool.to_inch()
-    assert_equal(tool.diameter, 25.4)
-    tool = ExcellonTool.from_dict(FileSettings(units='metric'),
-                                  {'number': 8, 'diameter': 1.})
+    assert tool.diameter == 25.4
+    tool = ExcellonTool.from_dict(
+        FileSettings(units="metric"), {"number": 8, "diameter": 1.0}
+    )
     tool.to_metric()
-    assert_equal(tool.diameter, 1.)
+    assert tool.diameter == 1.0
 
 
 def test_excellontool_repr():
-    tool = ExcellonTool.from_dict(FileSettings(),
-                                  {'number': 8, 'diameter': 0.125})
-    assert_equal(str(tool), '<ExcellonTool 08: 0.125in. dia.>')
-    tool = ExcellonTool.from_dict(FileSettings(units='metric'),
-                                  {'number': 8, 'diameter': 0.125})
-    assert_equal(str(tool), '<ExcellonTool 08: 0.125mm dia.>')
+    tool = ExcellonTool.from_dict(FileSettings(), {"number": 8, "diameter": 0.125})
+    assert str(tool) == "<ExcellonTool 08: 0.125in. dia.>"
+    tool = ExcellonTool.from_dict(
+        FileSettings(units="metric"), {"number": 8, "diameter": 0.125}
+    )
+    assert str(tool) == "<ExcellonTool 08: 0.125mm dia.>"
 
 
 def test_excellontool_equality():
-    t = ExcellonTool.from_dict(
-        FileSettings(), {'number': 8, 'diameter': 0.125})
+    t = ExcellonTool.from_dict(FileSettings(), {"number": 8, "diameter": 0.125})
+    t1 = ExcellonTool.from_dict(FileSettings(), {"number": 8, "diameter": 0.125})
+    assert t == t1
     t1 = ExcellonTool.from_dict(
-        FileSettings(), {'number': 8, 'diameter': 0.125})
-    assert_equal(t, t1)
-    t1 = ExcellonTool.from_dict(FileSettings(units='metric'),
-                                {'number': 8, 'diameter': 0.125})
-    assert_not_equal(t, t1)
+        FileSettings(units="metric"), {"number": 8, "diameter": 0.125}
+    )
+    assert t != t1
 
 
 def test_toolselection_factory():
     """ Test ToolSelectionStmt factory method
     """
-    stmt = ToolSelectionStmt.from_excellon('T01')
-    assert_equal(stmt.tool, 1)
-    assert_equal(stmt.compensation_index, None)
-    stmt = ToolSelectionStmt.from_excellon('T0223')
-    assert_equal(stmt.tool, 2)
-    assert_equal(stmt.compensation_index, 23)
-    stmt = ToolSelectionStmt.from_excellon('T042')
-    assert_equal(stmt.tool, 42)
-    assert_equal(stmt.compensation_index, None)
+    stmt = ToolSelectionStmt.from_excellon("T01")
+    assert stmt.tool == 1
+    assert stmt.compensation_index == None
+    stmt = ToolSelectionStmt.from_excellon("T0223")
+    assert stmt.tool == 2
+    assert stmt.compensation_index == 23
+    stmt = ToolSelectionStmt.from_excellon("T042")
+    assert stmt.tool == 42
+    assert stmt.compensation_index == None
 
 
 def test_toolselection_dump():
     """ Test ToolSelectionStmt to_excellon()
     """
-    lines = ['T01', 'T0223', 'T10', 'T09', 'T0000']
+    lines = ["T01", "T0223", "T10", "T09", "T0000"]
     for line in lines:
         stmt = ToolSelectionStmt.from_excellon(line)
-        assert_equal(stmt.to_excellon(), line)
+        assert stmt.to_excellon() == line
 
 
 def test_z_axis_infeed_rate_factory():
     """ Test ZAxisInfeedRateStmt factory method
     """
-    stmt = ZAxisInfeedRateStmt.from_excellon('F01')
-    assert_equal(stmt.rate, 1)
-    stmt = ZAxisInfeedRateStmt.from_excellon('F2')
-    assert_equal(stmt.rate, 2)
-    stmt = ZAxisInfeedRateStmt.from_excellon('F03')
-    assert_equal(stmt.rate, 3)
+    stmt = ZAxisInfeedRateStmt.from_excellon("F01")
+    assert stmt.rate == 1
+    stmt = ZAxisInfeedRateStmt.from_excellon("F2")
+    assert stmt.rate == 2
+    stmt = ZAxisInfeedRateStmt.from_excellon("F03")
+    assert stmt.rate == 3
 
 
 def test_z_axis_infeed_rate_dump():
     """ Test ZAxisInfeedRateStmt to_excellon()
     """
-    inputs = [
-        ('F01', 'F01'),
-        ('F2', 'F02'),
-        ('F00003', 'F03')
-    ]
+    inputs = [("F01", "F01"), ("F2", "F02"), ("F00003", "F03")]
     for input_rate, expected_output in inputs:
         stmt = ZAxisInfeedRateStmt.from_excellon(input_rate)
-        assert_equal(stmt.to_excellon(), expected_output)
+        assert stmt.to_excellon() == expected_output
 
 
 def test_coordinatestmt_factory():
     """ Test CoordinateStmt factory method
     """
-    settings = FileSettings(format=(2, 5), zero_suppression='trailing',
-                            units='inch', notation='absolute')
+    settings = FileSettings(
+        format=(2, 5), zero_suppression="trailing", units="inch", notation="absolute"
+    )
 
-    line = 'X0278207Y0065293'
+    line = "X0278207Y0065293"
     stmt = CoordinateStmt.from_excellon(line, settings)
-    assert_equal(stmt.x, 2.78207)
-    assert_equal(stmt.y, 0.65293)
+    assert stmt.x == 2.78207
+    assert stmt.y == 0.65293
 
     # line = 'X02945'
     # stmt = CoordinateStmt.from_excellon(line)
@@ -183,518 +202,533 @@ def test_coordinatestmt_factory():
     # stmt = CoordinateStmt.from_excellon(line)
     # assert_equal(stmt.y, 0.575)
 
-    settings = FileSettings(format=(2, 4), zero_suppression='leading',
-                            units='inch', notation='absolute')
+    settings = FileSettings(
+        format=(2, 4), zero_suppression="leading", units="inch", notation="absolute"
+    )
 
-    line = 'X9660Y4639'
+    line = "X9660Y4639"
     stmt = CoordinateStmt.from_excellon(line, settings)
-    assert_equal(stmt.x, 0.9660)
-    assert_equal(stmt.y, 0.4639)
-    assert_equal(stmt.to_excellon(settings), "X9660Y4639")
-    assert_equal(stmt.units, 'inch')
+    assert stmt.x == 0.9660
+    assert stmt.y == 0.4639
+    assert stmt.to_excellon(settings) == "X9660Y4639"
+    assert stmt.units == "inch"
 
-    settings.units = 'metric'
+    settings.units = "metric"
     stmt = CoordinateStmt.from_excellon(line, settings)
-    assert_equal(stmt.units, 'metric')
+    assert stmt.units == "metric"
 
 
 def test_coordinatestmt_dump():
     """ Test CoordinateStmt to_excellon()
     """
-    lines = ['X278207Y65293', 'X243795', 'Y82528', 'Y86028',
-             'X251295Y81528', 'X2525Y78', 'X255Y575', 'Y52',
-             'X2675', 'Y575', 'X2425', 'Y52', 'X23', ]
-    settings = FileSettings(format=(2, 4), zero_suppression='leading',
-                            units='inch', notation='absolute')
+    lines = [
+        "X278207Y65293",
+        "X243795",
+        "Y82528",
+        "Y86028",
+        "X251295Y81528",
+        "X2525Y78",
+        "X255Y575",
+        "Y52",
+        "X2675",
+        "Y575",
+        "X2425",
+        "Y52",
+        "X23",
+    ]
+    settings = FileSettings(
+        format=(2, 4), zero_suppression="leading", units="inch", notation="absolute"
+    )
     for line in lines:
         stmt = CoordinateStmt.from_excellon(line, settings)
-        assert_equal(stmt.to_excellon(settings), line)
+        assert stmt.to_excellon(settings) == line
 
 
 def test_coordinatestmt_conversion():
 
     settings = FileSettings()
-    settings.units = 'metric'
-    stmt = CoordinateStmt.from_excellon('X254Y254', settings)
+    settings.units = "metric"
+    stmt = CoordinateStmt.from_excellon("X254Y254", settings)
 
     # No effect
     stmt.to_metric()
-    assert_equal(stmt.x, 25.4)
-    assert_equal(stmt.y, 25.4)
+    assert stmt.x == 25.4
+    assert stmt.y == 25.4
 
     stmt.to_inch()
-    assert_equal(stmt.units, 'inch')
-    assert_equal(stmt.x, 1.)
-    assert_equal(stmt.y, 1.)
+    assert stmt.units == "inch"
+    assert stmt.x == 1.0
+    assert stmt.y == 1.0
 
     # No effect
     stmt.to_inch()
-    assert_equal(stmt.x, 1.)
-    assert_equal(stmt.y, 1.)
+    assert stmt.x == 1.0
+    assert stmt.y == 1.0
 
-    settings.units = 'inch'
-    stmt = CoordinateStmt.from_excellon('X01Y01', settings)
+    settings.units = "inch"
+    stmt = CoordinateStmt.from_excellon("X01Y01", settings)
 
     # No effect
     stmt.to_inch()
-    assert_equal(stmt.x, 1.)
-    assert_equal(stmt.y, 1.)
+    assert stmt.x == 1.0
+    assert stmt.y == 1.0
 
     stmt.to_metric()
-    assert_equal(stmt.units, 'metric')
-    assert_equal(stmt.x, 25.4)
-    assert_equal(stmt.y, 25.4)
+    assert stmt.units == "metric"
+    assert stmt.x == 25.4
+    assert stmt.y == 25.4
 
     # No effect
     stmt.to_metric()
-    assert_equal(stmt.x, 25.4)
-    assert_equal(stmt.y, 25.4)
+    assert stmt.x == 25.4
+    assert stmt.y == 25.4
 
 
 def test_coordinatestmt_offset():
-    stmt = CoordinateStmt.from_excellon('X01Y01', FileSettings())
+    stmt = CoordinateStmt.from_excellon("X01Y01", FileSettings())
     stmt.offset()
-    assert_equal(stmt.x, 1)
-    assert_equal(stmt.y, 1)
+    assert stmt.x == 1
+    assert stmt.y == 1
     stmt.offset(1, 0)
-    assert_equal(stmt.x, 2.)
-    assert_equal(stmt.y, 1.)
+    assert stmt.x == 2.0
+    assert stmt.y == 1.0
     stmt.offset(0, 1)
-    assert_equal(stmt.x, 2.)
-    assert_equal(stmt.y, 2.)
+    assert stmt.x == 2.0
+    assert stmt.y == 2.0
 
 
 def test_coordinatestmt_string():
-    settings = FileSettings(format=(2, 4), zero_suppression='leading',
-                            units='inch', notation='absolute')
-    stmt = CoordinateStmt.from_excellon('X9660Y4639', settings)
-    assert_equal(str(stmt), '<Coordinate Statement: X: 0.966 Y: 0.4639 >')
+    settings = FileSettings(
+        format=(2, 4), zero_suppression="leading", units="inch", notation="absolute"
+    )
+    stmt = CoordinateStmt.from_excellon("X9660Y4639", settings)
+    assert str(stmt) == "<Coordinate Statement: X: 0.966 Y: 0.4639 >"
 
 
 def test_repeathole_stmt_factory():
-    stmt = RepeatHoleStmt.from_excellon('R0004X015Y32',
-                                        FileSettings(zeros='leading',
-                                                     units='inch'))
-    assert_equal(stmt.count, 4)
-    assert_equal(stmt.xdelta, 1.5)
-    assert_equal(stmt.ydelta, 32)
-    assert_equal(stmt.units, 'inch')
+    stmt = RepeatHoleStmt.from_excellon(
+        "R0004X015Y32", FileSettings(zeros="leading", units="inch")
+    )
+    assert stmt.count == 4
+    assert stmt.xdelta == 1.5
+    assert stmt.ydelta == 32
+    assert stmt.units == "inch"
 
-    stmt = RepeatHoleStmt.from_excellon('R0004X015Y32',
-                                        FileSettings(zeros='leading',
-                                                     units='metric'))
-    assert_equal(stmt.units, 'metric')
+    stmt = RepeatHoleStmt.from_excellon(
+        "R0004X015Y32", FileSettings(zeros="leading", units="metric")
+    )
+    assert stmt.units == "metric"
 
 
 def test_repeatholestmt_dump():
-    line = 'R4X015Y32'
+    line = "R4X015Y32"
     stmt = RepeatHoleStmt.from_excellon(line, FileSettings())
-    assert_equal(stmt.to_excellon(FileSettings()), line)
+    assert stmt.to_excellon(FileSettings()) == line
 
 
 def test_repeatholestmt_conversion():
-    line = 'R4X0254Y254'
+    line = "R4X0254Y254"
     settings = FileSettings()
-    settings.units = 'metric'
+    settings.units = "metric"
     stmt = RepeatHoleStmt.from_excellon(line, settings)
 
     # No effect
     stmt.to_metric()
-    assert_equal(stmt.xdelta, 2.54)
-    assert_equal(stmt.ydelta, 25.4)
+    assert stmt.xdelta == 2.54
+    assert stmt.ydelta == 25.4
 
     stmt.to_inch()
-    assert_equal(stmt.units, 'inch')
-    assert_equal(stmt.xdelta, 0.1)
-    assert_equal(stmt.ydelta, 1.)
+    assert stmt.units == "inch"
+    assert stmt.xdelta == 0.1
+    assert stmt.ydelta == 1.0
 
     # no effect
     stmt.to_inch()
-    assert_equal(stmt.xdelta, 0.1)
-    assert_equal(stmt.ydelta, 1.)
+    assert stmt.xdelta == 0.1
+    assert stmt.ydelta == 1.0
 
-    line = 'R4X01Y1'
-    settings.units = 'inch'
+    line = "R4X01Y1"
+    settings.units = "inch"
     stmt = RepeatHoleStmt.from_excellon(line, settings)
 
     # no effect
     stmt.to_inch()
-    assert_equal(stmt.xdelta, 1.)
-    assert_equal(stmt.ydelta, 10.)
+    assert stmt.xdelta == 1.0
+    assert stmt.ydelta == 10.0
 
     stmt.to_metric()
-    assert_equal(stmt.units, 'metric')
-    assert_equal(stmt.xdelta, 25.4)
-    assert_equal(stmt.ydelta, 254.)
+    assert stmt.units == "metric"
+    assert stmt.xdelta == 25.4
+    assert stmt.ydelta == 254.0
 
     # No effect
     stmt.to_metric()
-    assert_equal(stmt.xdelta, 25.4)
-    assert_equal(stmt.ydelta, 254.)
+    assert stmt.xdelta == 25.4
+    assert stmt.ydelta == 254.0
 
 
 def test_repeathole_str():
-    stmt = RepeatHoleStmt.from_excellon('R4X015Y32', FileSettings())
-    assert_equal(str(stmt), '<Repeat Hole: 4 times, offset X: 1.5 Y: 32>')
+    stmt = RepeatHoleStmt.from_excellon("R4X015Y32", FileSettings())
+    assert str(stmt) == "<Repeat Hole: 4 times, offset X: 1.5 Y: 32>"
 
 
 def test_commentstmt_factory():
     """ Test CommentStmt factory method
     """
-    line = ';Layer_Color=9474304'
+    line = ";Layer_Color=9474304"
     stmt = CommentStmt.from_excellon(line)
-    assert_equal(stmt.comment, line[1:])
+    assert stmt.comment == line[1:]
 
-    line = ';FILE_FORMAT=2:5'
+    line = ";FILE_FORMAT=2:5"
     stmt = CommentStmt.from_excellon(line)
-    assert_equal(stmt.comment, line[1:])
+    assert stmt.comment == line[1:]
 
-    line = ';TYPE=PLATED'
+    line = ";TYPE=PLATED"
     stmt = CommentStmt.from_excellon(line)
-    assert_equal(stmt.comment, line[1:])
+    assert stmt.comment == line[1:]
 
 
 def test_commentstmt_dump():
     """ Test CommentStmt to_excellon()
     """
-    lines = [';Layer_Color=9474304', ';FILE_FORMAT=2:5', ';TYPE=PLATED', ]
+    lines = [";Layer_Color=9474304", ";FILE_FORMAT=2:5", ";TYPE=PLATED"]
     for line in lines:
         stmt = CommentStmt.from_excellon(line)
-        assert_equal(stmt.to_excellon(), line)
+        assert stmt.to_excellon() == line
 
 
 def test_header_begin_stmt():
     stmt = HeaderBeginStmt()
-    assert_equal(stmt.to_excellon(None), 'M48')
+    assert stmt.to_excellon(None) == "M48"
 
 
 def test_header_end_stmt():
     stmt = HeaderEndStmt()
-    assert_equal(stmt.to_excellon(None), 'M95')
+    assert stmt.to_excellon(None) == "M95"
 
 
 def test_rewindstop_stmt():
     stmt = RewindStopStmt()
-    assert_equal(stmt.to_excellon(None), '%')
+    assert stmt.to_excellon(None) == "%"
 
 
 def test_z_axis_rout_position_stmt():
     stmt = ZAxisRoutPositionStmt()
-    assert_equal(stmt.to_excellon(None), 'M15')
+    assert stmt.to_excellon(None) == "M15"
 
 
 def test_retract_with_clamping_stmt():
     stmt = RetractWithClampingStmt()
-    assert_equal(stmt.to_excellon(None), 'M16')
+    assert stmt.to_excellon(None) == "M16"
 
 
 def test_retract_without_clamping_stmt():
     stmt = RetractWithoutClampingStmt()
-    assert_equal(stmt.to_excellon(None), 'M17')
+    assert stmt.to_excellon(None) == "M17"
 
 
 def test_cutter_compensation_off_stmt():
     stmt = CutterCompensationOffStmt()
-    assert_equal(stmt.to_excellon(None), 'G40')
+    assert stmt.to_excellon(None) == "G40"
 
 
 def test_cutter_compensation_left_stmt():
     stmt = CutterCompensationLeftStmt()
-    assert_equal(stmt.to_excellon(None), 'G41')
+    assert stmt.to_excellon(None) == "G41"
 
 
 def test_cutter_compensation_right_stmt():
     stmt = CutterCompensationRightStmt()
-    assert_equal(stmt.to_excellon(None), 'G42')
+    assert stmt.to_excellon(None) == "G42"
 
 
 def test_endofprogramstmt_factory():
-    settings = FileSettings(units='inch')
-    stmt = EndOfProgramStmt.from_excellon('M30X01Y02', settings)
-    assert_equal(stmt.x, 1.)
-    assert_equal(stmt.y, 2.)
-    assert_equal(stmt.units, 'inch')
-    settings.units = 'metric'
-    stmt = EndOfProgramStmt.from_excellon('M30X01', settings)
-    assert_equal(stmt.x, 1.)
-    assert_equal(stmt.y, None)
-    assert_equal(stmt.units, 'metric')
-    stmt = EndOfProgramStmt.from_excellon('M30Y02', FileSettings())
-    assert_equal(stmt.x, None)
-    assert_equal(stmt.y, 2.)
+    settings = FileSettings(units="inch")
+    stmt = EndOfProgramStmt.from_excellon("M30X01Y02", settings)
+    assert stmt.x == 1.0
+    assert stmt.y == 2.0
+    assert stmt.units == "inch"
+    settings.units = "metric"
+    stmt = EndOfProgramStmt.from_excellon("M30X01", settings)
+    assert stmt.x == 1.0
+    assert stmt.y == None
+    assert stmt.units == "metric"
+    stmt = EndOfProgramStmt.from_excellon("M30Y02", FileSettings())
+    assert stmt.x == None
+    assert stmt.y == 2.0
 
 
 def test_endofprogramStmt_dump():
-    lines = ['M30X01Y02', ]
+    lines = ["M30X01Y02"]
     for line in lines:
         stmt = EndOfProgramStmt.from_excellon(line, FileSettings())
-        assert_equal(stmt.to_excellon(FileSettings()), line)
+        assert stmt.to_excellon(FileSettings()) == line
 
 
 def test_endofprogramstmt_conversion():
     settings = FileSettings()
-    settings.units = 'metric'
-    stmt = EndOfProgramStmt.from_excellon('M30X0254Y254', settings)
+    settings.units = "metric"
+    stmt = EndOfProgramStmt.from_excellon("M30X0254Y254", settings)
     # No effect
     stmt.to_metric()
-    assert_equal(stmt.x, 2.54)
-    assert_equal(stmt.y, 25.4)
+    assert stmt.x == 2.54
+    assert stmt.y == 25.4
 
     stmt.to_inch()
-    assert_equal(stmt.units, 'inch')
-    assert_equal(stmt.x, 0.1)
-    assert_equal(stmt.y, 1.0)
+    assert stmt.units == "inch"
+    assert stmt.x == 0.1
+    assert stmt.y == 1.0
 
     # No effect
     stmt.to_inch()
-    assert_equal(stmt.x, 0.1)
-    assert_equal(stmt.y, 1.0)
+    assert stmt.x == 0.1
+    assert stmt.y == 1.0
 
-    settings.units = 'inch'
-    stmt = EndOfProgramStmt.from_excellon('M30X01Y1', settings)
+    settings.units = "inch"
+    stmt = EndOfProgramStmt.from_excellon("M30X01Y1", settings)
 
     # No effect
     stmt.to_inch()
-    assert_equal(stmt.x, 1.)
-    assert_equal(stmt.y, 10.0)
+    assert stmt.x == 1.0
+    assert stmt.y == 10.0
 
     stmt.to_metric()
-    assert_equal(stmt.units, 'metric')
-    assert_equal(stmt.x, 25.4)
-    assert_equal(stmt.y, 254.)
+    assert stmt.units == "metric"
+    assert stmt.x == 25.4
+    assert stmt.y == 254.0
 
     # No effect
     stmt.to_metric()
-    assert_equal(stmt.x, 25.4)
-    assert_equal(stmt.y, 254.)
+    assert stmt.x == 25.4
+    assert stmt.y == 254.0
 
 
 def test_endofprogramstmt_offset():
     stmt = EndOfProgramStmt(1, 1)
     stmt.offset()
-    assert_equal(stmt.x, 1)
-    assert_equal(stmt.y, 1)
+    assert stmt.x == 1
+    assert stmt.y == 1
     stmt.offset(1, 0)
-    assert_equal(stmt.x, 2.)
-    assert_equal(stmt.y, 1.)
+    assert stmt.x == 2.0
+    assert stmt.y == 1.0
     stmt.offset(0, 1)
-    assert_equal(stmt.x, 2.)
-    assert_equal(stmt.y, 2.)
+    assert stmt.x == 2.0
+    assert stmt.y == 2.0
 
 
 def test_unitstmt_factory():
     """ Test UnitStmt factory method
     """
-    line = 'INCH,LZ'
+    line = "INCH,LZ"
     stmt = UnitStmt.from_excellon(line)
-    assert_equal(stmt.units, 'inch')
-    assert_equal(stmt.zeros, 'leading')
+    assert stmt.units == "inch"
+    assert stmt.zeros == "leading"
 
-    line = 'INCH,TZ'
+    line = "INCH,TZ"
     stmt = UnitStmt.from_excellon(line)
-    assert_equal(stmt.units, 'inch')
-    assert_equal(stmt.zeros, 'trailing')
+    assert stmt.units == "inch"
+    assert stmt.zeros == "trailing"
 
-    line = 'METRIC,LZ'
+    line = "METRIC,LZ"
     stmt = UnitStmt.from_excellon(line)
-    assert_equal(stmt.units, 'metric')
-    assert_equal(stmt.zeros, 'leading')
+    assert stmt.units == "metric"
+    assert stmt.zeros == "leading"
 
-    line = 'METRIC,TZ'
+    line = "METRIC,TZ"
     stmt = UnitStmt.from_excellon(line)
-    assert_equal(stmt.units, 'metric')
-    assert_equal(stmt.zeros, 'trailing')
+    assert stmt.units == "metric"
+    assert stmt.zeros == "trailing"
 
 
 def test_unitstmt_dump():
     """ Test UnitStmt to_excellon()
     """
-    lines = ['INCH,LZ', 'INCH,TZ', 'METRIC,LZ', 'METRIC,TZ', ]
+    lines = ["INCH,LZ", "INCH,TZ", "METRIC,LZ", "METRIC,TZ"]
     for line in lines:
         stmt = UnitStmt.from_excellon(line)
-        assert_equal(stmt.to_excellon(), line)
+        assert stmt.to_excellon() == line
 
 
 def test_unitstmt_conversion():
-    stmt = UnitStmt.from_excellon('METRIC,TZ')
+    stmt = UnitStmt.from_excellon("METRIC,TZ")
     stmt.to_inch()
-    assert_equal(stmt.units, 'inch')
+    assert stmt.units == "inch"
 
-    stmt = UnitStmt.from_excellon('INCH,TZ')
+    stmt = UnitStmt.from_excellon("INCH,TZ")
     stmt.to_metric()
-    assert_equal(stmt.units, 'metric')
+    assert stmt.units == "metric"
 
 
 def test_incrementalmode_factory():
     """ Test IncrementalModeStmt factory method
     """
-    line = 'ICI,ON'
+    line = "ICI,ON"
     stmt = IncrementalModeStmt.from_excellon(line)
-    assert_equal(stmt.mode, 'on')
+    assert stmt.mode == "on"
 
-    line = 'ICI,OFF'
+    line = "ICI,OFF"
     stmt = IncrementalModeStmt.from_excellon(line)
-    assert_equal(stmt.mode, 'off')
+    assert stmt.mode == "off"
 
 
 def test_incrementalmode_dump():
     """ Test IncrementalModeStmt to_excellon()
     """
-    lines = ['ICI,ON', 'ICI,OFF', ]
+    lines = ["ICI,ON", "ICI,OFF"]
     for line in lines:
         stmt = IncrementalModeStmt.from_excellon(line)
-        assert_equal(stmt.to_excellon(), line)
+        assert stmt.to_excellon() == line
 
 
 def test_incrementalmode_validation():
     """ Test IncrementalModeStmt input validation
     """
-    assert_raises(ValueError, IncrementalModeStmt, 'OFF-ISH')
+    pytest.raises(ValueError, IncrementalModeStmt, "OFF-ISH")
 
 
 def test_versionstmt_factory():
     """ Test VersionStmt factory method
     """
-    line = 'VER,1'
+    line = "VER,1"
     stmt = VersionStmt.from_excellon(line)
-    assert_equal(stmt.version, 1)
+    assert stmt.version == 1
 
-    line = 'VER,2'
+    line = "VER,2"
     stmt = VersionStmt.from_excellon(line)
-    assert_equal(stmt.version, 2)
+    assert stmt.version == 2
 
 
 def test_versionstmt_dump():
     """ Test VersionStmt to_excellon()
     """
-    lines = ['VER,1', 'VER,2', ]
+    lines = ["VER,1", "VER,2"]
     for line in lines:
         stmt = VersionStmt.from_excellon(line)
-        assert_equal(stmt.to_excellon(), line)
+        assert stmt.to_excellon() == line
 
 
 def test_versionstmt_validation():
     """ Test VersionStmt input validation
     """
-    assert_raises(ValueError, VersionStmt, 3)
+    pytest.raises(ValueError, VersionStmt, 3)
 
 
 def test_formatstmt_factory():
     """ Test FormatStmt factory method
     """
-    line = 'FMAT,1'
+    line = "FMAT,1"
     stmt = FormatStmt.from_excellon(line)
-    assert_equal(stmt.format, 1)
+    assert stmt.format == 1
 
-    line = 'FMAT,2'
+    line = "FMAT,2"
     stmt = FormatStmt.from_excellon(line)
-    assert_equal(stmt.format, 2)
+    assert stmt.format == 2
 
 
 def test_formatstmt_dump():
     """ Test FormatStmt to_excellon()
     """
-    lines = ['FMAT,1', 'FMAT,2', ]
+    lines = ["FMAT,1", "FMAT,2"]
     for line in lines:
         stmt = FormatStmt.from_excellon(line)
-        assert_equal(stmt.to_excellon(), line)
+        assert stmt.to_excellon() == line
 
 
 def test_formatstmt_validation():
     """ Test FormatStmt input validation
     """
-    assert_raises(ValueError, FormatStmt, 3)
+    pytest.raises(ValueError, FormatStmt, 3)
 
 
 def test_linktoolstmt_factory():
     """ Test LinkToolStmt factory method
     """
-    line = '1/2/3/4'
+    line = "1/2/3/4"
     stmt = LinkToolStmt.from_excellon(line)
-    assert_equal(stmt.linked_tools, [1, 2, 3, 4])
+    assert stmt.linked_tools == [1, 2, 3, 4]
 
-    line = '01/02/03/04'
+    line = "01/02/03/04"
     stmt = LinkToolStmt.from_excellon(line)
-    assert_equal(stmt.linked_tools, [1, 2, 3, 4])
+    assert stmt.linked_tools == [1, 2, 3, 4]
 
 
 def test_linktoolstmt_dump():
     """ Test LinkToolStmt to_excellon()
     """
-    lines = ['1/2/3/4', '5/6/7', ]
+    lines = ["1/2/3/4", "5/6/7"]
     for line in lines:
         stmt = LinkToolStmt.from_excellon(line)
-        assert_equal(stmt.to_excellon(), line)
+        assert stmt.to_excellon() == line
 
 
 def test_measmodestmt_factory():
     """ Test MeasuringModeStmt factory method
     """
-    line = 'M72'
+    line = "M72"
     stmt = MeasuringModeStmt.from_excellon(line)
-    assert_equal(stmt.units, 'inch')
+    assert stmt.units == "inch"
 
-    line = 'M71'
+    line = "M71"
     stmt = MeasuringModeStmt.from_excellon(line)
-    assert_equal(stmt.units, 'metric')
+    assert stmt.units == "metric"
 
 
 def test_measmodestmt_dump():
     """ Test MeasuringModeStmt to_excellon()
     """
-    lines = ['M71', 'M72', ]
+    lines = ["M71", "M72"]
     for line in lines:
         stmt = MeasuringModeStmt.from_excellon(line)
-        assert_equal(stmt.to_excellon(), line)
+        assert stmt.to_excellon() == line
 
 
 def test_measmodestmt_validation():
     """ Test MeasuringModeStmt input validation
     """
-    assert_raises(ValueError, MeasuringModeStmt.from_excellon, 'M70')
-    assert_raises(ValueError, MeasuringModeStmt, 'millimeters')
+    pytest.raises(ValueError, MeasuringModeStmt.from_excellon, "M70")
+    pytest.raises(ValueError, MeasuringModeStmt, "millimeters")
 
 
 def test_measmodestmt_conversion():
-    line = 'M72'
+    line = "M72"
     stmt = MeasuringModeStmt.from_excellon(line)
-    assert_equal(stmt.units, 'inch')
+    assert stmt.units == "inch"
     stmt.to_metric()
-    assert_equal(stmt.units, 'metric')
+    assert stmt.units == "metric"
 
-    line = 'M71'
+    line = "M71"
     stmt = MeasuringModeStmt.from_excellon(line)
-    assert_equal(stmt.units, 'metric')
+    assert stmt.units == "metric"
     stmt.to_inch()
-    assert_equal(stmt.units, 'inch')
+    assert stmt.units == "inch"
 
 
 def test_routemode_stmt():
     stmt = RouteModeStmt()
-    assert_equal(stmt.to_excellon(FileSettings()), 'G00')
+    assert stmt.to_excellon(FileSettings()) == "G00"
 
 
 def test_linearmode_stmt():
     stmt = LinearModeStmt()
-    assert_equal(stmt.to_excellon(FileSettings()), 'G01')
+    assert stmt.to_excellon(FileSettings()) == "G01"
 
 
 def test_drillmode_stmt():
     stmt = DrillModeStmt()
-    assert_equal(stmt.to_excellon(FileSettings()), 'G05')
+    assert stmt.to_excellon(FileSettings()) == "G05"
 
 
 def test_absolutemode_stmt():
     stmt = AbsoluteModeStmt()
-    assert_equal(stmt.to_excellon(FileSettings()), 'G90')
+    assert stmt.to_excellon(FileSettings()) == "G90"
 
 
 def test_unknownstmt():
-    stmt = UnknownStmt('TEST')
-    assert_equal(stmt.stmt, 'TEST')
-    assert_equal(str(stmt), '<Unknown Statement: TEST>')
+    stmt = UnknownStmt("TEST")
+    assert stmt.stmt == "TEST"
+    assert str(stmt) == "<Unknown Statement: TEST>"
 
 
 def test_unknownstmt_dump():
-    stmt = UnknownStmt('TEST')
-    assert_equal(stmt.to_excellon(FileSettings()), 'TEST')
+    stmt = UnknownStmt("TEST")
+    assert stmt.to_excellon(FileSettings()) == "TEST"
diff --git a/gerber/tests/test_gerber_statements.py b/gerber/tests/test_gerber_statements.py
index 15f35a1..140cbd1 100644
--- a/gerber/tests/test_gerber_statements.py
+++ b/gerber/tests/test_gerber_statements.py
@@ -3,414 +3,413 @@
 
 # Author: Hamilton Kibbe <ham@hamiltonkib.be>
 
-from .tests import *
+import pytest
 from ..gerber_statements import *
 from ..cam import FileSettings
 
 
 def test_Statement_smoketest():
-    stmt = Statement('Test')
-    assert_equal(stmt.type, 'Test')
+    stmt = Statement("Test")
+    assert stmt.type == "Test"
     stmt.to_metric()
-    assert_in('units=metric', str(stmt))
+    assert "units=metric" in str(stmt)
     stmt.to_inch()
-    assert_in('units=inch', str(stmt))
+    assert "units=inch" in str(stmt)
     stmt.to_metric()
     stmt.offset(1, 1)
-    assert_in('type=Test', str(stmt))
+    assert "type=Test" in str(stmt)
 
 
 def test_FSParamStmt_factory():
     """ Test FSParamStruct factory
     """
-    stmt = {'param': 'FS', 'zero': 'L', 'notation': 'A', 'x': '27'}
+    stmt = {"param": "FS", "zero": "L", "notation": "A", "x": "27"}
     fs = FSParamStmt.from_dict(stmt)
-    assert_equal(fs.param, 'FS')
-    assert_equal(fs.zero_suppression, 'leading')
-    assert_equal(fs.notation, 'absolute')
-    assert_equal(fs.format, (2, 7))
+    assert fs.param == "FS"
+    assert fs.zero_suppression == "leading"
+    assert fs.notation == "absolute"
+    assert fs.format == (2, 7)
 
-    stmt = {'param': 'FS', 'zero': 'T', 'notation': 'I', 'x': '27'}
+    stmt = {"param": "FS", "zero": "T", "notation": "I", "x": "27"}
     fs = FSParamStmt.from_dict(stmt)
-    assert_equal(fs.param, 'FS')
-    assert_equal(fs.zero_suppression, 'trailing')
-    assert_equal(fs.notation, 'incremental')
-    assert_equal(fs.format, (2, 7))
+    assert fs.param == "FS"
+    assert fs.zero_suppression == "trailing"
+    assert fs.notation == "incremental"
+    assert fs.format == (2, 7)
 
 
 def test_FSParamStmt():
     """ Test FSParamStmt initialization
     """
-    param = 'FS'
-    zeros = 'trailing'
-    notation = 'absolute'
+    param = "FS"
+    zeros = "trailing"
+    notation = "absolute"
     fmt = (2, 5)
     stmt = FSParamStmt(param, zeros, notation, fmt)
-    assert_equal(stmt.param, param)
-    assert_equal(stmt.zero_suppression, zeros)
-    assert_equal(stmt.notation, notation)
-    assert_equal(stmt.format, fmt)
+    assert stmt.param == param
+    assert stmt.zero_suppression == zeros
+    assert stmt.notation == notation
+    assert stmt.format == fmt
 
 
 def test_FSParamStmt_dump():
     """ Test FSParamStmt to_gerber()
     """
-    stmt = {'param': 'FS', 'zero': 'L', 'notation': 'A', 'x': '27'}
+    stmt = {"param": "FS", "zero": "L", "notation": "A", "x": "27"}
     fs = FSParamStmt.from_dict(stmt)
-    assert_equal(fs.to_gerber(), '%FSLAX27Y27*%')
+    assert fs.to_gerber() == "%FSLAX27Y27*%"
 
-    stmt = {'param': 'FS', 'zero': 'T', 'notation': 'I', 'x': '25'}
+    stmt = {"param": "FS", "zero": "T", "notation": "I", "x": "25"}
     fs = FSParamStmt.from_dict(stmt)
-    assert_equal(fs.to_gerber(), '%FSTIX25Y25*%')
+    assert fs.to_gerber() == "%FSTIX25Y25*%"
 
-    settings = FileSettings(zero_suppression='leading', notation='absolute')
-    assert_equal(fs.to_gerber(settings), '%FSLAX25Y25*%')
+    settings = FileSettings(zero_suppression="leading", notation="absolute")
+    assert fs.to_gerber(settings) == "%FSLAX25Y25*%"
 
 
 def test_FSParamStmt_string():
     """ Test FSParamStmt.__str__()
     """
-    stmt = {'param': 'FS', 'zero': 'L', 'notation': 'A', 'x': '27'}
+    stmt = {"param": "FS", "zero": "L", "notation": "A", "x": "27"}
     fs = FSParamStmt.from_dict(stmt)
-    assert_equal(str(fs),
-                 '<Format Spec: 2:7 leading zero suppression absolute notation>')
+    assert str(fs) == "<Format Spec: 2:7 leading zero suppression absolute notation>"
 
-    stmt = {'param': 'FS', 'zero': 'T', 'notation': 'I', 'x': '25'}
+    stmt = {"param": "FS", "zero": "T", "notation": "I", "x": "25"}
     fs = FSParamStmt.from_dict(stmt)
-    assert_equal(str(fs),
-                 '<Format Spec: 2:5 trailing zero suppression incremental notation>')
+    assert (
+        str(fs) == "<Format Spec: 2:5 trailing zero suppression incremental notation>"
+    )
 
 
 def test_MOParamStmt_factory():
     """ Test MOParamStruct factory
     """
-    stmts = [{'param': 'MO', 'mo': 'IN'}, {'param': 'MO', 'mo': 'in'}, ]
+    stmts = [{"param": "MO", "mo": "IN"}, {"param": "MO", "mo": "in"}]
     for stmt in stmts:
         mo = MOParamStmt.from_dict(stmt)
-        assert_equal(mo.param, 'MO')
-        assert_equal(mo.mode, 'inch')
+        assert mo.param == "MO"
+        assert mo.mode == "inch"
 
-    stmts = [{'param': 'MO', 'mo': 'MM'}, {'param': 'MO', 'mo': 'mm'}, ]
+    stmts = [{"param": "MO", "mo": "MM"}, {"param": "MO", "mo": "mm"}]
     for stmt in stmts:
         mo = MOParamStmt.from_dict(stmt)
-        assert_equal(mo.param, 'MO')
-        assert_equal(mo.mode, 'metric')
+        assert mo.param == "MO"
+        assert mo.mode == "metric"
 
-    stmt = {'param': 'MO'}
+    stmt = {"param": "MO"}
     mo = MOParamStmt.from_dict(stmt)
-    assert_equal(mo.mode, None)
-    stmt = {'param': 'MO', 'mo': 'degrees kelvin'}
-    assert_raises(ValueError, MOParamStmt.from_dict, stmt)
+    assert mo.mode == None
+    stmt = {"param": "MO", "mo": "degrees kelvin"}
+    pytest.raises(ValueError, MOParamStmt.from_dict, stmt)
 
 
 def test_MOParamStmt():
     """ Test MOParamStmt initialization
     """
-    param = 'MO'
-    mode = 'inch'
+    param = "MO"
+    mode = "inch"
     stmt = MOParamStmt(param, mode)
-    assert_equal(stmt.param, param)
+    assert stmt.param == param
 
-    for mode in ['inch', 'metric']:
+    for mode in ["inch", "metric"]:
         stmt = MOParamStmt(param, mode)
-        assert_equal(stmt.mode, mode)
+        assert stmt.mode == mode
 
 
 def test_MOParamStmt_dump():
     """ Test MOParamStmt to_gerber()
     """
-    stmt = {'param': 'MO', 'mo': 'IN'}
+    stmt = {"param": "MO", "mo": "IN"}
     mo = MOParamStmt.from_dict(stmt)
-    assert_equal(mo.to_gerber(), '%MOIN*%')
+    assert mo.to_gerber() == "%MOIN*%"
 
-    stmt = {'param': 'MO', 'mo': 'MM'}
+    stmt = {"param": "MO", "mo": "MM"}
     mo = MOParamStmt.from_dict(stmt)
-    assert_equal(mo.to_gerber(), '%MOMM*%')
+    assert mo.to_gerber() == "%MOMM*%"
 
 
 def test_MOParamStmt_conversion():
-    stmt = {'param': 'MO', 'mo': 'MM'}
+    stmt = {"param": "MO", "mo": "MM"}
     mo = MOParamStmt.from_dict(stmt)
     mo.to_inch()
-    assert_equal(mo.mode, 'inch')
+    assert mo.mode == "inch"
 
-    stmt = {'param': 'MO', 'mo': 'IN'}
+    stmt = {"param": "MO", "mo": "IN"}
     mo = MOParamStmt.from_dict(stmt)
     mo.to_metric()
-    assert_equal(mo.mode, 'metric')
+    assert mo.mode == "metric"
 
 
 def test_MOParamStmt_string():
     """ Test MOParamStmt.__str__()
     """
-    stmt = {'param': 'MO', 'mo': 'IN'}
+    stmt = {"param": "MO", "mo": "IN"}
     mo = MOParamStmt.from_dict(stmt)
-    assert_equal(str(mo), '<Mode: inches>')
+    assert str(mo) == "<Mode: inches>"
 
-    stmt = {'param': 'MO', 'mo': 'MM'}
+    stmt = {"param": "MO", "mo": "MM"}
     mo = MOParamStmt.from_dict(stmt)
-    assert_equal(str(mo), '<Mode: millimeters>')
+    assert str(mo) == "<Mode: millimeters>"
 
 
 def test_IPParamStmt_factory():
     """ Test IPParamStruct factory
     """
-    stmt = {'param': 'IP', 'ip': 'POS'}
+    stmt = {"param": "IP", "ip": "POS"}
     ip = IPParamStmt.from_dict(stmt)
-    assert_equal(ip.ip, 'positive')
+    assert ip.ip == "positive"
 
-    stmt = {'param': 'IP', 'ip': 'NEG'}
+    stmt = {"param": "IP", "ip": "NEG"}
     ip = IPParamStmt.from_dict(stmt)
-    assert_equal(ip.ip, 'negative')
+    assert ip.ip == "negative"
 
 
 def test_IPParamStmt():
     """ Test IPParamStmt initialization
     """
-    param = 'IP'
-    for ip in ['positive', 'negative']:
+    param = "IP"
+    for ip in ["positive", "negative"]:
         stmt = IPParamStmt(param, ip)
-        assert_equal(stmt.param, param)
-        assert_equal(stmt.ip, ip)
+        assert stmt.param == param
+        assert stmt.ip == ip
 
 
 def test_IPParamStmt_dump():
     """ Test IPParamStmt to_gerber()
     """
-    stmt = {'param': 'IP', 'ip': 'POS'}
+    stmt = {"param": "IP", "ip": "POS"}
     ip = IPParamStmt.from_dict(stmt)
-    assert_equal(ip.to_gerber(), '%IPPOS*%')
+    assert ip.to_gerber() == "%IPPOS*%"
 
-    stmt = {'param': 'IP', 'ip': 'NEG'}
+    stmt = {"param": "IP", "ip": "NEG"}
     ip = IPParamStmt.from_dict(stmt)
-    assert_equal(ip.to_gerber(), '%IPNEG*%')
+    assert ip.to_gerber() == "%IPNEG*%"
 
 
 def test_IPParamStmt_string():
-    stmt = {'param': 'IP', 'ip': 'POS'}
+    stmt = {"param": "IP", "ip": "POS"}
     ip = IPParamStmt.from_dict(stmt)
-    assert_equal(str(ip), '<Image Polarity: positive>')
+    assert str(ip) == "<Image Polarity: positive>"
 
-    stmt = {'param': 'IP', 'ip': 'NEG'}
+    stmt = {"param": "IP", "ip": "NEG"}
     ip = IPParamStmt.from_dict(stmt)
-    assert_equal(str(ip), '<Image Polarity: negative>')
+    assert str(ip) == "<Image Polarity: negative>"
 
 
 def test_IRParamStmt_factory():
-    stmt = {'param': 'IR', 'angle': '45'}
+    stmt = {"param": "IR", "angle": "45"}
     ir = IRParamStmt.from_dict(stmt)
-    assert_equal(ir.param, 'IR')
-    assert_equal(ir.angle, 45)
+    assert ir.param == "IR"
+    assert ir.angle == 45
 
 
 def test_IRParamStmt_dump():
-    stmt = {'param': 'IR', 'angle': '45'}
+    stmt = {"param": "IR", "angle": "45"}
     ir = IRParamStmt.from_dict(stmt)
-    assert_equal(ir.to_gerber(), '%IR45*%')
+    assert ir.to_gerber() == "%IR45*%"
 
 
 def test_IRParamStmt_string():
-    stmt = {'param': 'IR', 'angle': '45'}
+    stmt = {"param": "IR", "angle": "45"}
     ir = IRParamStmt.from_dict(stmt)
-    assert_equal(str(ir), '<Image Angle: 45>')
+    assert str(ir) == "<Image Angle: 45>"
 
 
 def test_OFParamStmt_factory():
     """ Test OFParamStmt factory
     """
-    stmt = {'param': 'OF', 'a': '0.1234567', 'b': '0.1234567'}
+    stmt = {"param": "OF", "a": "0.1234567", "b": "0.1234567"}
     of = OFParamStmt.from_dict(stmt)
-    assert_equal(of.a, 0.1234567)
-    assert_equal(of.b, 0.1234567)
+    assert of.a == 0.1234567
+    assert of.b == 0.1234567
 
 
 def test_OFParamStmt():
     """ Test IPParamStmt initialization
     """
-    param = 'OF'
+    param = "OF"
     for val in [0.0, -3.4567]:
         stmt = OFParamStmt(param, val, val)
-        assert_equal(stmt.param, param)
-        assert_equal(stmt.a, val)
-        assert_equal(stmt.b, val)
+        assert stmt.param == param
+        assert stmt.a == val
+        assert stmt.b == val
 
 
 def test_OFParamStmt_dump():
     """ Test OFParamStmt to_gerber()
     """
-    stmt = {'param': 'OF', 'a': '0.123456', 'b': '0.123456'}
+    stmt = {"param": "OF", "a": "0.123456", "b": "0.123456"}
     of = OFParamStmt.from_dict(stmt)
-    assert_equal(of.to_gerber(), '%OFA0.12345B0.12345*%')
+    assert of.to_gerber() == "%OFA0.12345B0.12345*%"
 
 
 def test_OFParamStmt_conversion():
-    stmt = {'param': 'OF', 'a': '2.54', 'b': '25.4'}
+    stmt = {"param": "OF", "a": "2.54", "b": "25.4"}
     of = OFParamStmt.from_dict(stmt)
-    of.units = 'metric'
+    of.units = "metric"
 
     # No effect
     of.to_metric()
-    assert_equal(of.a, 2.54)
-    assert_equal(of.b, 25.4)
+    assert of.a == 2.54
+    assert of.b == 25.4
 
     of.to_inch()
-    assert_equal(of.units, 'inch')
-    assert_equal(of.a, 0.1)
-    assert_equal(of.b, 1.0)
+    assert of.units == "inch"
+    assert of.a == 0.1
+    assert of.b == 1.0
 
     # No effect
     of.to_inch()
-    assert_equal(of.a, 0.1)
-    assert_equal(of.b, 1.0)
+    assert of.a == 0.1
+    assert of.b == 1.0
 
-    stmt = {'param': 'OF', 'a': '0.1', 'b': '1.0'}
+    stmt = {"param": "OF", "a": "0.1", "b": "1.0"}
     of = OFParamStmt.from_dict(stmt)
-    of.units = 'inch'
+    of.units = "inch"
 
     # No effect
     of.to_inch()
-    assert_equal(of.a, 0.1)
-    assert_equal(of.b, 1.0)
+    assert of.a == 0.1
+    assert of.b == 1.0
 
     of.to_metric()
-    assert_equal(of.units, 'metric')
-    assert_equal(of.a, 2.54)
-    assert_equal(of.b, 25.4)
+    assert of.units == "metric"
+    assert of.a == 2.54
+    assert of.b == 25.4
 
     # No effect
     of.to_metric()
-    assert_equal(of.a, 2.54)
-    assert_equal(of.b, 25.4)
+    assert of.a == 2.54
+    assert of.b == 25.4
 
 
 def test_OFParamStmt_offset():
-    s = OFParamStmt('OF', 0, 0)
+    s = OFParamStmt("OF", 0, 0)
     s.offset(1, 0)
-    assert_equal(s.a, 1.)
-    assert_equal(s.b, 0.)
+    assert s.a == 1.0
+    assert s.b == 0.0
     s.offset(0, 1)
-    assert_equal(s.a, 1.)
-    assert_equal(s.b, 1.)
+    assert s.a == 1.0
+    assert s.b == 1.0
 
 
 def test_OFParamStmt_string():
     """ Test OFParamStmt __str__
     """
-    stmt = {'param': 'OF', 'a': '0.123456', 'b': '0.123456'}
+    stmt = {"param": "OF", "a": "0.123456", "b": "0.123456"}
     of = OFParamStmt.from_dict(stmt)
-    assert_equal(str(of), '<Offset: X: 0.123456 Y: 0.123456 >')
+    assert str(of) == "<Offset: X: 0.123456 Y: 0.123456 >"
 
 
 def test_SFParamStmt_factory():
-    stmt = {'param': 'SF', 'a': '1.4', 'b': '0.9'}
+    stmt = {"param": "SF", "a": "1.4", "b": "0.9"}
     sf = SFParamStmt.from_dict(stmt)
-    assert_equal(sf.param, 'SF')
-    assert_equal(sf.a, 1.4)
-    assert_equal(sf.b, 0.9)
+    assert sf.param == "SF"
+    assert sf.a == 1.4
+    assert sf.b == 0.9
 
 
 def test_SFParamStmt_dump():
-    stmt = {'param': 'SF', 'a': '1.4', 'b': '0.9'}
+    stmt = {"param": "SF", "a": "1.4", "b": "0.9"}
     sf = SFParamStmt.from_dict(stmt)
-    assert_equal(sf.to_gerber(), '%SFA1.4B0.9*%')
+    assert sf.to_gerber() == "%SFA1.4B0.9*%"
 
 
 def test_SFParamStmt_conversion():
-    stmt = {'param': 'OF', 'a': '2.54', 'b': '25.4'}
+    stmt = {"param": "OF", "a": "2.54", "b": "25.4"}
     of = SFParamStmt.from_dict(stmt)
-    of.units = 'metric'
+    of.units = "metric"
     of.to_metric()
 
     # No effect
-    assert_equal(of.a, 2.54)
-    assert_equal(of.b, 25.4)
+    assert of.a == 2.54
+    assert of.b == 25.4
 
     of.to_inch()
-    assert_equal(of.units, 'inch')
-    assert_equal(of.a, 0.1)
-    assert_equal(of.b, 1.0)
+    assert of.units == "inch"
+    assert of.a == 0.1
+    assert of.b == 1.0
 
     # No effect
     of.to_inch()
-    assert_equal(of.a, 0.1)
-    assert_equal(of.b, 1.0)
+    assert of.a == 0.1
+    assert of.b == 1.0
 
-    stmt = {'param': 'OF', 'a': '0.1', 'b': '1.0'}
+    stmt = {"param": "OF", "a": "0.1", "b": "1.0"}
     of = SFParamStmt.from_dict(stmt)
-    of.units = 'inch'
+    of.units = "inch"
 
     # No effect
     of.to_inch()
-    assert_equal(of.a, 0.1)
-    assert_equal(of.b, 1.0)
+    assert of.a == 0.1
+    assert of.b == 1.0
 
     of.to_metric()
-    assert_equal(of.units, 'metric')
-    assert_equal(of.a, 2.54)
-    assert_equal(of.b, 25.4)
+    assert of.units == "metric"
+    assert of.a == 2.54
+    assert of.b == 25.4
 
     # No effect
     of.to_metric()
-    assert_equal(of.a, 2.54)
-    assert_equal(of.b, 25.4)
+    assert of.a == 2.54
+    assert of.b == 25.4
 
 
 def test_SFParamStmt_offset():
-    s = SFParamStmt('OF', 0, 0)
+    s = SFParamStmt("OF", 0, 0)
     s.offset(1, 0)
-    assert_equal(s.a, 1.)
-    assert_equal(s.b, 0.)
+    assert s.a == 1.0
+    assert s.b == 0.0
     s.offset(0, 1)
-    assert_equal(s.a, 1.)
-    assert_equal(s.b, 1.)
+    assert s.a == 1.0
+    assert s.b == 1.0
 
 
 def test_SFParamStmt_string():
-    stmt = {'param': 'SF', 'a': '1.4', 'b': '0.9'}
+    stmt = {"param": "SF", "a": "1.4", "b": "0.9"}
     sf = SFParamStmt.from_dict(stmt)
-    assert_equal(str(sf), '<Scale Factor: X: 1.4 Y: 0.9>')
+    assert str(sf) == "<Scale Factor: X: 1.4 Y: 0.9>"
 
 
 def test_LPParamStmt_factory():
     """ Test LPParamStmt factory
     """
-    stmt = {'param': 'LP', 'lp': 'C'}
+    stmt = {"param": "LP", "lp": "C"}
     lp = LPParamStmt.from_dict(stmt)
-    assert_equal(lp.lp, 'clear')
+    assert lp.lp == "clear"
 
-    stmt = {'param': 'LP', 'lp': 'D'}
+    stmt = {"param": "LP", "lp": "D"}
     lp = LPParamStmt.from_dict(stmt)
-    assert_equal(lp.lp, 'dark')
+    assert lp.lp == "dark"
 
 
 def test_LPParamStmt_dump():
     """ Test LPParamStmt to_gerber()
     """
-    stmt = {'param': 'LP', 'lp': 'C'}
+    stmt = {"param": "LP", "lp": "C"}
     lp = LPParamStmt.from_dict(stmt)
-    assert_equal(lp.to_gerber(), '%LPC*%')
+    assert lp.to_gerber() == "%LPC*%"
 
-    stmt = {'param': 'LP', 'lp': 'D'}
+    stmt = {"param": "LP", "lp": "D"}
     lp = LPParamStmt.from_dict(stmt)
-    assert_equal(lp.to_gerber(), '%LPD*%')
+    assert lp.to_gerber() == "%LPD*%"
 
 
 def test_LPParamStmt_string():
     """ Test LPParamStmt.__str__()
     """
-    stmt = {'param': 'LP', 'lp': 'D'}
+    stmt = {"param": "LP", "lp": "D"}
     lp = LPParamStmt.from_dict(stmt)
-    assert_equal(str(lp), '<Level Polarity: dark>')
+    assert str(lp) == "<Level Polarity: dark>"
 
-    stmt = {'param': 'LP', 'lp': 'C'}
+    stmt = {"param": "LP", "lp": "C"}
     lp = LPParamStmt.from_dict(stmt)
-    assert_equal(str(lp), '<Level Polarity: clear>')
+    assert str(lp) == "<Level Polarity: clear>"
 
 
 def test_AMParamStmt_factory():
-    name = 'DONUTVAR'
-    macro = (
-'''0 Test Macro. *
+    name = "DONUTVAR"
+    macro = """0 Test Macro. *
 1,1,1.5,0,0*
 20,1,0.9,0,0.45,12,0.45,0*
 21,1,6.8,1.2,3.4,0.6,0*
@@ -420,533 +419,541 @@ def test_AMParamStmt_factory():
 6,0,0,5,0.5,0.5,2,0.1,6,0*
 7,0,0,7,6,0.2,0*
 8,THIS IS AN UNSUPPORTED PRIMITIVE*
-''')
-    s = AMParamStmt.from_dict({'param': 'AM', 'name': name, 'macro': macro})
+"""
+    s = AMParamStmt.from_dict({"param": "AM", "name": name, "macro": macro})
     s.build()
-    assert_equal(len(s.primitives), 10)
-    assert_true(isinstance(s.primitives[0], AMCommentPrimitive))
-    assert_true(isinstance(s.primitives[1], AMCirclePrimitive))
-    assert_true(isinstance(s.primitives[2], AMVectorLinePrimitive))
-    assert_true(isinstance(s.primitives[3], AMCenterLinePrimitive))
-    assert_true(isinstance(s.primitives[4], AMLowerLeftLinePrimitive))
-    assert_true(isinstance(s.primitives[5], AMOutlinePrimitive))
-    assert_true(isinstance(s.primitives[6], AMPolygonPrimitive))
-    assert_true(isinstance(s.primitives[7], AMMoirePrimitive))
-    assert_true(isinstance(s.primitives[8], AMThermalPrimitive))
-    assert_true(isinstance(s.primitives[9], AMUnsupportPrimitive))
+    assert len(s.primitives) == 10
+    assert isinstance(s.primitives[0], AMCommentPrimitive)
+    assert isinstance(s.primitives[1], AMCirclePrimitive)
+    assert isinstance(s.primitives[2], AMVectorLinePrimitive)
+    assert isinstance(s.primitives[3], AMCenterLinePrimitive)
+    assert isinstance(s.primitives[4], AMLowerLeftLinePrimitive)
+    assert isinstance(s.primitives[5], AMOutlinePrimitive)
+    assert isinstance(s.primitives[6], AMPolygonPrimitive)
+    assert isinstance(s.primitives[7], AMMoirePrimitive)
+    assert isinstance(s.primitives[8], AMThermalPrimitive)
+    assert isinstance(s.primitives[9], AMUnsupportPrimitive)
 
 
 def testAMParamStmt_conversion():
-    name = 'POLYGON'
-    macro = '5,1,8,25.4,25.4,25.4,0*'
-    s = AMParamStmt.from_dict({'param': 'AM', 'name': name, 'macro': macro})
+    name = "POLYGON"
+    macro = "5,1,8,25.4,25.4,25.4,0*"
+    s = AMParamStmt.from_dict({"param": "AM", "name": name, "macro": macro})
 
     s.build()
-    s.units = 'metric'
+    s.units = "metric"
 
     # No effect
     s.to_metric()
-    assert_equal(s.primitives[0].position, (25.4, 25.4))
-    assert_equal(s.primitives[0].diameter, 25.4)
+    assert s.primitives[0].position == (25.4, 25.4)
+    assert s.primitives[0].diameter == 25.4
 
     s.to_inch()
-    assert_equal(s.units, 'inch')
-    assert_equal(s.primitives[0].position, (1., 1.))
-    assert_equal(s.primitives[0].diameter, 1.)
+    assert s.units == "inch"
+    assert s.primitives[0].position == (1.0, 1.0)
+    assert s.primitives[0].diameter == 1.0
 
     # No effect
     s.to_inch()
-    assert_equal(s.primitives[0].position, (1., 1.))
-    assert_equal(s.primitives[0].diameter, 1.)
+    assert s.primitives[0].position == (1.0, 1.0)
+    assert s.primitives[0].diameter == 1.0
 
-    macro = '5,1,8,1,1,1,0*'
-    s = AMParamStmt.from_dict({'param': 'AM', 'name': name, 'macro': macro})
+    macro = "5,1,8,1,1,1,0*"
+    s = AMParamStmt.from_dict({"param": "AM", "name": name, "macro": macro})
     s.build()
-    s.units = 'inch'
+    s.units = "inch"
 
     # No effect
     s.to_inch()
-    assert_equal(s.primitives[0].position, (1., 1.))
-    assert_equal(s.primitives[0].diameter, 1.)
+    assert s.primitives[0].position == (1.0, 1.0)
+    assert s.primitives[0].diameter == 1.0
 
     s.to_metric()
-    assert_equal(s.units, 'metric')
-    assert_equal(s.primitives[0].position, (25.4, 25.4))
-    assert_equal(s.primitives[0].diameter, 25.4)
+    assert s.units == "metric"
+    assert s.primitives[0].position == (25.4, 25.4)
+    assert s.primitives[0].diameter == 25.4
 
     # No effect
     s.to_metric()
-    assert_equal(s.primitives[0].position, (25.4, 25.4))
-    assert_equal(s.primitives[0].diameter, 25.4)
+    assert s.primitives[0].position == (25.4, 25.4)
+    assert s.primitives[0].diameter == 25.4
 
 
 def test_AMParamStmt_dump():
-    name = 'POLYGON'
-    macro = '5,1,8,25.4,25.4,25.4,0.0'
-    s = AMParamStmt.from_dict({'param': 'AM', 'name': name, 'macro': macro})
+    name = "POLYGON"
+    macro = "5,1,8,25.4,25.4,25.4,0.0"
+    s = AMParamStmt.from_dict({"param": "AM", "name": name, "macro": macro})
     s.build()
-    assert_equal(s.to_gerber(), '%AMPOLYGON*5,1,8,25.4,25.4,25.4,0.0*%')
+    assert s.to_gerber() == "%AMPOLYGON*5,1,8,25.4,25.4,25.4,0.0*%"
 
-    #TODO - Store Equations and update on unit change...
-    s = AMParamStmt.from_dict({'param': 'AM', 'name': 'OC8', 'macro': '5,1,8,0,0,1.08239X$1,22.5'})
+    # TODO - Store Equations and update on unit change...
+    s = AMParamStmt.from_dict(
+        {"param": "AM", "name": "OC8", "macro": "5,1,8,0,0,1.08239X$1,22.5"}
+    )
     s.build()
-    #assert_equal(s.to_gerber(), '%AMOC8*5,1,8,0,0,1.08239X$1,22.5*%')
-    assert_equal(s.to_gerber(), '%AMOC8*5,1,8,0,0,0,22.5*%')
+    # assert_equal(s.to_gerber(), '%AMOC8*5,1,8,0,0,1.08239X$1,22.5*%')
+    assert s.to_gerber() == "%AMOC8*5,1,8,0,0,0,22.5*%"
 
 
 def test_AMParamStmt_string():
-    name = 'POLYGON'
-    macro = '5,1,8,25.4,25.4,25.4,0*'
-    s = AMParamStmt.from_dict({'param': 'AM', 'name': name, 'macro': macro})
+    name = "POLYGON"
+    macro = "5,1,8,25.4,25.4,25.4,0*"
+    s = AMParamStmt.from_dict({"param": "AM", "name": name, "macro": macro})
     s.build()
-    assert_equal(str(s), '<Aperture Macro POLYGON: 5,1,8,25.4,25.4,25.4,0*>')
+    assert str(s) == "<Aperture Macro POLYGON: 5,1,8,25.4,25.4,25.4,0*>"
 
 
 def test_ASParamStmt_factory():
-    stmt = {'param': 'AS', 'mode': 'AXBY'}
+    stmt = {"param": "AS", "mode": "AXBY"}
     s = ASParamStmt.from_dict(stmt)
-    assert_equal(s.param, 'AS')
-    assert_equal(s.mode, 'AXBY')
+    assert s.param == "AS"
+    assert s.mode == "AXBY"
 
 
 def test_ASParamStmt_dump():
-    stmt = {'param': 'AS', 'mode': 'AXBY'}
+    stmt = {"param": "AS", "mode": "AXBY"}
     s = ASParamStmt.from_dict(stmt)
-    assert_equal(s.to_gerber(), '%ASAXBY*%')
+    assert s.to_gerber() == "%ASAXBY*%"
 
 
 def test_ASParamStmt_string():
-    stmt = {'param': 'AS', 'mode': 'AXBY'}
+    stmt = {"param": "AS", "mode": "AXBY"}
     s = ASParamStmt.from_dict(stmt)
-    assert_equal(str(s), '<Axis Select: AXBY>')
+    assert str(s) == "<Axis Select: AXBY>"
 
 
 def test_INParamStmt_factory():
     """ Test INParamStmt factory
     """
-    stmt = {'param': 'IN', 'name': 'test'}
+    stmt = {"param": "IN", "name": "test"}
     inp = INParamStmt.from_dict(stmt)
-    assert_equal(inp.name, 'test')
+    assert inp.name == "test"
 
 
 def test_INParamStmt_dump():
     """ Test INParamStmt to_gerber()
     """
-    stmt = {'param': 'IN', 'name': 'test'}
+    stmt = {"param": "IN", "name": "test"}
     inp = INParamStmt.from_dict(stmt)
-    assert_equal(inp.to_gerber(), '%INtest*%')
+    assert inp.to_gerber() == "%INtest*%"
 
 
 def test_INParamStmt_string():
-    stmt = {'param': 'IN', 'name': 'test'}
+    stmt = {"param": "IN", "name": "test"}
     inp = INParamStmt.from_dict(stmt)
-    assert_equal(str(inp), '<Image Name: test>')
+    assert str(inp) == "<Image Name: test>"
 
 
 def test_LNParamStmt_factory():
     """ Test LNParamStmt factory
     """
-    stmt = {'param': 'LN', 'name': 'test'}
+    stmt = {"param": "LN", "name": "test"}
     lnp = LNParamStmt.from_dict(stmt)
-    assert_equal(lnp.name, 'test')
+    assert lnp.name == "test"
 
 
 def test_LNParamStmt_dump():
     """ Test LNParamStmt to_gerber()
     """
-    stmt = {'param': 'LN', 'name': 'test'}
+    stmt = {"param": "LN", "name": "test"}
     lnp = LNParamStmt.from_dict(stmt)
-    assert_equal(lnp.to_gerber(), '%LNtest*%')
+    assert lnp.to_gerber() == "%LNtest*%"
 
 
 def test_LNParamStmt_string():
-    stmt = {'param': 'LN', 'name': 'test'}
+    stmt = {"param": "LN", "name": "test"}
     lnp = LNParamStmt.from_dict(stmt)
-    assert_equal(str(lnp), '<Level Name: test>')
+    assert str(lnp) == "<Level Name: test>"
 
 
 def test_comment_stmt():
     """ Test comment statement
     """
-    stmt = CommentStmt('A comment')
-    assert_equal(stmt.type, 'COMMENT')
-    assert_equal(stmt.comment, 'A comment')
+    stmt = CommentStmt("A comment")
+    assert stmt.type == "COMMENT"
+    assert stmt.comment == "A comment"
 
 
 def test_comment_stmt_dump():
     """ Test CommentStmt to_gerber()
     """
-    stmt = CommentStmt('A comment')
-    assert_equal(stmt.to_gerber(), 'G04A comment*')
+    stmt = CommentStmt("A comment")
+    assert stmt.to_gerber() == "G04A comment*"
 
 
 def test_comment_stmt_string():
-    stmt = CommentStmt('A comment')
-    assert_equal(str(stmt), '<Comment: A comment>')
+    stmt = CommentStmt("A comment")
+    assert str(stmt) == "<Comment: A comment>"
 
 
 def test_eofstmt():
     """ Test EofStmt
     """
     stmt = EofStmt()
-    assert_equal(stmt.type, 'EOF')
+    assert stmt.type == "EOF"
 
 
 def test_eofstmt_dump():
     """ Test EofStmt to_gerber()
     """
     stmt = EofStmt()
-    assert_equal(stmt.to_gerber(), 'M02*')
+    assert stmt.to_gerber() == "M02*"
 
 
 def test_eofstmt_string():
-    assert_equal(str(EofStmt()), '<EOF Statement>')
+    assert str(EofStmt()) == "<EOF Statement>"
 
 
 def test_quadmodestmt_factory():
     """ Test QuadrantModeStmt.from_gerber()
     """
-    line = 'G74*'
+    line = "G74*"
     stmt = QuadrantModeStmt.from_gerber(line)
-    assert_equal(stmt.type, 'QuadrantMode')
-    assert_equal(stmt.mode, 'single-quadrant')
+    assert stmt.type == "QuadrantMode"
+    assert stmt.mode == "single-quadrant"
 
-    line = 'G75*'
+    line = "G75*"
     stmt = QuadrantModeStmt.from_gerber(line)
-    assert_equal(stmt.mode, 'multi-quadrant')
+    assert stmt.mode == "multi-quadrant"
 
 
 def test_quadmodestmt_validation():
     """ Test QuadrantModeStmt input validation
     """
-    line = 'G76*'
-    assert_raises(ValueError, QuadrantModeStmt.from_gerber, line)
-    assert_raises(ValueError, QuadrantModeStmt, 'quadrant-ful')
+    line = "G76*"
+    pytest.raises(ValueError, QuadrantModeStmt.from_gerber, line)
+    pytest.raises(ValueError, QuadrantModeStmt, "quadrant-ful")
 
 
 def test_quadmodestmt_dump():
     """ Test QuadrantModeStmt.to_gerber()
     """
-    for line in ('G74*', 'G75*',):
+    for line in ("G74*", "G75*"):
         stmt = QuadrantModeStmt.from_gerber(line)
-        assert_equal(stmt.to_gerber(), line)
+        assert stmt.to_gerber() == line
 
 
 def test_regionmodestmt_factory():
     """ Test RegionModeStmt.from_gerber()
     """
-    line = 'G36*'
+    line = "G36*"
     stmt = RegionModeStmt.from_gerber(line)
-    assert_equal(stmt.type, 'RegionMode')
-    assert_equal(stmt.mode, 'on')
+    assert stmt.type == "RegionMode"
+    assert stmt.mode == "on"
 
-    line = 'G37*'
+    line = "G37*"
     stmt = RegionModeStmt.from_gerber(line)
-    assert_equal(stmt.mode, 'off')
+    assert stmt.mode == "off"
 
 
 def test_regionmodestmt_validation():
     """ Test RegionModeStmt input validation
     """
-    line = 'G38*'
-    assert_raises(ValueError, RegionModeStmt.from_gerber, line)
-    assert_raises(ValueError, RegionModeStmt, 'off-ish')
+    line = "G38*"
+    pytest.raises(ValueError, RegionModeStmt.from_gerber, line)
+    pytest.raises(ValueError, RegionModeStmt, "off-ish")
 
 
 def test_regionmodestmt_dump():
     """ Test RegionModeStmt.to_gerber()
     """
-    for line in ('G36*', 'G37*',):
+    for line in ("G36*", "G37*"):
         stmt = RegionModeStmt.from_gerber(line)
-        assert_equal(stmt.to_gerber(), line)
+        assert stmt.to_gerber() == line
 
 
 def test_unknownstmt():
     """ Test UnknownStmt
     """
-    line = 'G696969*'
+    line = "G696969*"
     stmt = UnknownStmt(line)
-    assert_equal(stmt.type, 'UNKNOWN')
-    assert_equal(stmt.line, line)
+    assert stmt.type == "UNKNOWN"
+    assert stmt.line == line
 
 
 def test_unknownstmt_dump():
     """ Test UnknownStmt.to_gerber()
     """
-    lines = ('G696969*', 'M03*',)
+    lines = ("G696969*", "M03*")
     for line in lines:
         stmt = UnknownStmt(line)
-        assert_equal(stmt.to_gerber(), line)
+        assert stmt.to_gerber() == line
 
 
 def test_statement_string():
     """ Test Statement.__str__()
     """
-    stmt = Statement('PARAM')
-    assert_in('type=PARAM', str(stmt))
-    stmt.test = 'PASS'
-    assert_in('test=PASS', str(stmt))
-    assert_in('type=PARAM', str(stmt))
+    stmt = Statement("PARAM")
+    assert "type=PARAM" in str(stmt)
+    stmt.test = "PASS"
+    assert "test=PASS" in str(stmt)
+    assert "type=PARAM" in str(stmt)
 
 
 def test_ADParamStmt_factory():
     """ Test ADParamStmt factory
     """
-    stmt = {'param': 'AD', 'd': 0, 'shape': 'C'}
+    stmt = {"param": "AD", "d": 0, "shape": "C"}
     ad = ADParamStmt.from_dict(stmt)
-    assert_equal(ad.d, 0)
-    assert_equal(ad.shape, 'C')
+    assert ad.d == 0
+    assert ad.shape == "C"
 
-    stmt = {'param': 'AD', 'd': 1, 'shape': 'R'}
+    stmt = {"param": "AD", "d": 1, "shape": "R"}
     ad = ADParamStmt.from_dict(stmt)
-    assert_equal(ad.d, 1)
-    assert_equal(ad.shape, 'R')
+    assert ad.d == 1
+    assert ad.shape == "R"
 
-    stmt = {'param': 'AD', 'd': 1, 'shape': 'C', "modifiers": "1.42"}
+    stmt = {"param": "AD", "d": 1, "shape": "C", "modifiers": "1.42"}
     ad = ADParamStmt.from_dict(stmt)
-    assert_equal(ad.d, 1)
-    assert_equal(ad.shape, 'C')
-    assert_equal(ad.modifiers, [(1.42,)])
+    assert ad.d == 1
+    assert ad.shape == "C"
+    assert ad.modifiers == [(1.42,)]
 
-    stmt = {'param': 'AD', 'd': 1, 'shape': 'C', "modifiers": "1.42X"}
+    stmt = {"param": "AD", "d": 1, "shape": "C", "modifiers": "1.42X"}
     ad = ADParamStmt.from_dict(stmt)
-    assert_equal(ad.d, 1)
-    assert_equal(ad.shape, 'C')
-    assert_equal(ad.modifiers, [(1.42,)])
+    assert ad.d == 1
+    assert ad.shape == "C"
+    assert ad.modifiers == [(1.42,)]
 
-    stmt = {'param': 'AD', 'd': 1, 'shape': 'R', "modifiers": "1.42X1.24"}
+    stmt = {"param": "AD", "d": 1, "shape": "R", "modifiers": "1.42X1.24"}
     ad = ADParamStmt.from_dict(stmt)
-    assert_equal(ad.d, 1)
-    assert_equal(ad.shape, 'R')
-    assert_equal(ad.modifiers, [(1.42, 1.24)])
+    assert ad.d == 1
+    assert ad.shape == "R"
+    assert ad.modifiers == [(1.42, 1.24)]
 
 
 def test_ADParamStmt_conversion():
-    stmt = {'param': 'AD', 'd': 0, 'shape': 'C',
-            'modifiers': '25.4X25.4,25.4X25.4'}
+    stmt = {"param": "AD", "d": 0, "shape": "C", "modifiers": "25.4X25.4,25.4X25.4"}
     ad = ADParamStmt.from_dict(stmt)
-    ad.units = 'metric'
+    ad.units = "metric"
 
     # No effect
     ad.to_metric()
-    assert_equal(ad.modifiers[0], (25.4, 25.4))
-    assert_equal(ad.modifiers[1], (25.4, 25.4))
+    assert ad.modifiers[0] == (25.4, 25.4)
+    assert ad.modifiers[1] == (25.4, 25.4)
 
     ad.to_inch()
-    assert_equal(ad.units, 'inch')
-    assert_equal(ad.modifiers[0], (1., 1.))
-    assert_equal(ad.modifiers[1], (1., 1.))
+    assert ad.units == "inch"
+    assert ad.modifiers[0] == (1.0, 1.0)
+    assert ad.modifiers[1] == (1.0, 1.0)
 
     # No effect
     ad.to_inch()
-    assert_equal(ad.modifiers[0], (1., 1.))
-    assert_equal(ad.modifiers[1], (1., 1.))
+    assert ad.modifiers[0] == (1.0, 1.0)
+    assert ad.modifiers[1] == (1.0, 1.0)
 
-    stmt = {'param': 'AD', 'd': 0, 'shape': 'C', 'modifiers': '1X1,1X1'}
+    stmt = {"param": "AD", "d": 0, "shape": "C", "modifiers": "1X1,1X1"}
     ad = ADParamStmt.from_dict(stmt)
-    ad.units = 'inch'
+    ad.units = "inch"
 
     # No effect
     ad.to_inch()
-    assert_equal(ad.modifiers[0], (1., 1.))
-    assert_equal(ad.modifiers[1], (1., 1.))
+    assert ad.modifiers[0] == (1.0, 1.0)
+    assert ad.modifiers[1] == (1.0, 1.0)
 
     ad.to_metric()
-    assert_equal(ad.modifiers[0], (25.4, 25.4))
-    assert_equal(ad.modifiers[1], (25.4, 25.4))
+    assert ad.modifiers[0] == (25.4, 25.4)
+    assert ad.modifiers[1] == (25.4, 25.4)
 
     # No effect
     ad.to_metric()
-    assert_equal(ad.modifiers[0], (25.4, 25.4))
-    assert_equal(ad.modifiers[1], (25.4, 25.4))
+    assert ad.modifiers[0] == (25.4, 25.4)
+    assert ad.modifiers[1] == (25.4, 25.4)
 
 
 def test_ADParamStmt_dump():
-    stmt = {'param': 'AD', 'd': 0, 'shape': 'C'}
+    stmt = {"param": "AD", "d": 0, "shape": "C"}
     ad = ADParamStmt.from_dict(stmt)
-    assert_equal(ad.to_gerber(), '%ADD0C*%')
-    stmt = {'param': 'AD', 'd': 0, 'shape': 'C', 'modifiers': '1X1,1X1'}
+    assert ad.to_gerber() == "%ADD0C*%"
+    stmt = {"param": "AD", "d": 0, "shape": "C", "modifiers": "1X1,1X1"}
     ad = ADParamStmt.from_dict(stmt)
-    assert_equal(ad.to_gerber(), '%ADD0C,1X1,1X1*%')
+    assert ad.to_gerber() == "%ADD0C,1X1,1X1*%"
 
 
 def test_ADPamramStmt_string():
-    stmt = {'param': 'AD', 'd': 0, 'shape': 'C'}
+    stmt = {"param": "AD", "d": 0, "shape": "C"}
     ad = ADParamStmt.from_dict(stmt)
-    assert_equal(str(ad), '<Aperture Definition: 0: circle>')
+    assert str(ad) == "<Aperture Definition: 0: circle>"
 
-    stmt = {'param': 'AD', 'd': 0, 'shape': 'R'}
+    stmt = {"param": "AD", "d": 0, "shape": "R"}
     ad = ADParamStmt.from_dict(stmt)
-    assert_equal(str(ad), '<Aperture Definition: 0: rectangle>')
+    assert str(ad) == "<Aperture Definition: 0: rectangle>"
 
-    stmt = {'param': 'AD', 'd': 0, 'shape': 'O'}
+    stmt = {"param": "AD", "d": 0, "shape": "O"}
     ad = ADParamStmt.from_dict(stmt)
-    assert_equal(str(ad), '<Aperture Definition: 0: obround>')
+    assert str(ad) == "<Aperture Definition: 0: obround>"
 
-    stmt = {'param': 'AD', 'd': 0, 'shape': 'test'}
+    stmt = {"param": "AD", "d": 0, "shape": "test"}
     ad = ADParamStmt.from_dict(stmt)
-    assert_equal(str(ad), '<Aperture Definition: 0: test>')
+    assert str(ad) == "<Aperture Definition: 0: test>"
 
 
 def test_MIParamStmt_factory():
-    stmt = {'param': 'MI', 'a': 1, 'b': 1}
+    stmt = {"param": "MI", "a": 1, "b": 1}
     mi = MIParamStmt.from_dict(stmt)
-    assert_equal(mi.a, 1)
-    assert_equal(mi.b, 1)
+    assert mi.a == 1
+    assert mi.b == 1
 
 
 def test_MIParamStmt_dump():
-    stmt = {'param': 'MI', 'a': 1, 'b': 1}
+    stmt = {"param": "MI", "a": 1, "b": 1}
     mi = MIParamStmt.from_dict(stmt)
-    assert_equal(mi.to_gerber(), '%MIA1B1*%')
-    stmt = {'param': 'MI', 'a': 1}
+    assert mi.to_gerber() == "%MIA1B1*%"
+    stmt = {"param": "MI", "a": 1}
     mi = MIParamStmt.from_dict(stmt)
-    assert_equal(mi.to_gerber(), '%MIA1B0*%')
-    stmt = {'param': 'MI', 'b': 1}
+    assert mi.to_gerber() == "%MIA1B0*%"
+    stmt = {"param": "MI", "b": 1}
     mi = MIParamStmt.from_dict(stmt)
-    assert_equal(mi.to_gerber(), '%MIA0B1*%')
+    assert mi.to_gerber() == "%MIA0B1*%"
 
 
 def test_MIParamStmt_string():
-    stmt = {'param': 'MI', 'a': 1, 'b': 1}
+    stmt = {"param": "MI", "a": 1, "b": 1}
     mi = MIParamStmt.from_dict(stmt)
-    assert_equal(str(mi), '<Image Mirror: A=1 B=1>')
+    assert str(mi) == "<Image Mirror: A=1 B=1>"
 
-    stmt = {'param': 'MI', 'b': 1}
+    stmt = {"param": "MI", "b": 1}
     mi = MIParamStmt.from_dict(stmt)
-    assert_equal(str(mi), '<Image Mirror: A=0 B=1>')
+    assert str(mi) == "<Image Mirror: A=0 B=1>"
 
-    stmt = {'param': 'MI', 'a': 1}
+    stmt = {"param": "MI", "a": 1}
     mi = MIParamStmt.from_dict(stmt)
-    assert_equal(str(mi), '<Image Mirror: A=1 B=0>')
+    assert str(mi) == "<Image Mirror: A=1 B=0>"
 
 
 def test_coordstmt_ctor():
-    cs = CoordStmt('G04', 0.0, 0.1, 0.2, 0.3, 'D01', FileSettings())
-    assert_equal(cs.function, 'G04')
-    assert_equal(cs.x, 0.0)
-    assert_equal(cs.y, 0.1)
-    assert_equal(cs.i, 0.2)
-    assert_equal(cs.j, 0.3)
-    assert_equal(cs.op, 'D01')
+    cs = CoordStmt("G04", 0.0, 0.1, 0.2, 0.3, "D01", FileSettings())
+    assert cs.function == "G04"
+    assert cs.x == 0.0
+    assert cs.y == 0.1
+    assert cs.i == 0.2
+    assert cs.j == 0.3
+    assert cs.op == "D01"
 
 
 def test_coordstmt_factory():
-    stmt = {'function': 'G04', 'x': '0', 'y': '001',
-            'i': '002', 'j': '003', 'op': 'D01'}
+    stmt = {
+        "function": "G04",
+        "x": "0",
+        "y": "001",
+        "i": "002",
+        "j": "003",
+        "op": "D01",
+    }
     cs = CoordStmt.from_dict(stmt, FileSettings())
-    assert_equal(cs.function, 'G04')
-    assert_equal(cs.x, 0.0)
-    assert_equal(cs.y, 0.1)
-    assert_equal(cs.i, 0.2)
-    assert_equal(cs.j, 0.3)
-    assert_equal(cs.op, 'D01')
+    assert cs.function == "G04"
+    assert cs.x == 0.0
+    assert cs.y == 0.1
+    assert cs.i == 0.2
+    assert cs.j == 0.3
+    assert cs.op == "D01"
 
 
 def test_coordstmt_dump():
-    cs = CoordStmt('G04', 0.0, 0.1, 0.2, 0.3, 'D01', FileSettings())
-    assert_equal(cs.to_gerber(FileSettings()), 'G04X0Y001I002J003D01*')
+    cs = CoordStmt("G04", 0.0, 0.1, 0.2, 0.3, "D01", FileSettings())
+    assert cs.to_gerber(FileSettings()) == "G04X0Y001I002J003D01*"
 
 
 def test_coordstmt_conversion():
-    cs = CoordStmt('G71', 25.4, 25.4, 25.4, 25.4, 'D01', FileSettings())
-    cs.units = 'metric'
+    cs = CoordStmt("G71", 25.4, 25.4, 25.4, 25.4, "D01", FileSettings())
+    cs.units = "metric"
 
     # No effect
     cs.to_metric()
-    assert_equal(cs.x, 25.4)
-    assert_equal(cs.y, 25.4)
-    assert_equal(cs.i, 25.4)
-    assert_equal(cs.j, 25.4)
-    assert_equal(cs.function, 'G71')
+    assert cs.x == 25.4
+    assert cs.y == 25.4
+    assert cs.i == 25.4
+    assert cs.j == 25.4
+    assert cs.function == "G71"
 
     cs.to_inch()
-    assert_equal(cs.units, 'inch')
-    assert_equal(cs.x, 1.)
-    assert_equal(cs.y, 1.)
-    assert_equal(cs.i, 1.)
-    assert_equal(cs.j, 1.)
-    assert_equal(cs.function, 'G70')
+    assert cs.units == "inch"
+    assert cs.x == 1.0
+    assert cs.y == 1.0
+    assert cs.i == 1.0
+    assert cs.j == 1.0
+    assert cs.function == "G70"
 
     # No effect
     cs.to_inch()
-    assert_equal(cs.x, 1.)
-    assert_equal(cs.y, 1.)
-    assert_equal(cs.i, 1.)
-    assert_equal(cs.j, 1.)
-    assert_equal(cs.function, 'G70')
+    assert cs.x == 1.0
+    assert cs.y == 1.0
+    assert cs.i == 1.0
+    assert cs.j == 1.0
+    assert cs.function == "G70"
 
-    cs = CoordStmt('G70', 1., 1., 1., 1., 'D01', FileSettings())
-    cs.units = 'inch'
+    cs = CoordStmt("G70", 1.0, 1.0, 1.0, 1.0, "D01", FileSettings())
+    cs.units = "inch"
 
     # No effect
     cs.to_inch()
-    assert_equal(cs.x, 1.)
-    assert_equal(cs.y, 1.)
-    assert_equal(cs.i, 1.)
-    assert_equal(cs.j, 1.)
-    assert_equal(cs.function, 'G70')
+    assert cs.x == 1.0
+    assert cs.y == 1.0
+    assert cs.i == 1.0
+    assert cs.j == 1.0
+    assert cs.function == "G70"
 
     cs.to_metric()
-    assert_equal(cs.x, 25.4)
-    assert_equal(cs.y, 25.4)
-    assert_equal(cs.i, 25.4)
-    assert_equal(cs.j, 25.4)
-    assert_equal(cs.function, 'G71')
+    assert cs.x == 25.4
+    assert cs.y == 25.4
+    assert cs.i == 25.4
+    assert cs.j == 25.4
+    assert cs.function == "G71"
 
     # No effect
     cs.to_metric()
-    assert_equal(cs.x, 25.4)
-    assert_equal(cs.y, 25.4)
-    assert_equal(cs.i, 25.4)
-    assert_equal(cs.j, 25.4)
-    assert_equal(cs.function, 'G71')
+    assert cs.x == 25.4
+    assert cs.y == 25.4
+    assert cs.i == 25.4
+    assert cs.j == 25.4
+    assert cs.function == "G71"
 
 
 def test_coordstmt_offset():
-    c = CoordStmt('G71', 0, 0, 0, 0, 'D01', FileSettings())
+    c = CoordStmt("G71", 0, 0, 0, 0, "D01", FileSettings())
     c.offset(1, 0)
-    assert_equal(c.x, 1.)
-    assert_equal(c.y, 0.)
-    assert_equal(c.i, 1.)
-    assert_equal(c.j, 0.)
+    assert c.x == 1.0
+    assert c.y == 0.0
+    assert c.i == 1.0
+    assert c.j == 0.0
     c.offset(0, 1)
-    assert_equal(c.x, 1.)
-    assert_equal(c.y, 1.)
-    assert_equal(c.i, 1.)
-    assert_equal(c.j, 1.)
+    assert c.x == 1.0
+    assert c.y == 1.0
+    assert c.i == 1.0
+    assert c.j == 1.0
 
 
 def test_coordstmt_string():
-    cs = CoordStmt('G04', 0, 1, 2, 3, 'D01', FileSettings())
-    assert_equal(str(cs),
-                 '<Coordinate Statement: Fn: G04 X: 0 Y: 1 I: 2 J: 3 Op: Lights On>')
-    cs = CoordStmt('G04', None, None, None, None, 'D02', FileSettings())
-    assert_equal(str(cs), '<Coordinate Statement: Fn: G04 Op: Lights Off>')
-    cs = CoordStmt('G04', None, None, None, None, 'D03', FileSettings())
-    assert_equal(str(cs), '<Coordinate Statement: Fn: G04 Op: Flash>')
-    cs = CoordStmt('G04', None, None, None, None, 'TEST', FileSettings())
-    assert_equal(str(cs), '<Coordinate Statement: Fn: G04 Op: TEST>')
+    cs = CoordStmt("G04", 0, 1, 2, 3, "D01", FileSettings())
+    assert (
+        str(cs) == "<Coordinate Statement: Fn: G04 X: 0 Y: 1 I: 2 J: 3 Op: Lights On>"
+    )
+    cs = CoordStmt("G04", None, None, None, None, "D02", FileSettings())
+    assert str(cs) == "<Coordinate Statement: Fn: G04 Op: Lights Off>"
+    cs = CoordStmt("G04", None, None, None, None, "D03", FileSettings())
+    assert str(cs) == "<Coordinate Statement: Fn: G04 Op: Flash>"
+    cs = CoordStmt("G04", None, None, None, None, "TEST", FileSettings())
+    assert str(cs) == "<Coordinate Statement: Fn: G04 Op: TEST>"
 
 
 def test_aperturestmt_ctor():
     ast = ApertureStmt(3, False)
-    assert_equal(ast.d, 3)
-    assert_equal(ast.deprecated, False)
+    assert ast.d == 3
+    assert ast.deprecated == False
     ast = ApertureStmt(4, True)
-    assert_equal(ast.d, 4)
-    assert_equal(ast.deprecated, True)
+    assert ast.d == 4
+    assert ast.deprecated == True
     ast = ApertureStmt(4, 1)
-    assert_equal(ast.d, 4)
-    assert_equal(ast.deprecated, True)
+    assert ast.d == 4
+    assert ast.deprecated == True
     ast = ApertureStmt(3)
-    assert_equal(ast.d, 3)
-    assert_equal(ast.deprecated, False)
+    assert ast.d == 3
+    assert ast.deprecated == False
 
 
 def test_aperturestmt_dump():
     ast = ApertureStmt(3, False)
-    assert_equal(ast.to_gerber(), 'D3*')
+    assert ast.to_gerber() == "D3*"
     ast = ApertureStmt(3, True)
-    assert_equal(ast.to_gerber(), 'G54D3*')
-    assert_equal(str(ast), '<Aperture: 3>')
+    assert ast.to_gerber() == "G54D3*"
+    assert str(ast) == "<Aperture: 3>"
diff --git a/gerber/tests/test_ipc356.py b/gerber/tests/test_ipc356.py
index ae2772a..77f0782 100644
--- a/gerber/tests/test_ipc356.py
+++ b/gerber/tests/test_ipc356.py
@@ -2,139 +2,147 @@
 # -*- coding: utf-8 -*-
 
 # Author: Hamilton Kibbe <ham@hamiltonkib.be>
+import pytest
 from ..ipc356 import *
 from ..cam import FileSettings
-from .tests import *
 
 import os
 
-IPC_D_356_FILE = os.path.join(os.path.dirname(__file__),
-                              'resources/ipc-d-356.ipc')
+IPC_D_356_FILE = os.path.join(os.path.dirname(__file__), "resources/ipc-d-356.ipc")
 
 
 def test_read():
     ipcfile = read(IPC_D_356_FILE)
-    assert(isinstance(ipcfile, IPCNetlist))
-
+    assert isinstance(ipcfile, IPCNetlist)
 
 
 def test_parser():
     ipcfile = read(IPC_D_356_FILE)
-    assert_equal(ipcfile.settings.units, 'inch')
-    assert_equal(ipcfile.settings.angle_units, 'degrees')
-    assert_equal(len(ipcfile.comments), 3)
-    assert_equal(len(ipcfile.parameters), 4)
-    assert_equal(len(ipcfile.test_records), 105)
-    assert_equal(len(ipcfile.components), 21)
-    assert_equal(len(ipcfile.vias), 14)
-    assert_equal(ipcfile.test_records[-1].net_name, 'A_REALLY_LONG_NET_NAME')
-    assert_equal(ipcfile.outlines[0].type, 'BOARD_EDGE')
-    assert_equal(set(ipcfile.outlines[0].points),
-                 {(0., 0.), (2.25, 0.), (2.25, 1.5), (0., 1.5), (0.13, 0.024)})
+    assert ipcfile.settings.units == "inch"
+    assert ipcfile.settings.angle_units == "degrees"
+    assert len(ipcfile.comments) == 3
+    assert len(ipcfile.parameters) == 4
+    assert len(ipcfile.test_records) == 105
+    assert len(ipcfile.components) == 21
+    assert len(ipcfile.vias) == 14
+    assert ipcfile.test_records[-1].net_name == "A_REALLY_LONG_NET_NAME"
+    assert ipcfile.outlines[0].type == "BOARD_EDGE"
+    assert set(ipcfile.outlines[0].points) == {
+        (0.0, 0.0),
+        (2.25, 0.0),
+        (2.25, 1.5),
+        (0.0, 1.5),
+        (0.13, 0.024),
+    }
 
 
 def test_comment():
-    c = IPC356_Comment('Layer Stackup:')
-    assert_equal(c.comment, 'Layer Stackup:')
-    c = IPC356_Comment.from_line('C  Layer Stackup:   ')
-    assert_equal(c.comment, 'Layer Stackup:')
-    assert_raises(ValueError, IPC356_Comment.from_line, 'P  JOB')
-    assert_equal(str(c), '<IPC-D-356 Comment: Layer Stackup:>')
+    c = IPC356_Comment("Layer Stackup:")
+    assert c.comment == "Layer Stackup:"
+    c = IPC356_Comment.from_line("C  Layer Stackup:   ")
+    assert c.comment == "Layer Stackup:"
+    pytest.raises(ValueError, IPC356_Comment.from_line, "P  JOB")
+    assert str(c) == "<IPC-D-356 Comment: Layer Stackup:>"
 
 
 def test_parameter():
-    p = IPC356_Parameter('VER', 'IPC-D-356A')
-    assert_equal(p.parameter, 'VER')
-    assert_equal(p.value, 'IPC-D-356A')
-    p = IPC356_Parameter.from_line('P  VER IPC-D-356A    ')
-    assert_equal(p.parameter, 'VER')
-    assert_equal(p.value, 'IPC-D-356A')
-    assert_raises(ValueError, IPC356_Parameter.from_line,
-                  'C  Layer Stackup:   ')
-    assert_equal(str(p), '<IPC-D-356 Parameter: VER=IPC-D-356A>')
+    p = IPC356_Parameter("VER", "IPC-D-356A")
+    assert p.parameter == "VER"
+    assert p.value == "IPC-D-356A"
+    p = IPC356_Parameter.from_line("P  VER IPC-D-356A    ")
+    assert p.parameter == "VER"
+    assert p.value == "IPC-D-356A"
+    pytest.raises(ValueError, IPC356_Parameter.from_line, "C  Layer Stackup:   ")
+    assert str(p) == "<IPC-D-356 Parameter: VER=IPC-D-356A>"
 
 
 def test_eof():
     e = IPC356_EndOfFile()
-    assert_equal(e.to_netlist(), '999')
-    assert_equal(str(e), '<IPC-D-356 EOF>')
+    assert e.to_netlist() == "999"
+    assert str(e) == "<IPC-D-356 EOF>"
 
 
 def test_outline():
-    type = 'BOARD_EDGE'
-    points = [(0.01, 0.01), (2., 2.), (4., 2.), (4., 6.)]
+    type = "BOARD_EDGE"
+    points = [(0.01, 0.01), (2.0, 2.0), (4.0, 2.0), (4.0, 6.0)]
     b = IPC356_Outline(type, points)
-    assert_equal(b.type, type)
-    assert_equal(b.points, points)
-    b = IPC356_Outline.from_line('389BOARD_EDGE         X100Y100 X20000Y20000 X40000 Y60000',
-                                 FileSettings(units='inch'))
-    assert_equal(b.type, 'BOARD_EDGE')
-    assert_equal(b.points, points)
+    assert b.type == type
+    assert b.points == points
+    b = IPC356_Outline.from_line(
+        "389BOARD_EDGE         X100Y100 X20000Y20000 X40000 Y60000",
+        FileSettings(units="inch"),
+    )
+    assert b.type == "BOARD_EDGE"
+    assert b.points == points
 
 
 def test_test_record():
-    assert_raises(ValueError, IPC356_TestRecord.from_line,
-                  'P  JOB', FileSettings())
-    record_string = '317+5VDC            VIA   -     D0150PA00X 006647Y 012900X0000          S3'
-    r = IPC356_TestRecord.from_line(record_string, FileSettings(units='inch'))
-    assert_equal(r.feature_type, 'through-hole')
-    assert_equal(r.net_name, '+5VDC')
-    assert_equal(r.id, 'VIA')
-    assert_almost_equal(r.hole_diameter, 0.015)
-    assert_true(r.plated)
-    assert_equal(r.access, 'both')
-    assert_almost_equal(r.x_coord, 0.6647)
-    assert_almost_equal(r.y_coord, 1.29)
-    assert_equal(r.rect_x, 0.)
-    assert_equal(r.soldermask_info, 'both')
-    r = IPC356_TestRecord.from_line(record_string, FileSettings(units='metric'))
-    assert_almost_equal(r.hole_diameter, 0.15)
-    assert_almost_equal(r.x_coord, 6.647)
-    assert_almost_equal(r.y_coord, 12.9)
-    assert_equal(r.rect_x, 0.)
-    assert_equal(str(r), '<IPC-D-356 +5VDC Test Record: through-hole>')
-
-    record_string = '327+3.3VDC          R40   -1         PA01X 032100Y 007124X0236Y0315R180 S0'
-    r = IPC356_TestRecord.from_line(record_string, FileSettings(units='inch'))
-    assert_equal(r.feature_type, 'smt')
-    assert_equal(r.net_name, '+3.3VDC')
-    assert_equal(r.id, 'R40')
-    assert_equal(r.pin, '1')
-    assert_true(r.plated)
-    assert_equal(r.access, 'top')
-    assert_almost_equal(r.x_coord, 3.21)
-    assert_almost_equal(r.y_coord, 0.7124)
-    assert_almost_equal(r.rect_x, 0.0236)
-    assert_almost_equal(r.rect_y, 0.0315)
-    assert_equal(r.rect_rotation, 180)
-    assert_equal(r.soldermask_info, 'none')
-    r = IPC356_TestRecord.from_line(
-        record_string, FileSettings(units='metric'))
-    assert_almost_equal(r.x_coord, 32.1)
-    assert_almost_equal(r.y_coord, 7.124)
-    assert_almost_equal(r.rect_x, 0.236)
-    assert_almost_equal(r.rect_y, 0.315)
-
-    record_string = '317                 J4    -M2   D0330PA00X 012447Y 008030X0000          S1'
-    r = IPC356_TestRecord.from_line(record_string, FileSettings(units='inch'))
-    assert_equal(r.feature_type, 'through-hole')
-    assert_equal(r.id, 'J4')
-    assert_equal(r.pin, 'M2')
-    assert_almost_equal(r.hole_diameter, 0.033)
-    assert_true(r.plated)
-    assert_equal(r.access, 'both')
-    assert_almost_equal(r.x_coord, 1.2447)
-    assert_almost_equal(r.y_coord, 0.8030)
-    assert_almost_equal(r.rect_x, 0.)
-    assert_equal(r.soldermask_info, 'primary side')
-
-    record_string = '317SCL              COMMUNICATION-1    D  40PA00X  34000Y  20000X 600Y1200R270 '
-    r = IPC356_TestRecord.from_line(record_string, FileSettings(units='inch'))
-    assert_equal(r.feature_type, 'through-hole')
-    assert_equal(r.net_name, 'SCL')
-    assert_equal(r.id, 'COMMUNICATION')
-    assert_equal(r.pin, '1')
-    assert_almost_equal(r.hole_diameter, 0.004)
-    assert_true(r.plated)
-    assert_almost_equal(r.x_coord, 3.4)
-    assert_almost_equal(r.y_coord, 2.0)
+    pytest.raises(ValueError, IPC356_TestRecord.from_line, "P  JOB", FileSettings())
+    record_string = (
+        "317+5VDC            VIA   -     D0150PA00X 006647Y 012900X0000          S3"
+    )
+    r = IPC356_TestRecord.from_line(record_string, FileSettings(units="inch"))
+    assert r.feature_type == "through-hole"
+    assert r.net_name == "+5VDC"
+    assert r.id == "VIA"
+    pytest.approx(r.hole_diameter, 0.015)
+    assert r.plated
+    assert r.access == "both"
+    pytest.approx(r.x_coord, 0.6647)
+    pytest.approx(r.y_coord, 1.29)
+    assert r.rect_x == 0.0
+    assert r.soldermask_info == "both"
+    r = IPC356_TestRecord.from_line(record_string, FileSettings(units="metric"))
+    pytest.approx(r.hole_diameter, 0.15)
+    pytest.approx(r.x_coord, 6.647)
+    pytest.approx(r.y_coord, 12.9)
+    assert r.rect_x == 0.0
+    assert str(r) == "<IPC-D-356 +5VDC Test Record: through-hole>"
+
+    record_string = (
+        "327+3.3VDC          R40   -1         PA01X 032100Y 007124X0236Y0315R180 S0"
+    )
+    r = IPC356_TestRecord.from_line(record_string, FileSettings(units="inch"))
+    assert r.feature_type == "smt"
+    assert r.net_name == "+3.3VDC"
+    assert r.id == "R40"
+    assert r.pin == "1"
+    assert r.plated
+    assert r.access == "top"
+    pytest.approx(r.x_coord, 3.21)
+    pytest.approx(r.y_coord, 0.7124)
+    pytest.approx(r.rect_x, 0.0236)
+    pytest.approx(r.rect_y, 0.0315)
+    assert r.rect_rotation == 180
+    assert r.soldermask_info == "none"
+    r = IPC356_TestRecord.from_line(record_string, FileSettings(units="metric"))
+    pytest.approx(r.x_coord, 32.1)
+    pytest.approx(r.y_coord, 7.124)
+    pytest.approx(r.rect_x, 0.236)
+    pytest.approx(r.rect_y, 0.315)
+
+    record_string = (
+        "317                 J4    -M2   D0330PA00X 012447Y 008030X0000          S1"
+    )
+    r = IPC356_TestRecord.from_line(record_string, FileSettings(units="inch"))
+    assert r.feature_type == "through-hole"
+    assert r.id == "J4"
+    assert r.pin == "M2"
+    pytest.approx(r.hole_diameter, 0.033)
+    assert r.plated
+    assert r.access == "both"
+    pytest.approx(r.x_coord, 1.2447)
+    pytest.approx(r.y_coord, 0.8030)
+    pytest.approx(r.rect_x, 0.0)
+    assert r.soldermask_info == "primary side"
+
+    record_string = "317SCL              COMMUNICATION-1    D  40PA00X  34000Y  20000X 600Y1200R270 "
+    r = IPC356_TestRecord.from_line(record_string, FileSettings(units="inch"))
+    assert r.feature_type == "through-hole"
+    assert r.net_name == "SCL"
+    assert r.id == "COMMUNICATION"
+    assert r.pin == "1"
+    pytest.approx(r.hole_diameter, 0.004)
+    assert r.plated
+    pytest.approx(r.x_coord, 3.4)
+    pytest.approx(r.y_coord, 2.0)
diff --git a/gerber/tests/test_layers.py b/gerber/tests/test_layers.py
index 3a21a2c..2178787 100644
--- a/gerber/tests/test_layers.py
+++ b/gerber/tests/test_layers.py
@@ -18,128 +18,141 @@
 
 import os
 
-from .tests import *
 from ..layers import *
 from ..common import read
 
-NCDRILL_FILE = os.path.join(os.path.dirname(__file__),
-                            'resources/ncdrill.DRD')
-NETLIST_FILE = os.path.join(os.path.dirname(__file__),
-                            'resources/ipc-d-356.ipc')
-COPPER_FILE = os.path.join(os.path.dirname(__file__),
-                           'resources/top_copper.GTL')
+NCDRILL_FILE = os.path.join(os.path.dirname(__file__), "resources/ncdrill.DRD")
+NETLIST_FILE = os.path.join(os.path.dirname(__file__), "resources/ipc-d-356.ipc")
+COPPER_FILE = os.path.join(os.path.dirname(__file__), "resources/top_copper.GTL")
+
 
 def test_guess_layer_class():
     """ Test layer type inferred correctly from filename
     """
 
     # Add any specific test cases here (filename, layer_class)
-    test_vectors = [(None, 'unknown'), ('NCDRILL.TXT', 'unknown'),
-                    ('example_board.gtl', 'top'),
-                    ('exampmle_board.sst', 'topsilk'),
-                    ('ipc-d-356.ipc', 'ipc_netlist'), ]
+    test_vectors = [
+        (None, "unknown"),
+        ("NCDRILL.TXT", "unknown"),
+        ("example_board.gtl", "top"),
+        ("exampmle_board.sst", "topsilk"),
+        ("ipc-d-356.ipc", "ipc_netlist"),
+    ]
 
     for hint in hints:
         for ext in hint.ext:
-            assert_equal(hint.layer, guess_layer_class('board.{}'.format(ext)))
+            assert hint.layer == guess_layer_class("board.{}".format(ext))
         for name in hint.name:
-            assert_equal(hint.layer, guess_layer_class('{}.pho'.format(name)))
+            assert hint.layer == guess_layer_class("{}.pho".format(name))
 
     for filename, layer_class in test_vectors:
-        assert_equal(layer_class, guess_layer_class(filename))
+        assert layer_class == guess_layer_class(filename)
+
 
 def test_guess_layer_class_regex():
     """ Test regular expressions for layer matching
     """
 
     # Add any specific test case (filename, layer_class)
-    test_vectors = [('test - top copper.gbr', 'top'),
-                    ('test - copper top.gbr', 'top'), ]
+    test_vectors = [("test - top copper.gbr", "top"), ("test - copper top.gbr", "top")]
 
     # Add custom regular expressions
     layer_hints = [
-        Hint(layer='top',
-                ext=[],
-                name=[],
-                regex=r'(.*)(\scopper top|\stop copper).gbr',
-                content=[]
-            ),
+        Hint(
+            layer="top",
+            ext=[],
+            name=[],
+            regex=r"(.*)(\scopper top|\stop copper).gbr",
+            content=[],
+        )
     ]
     hints.extend(layer_hints)
 
     for filename, layer_class in test_vectors:
-        assert_equal(layer_class, guess_layer_class(filename))
+        assert layer_class == guess_layer_class(filename)
 
 
 def test_guess_layer_class_by_content():
     """ Test layer class by checking content
     """
 
-    expected_layer_class = 'bottom'
-    filename = os.path.join(os.path.dirname(__file__),
-                               'resources/example_guess_by_content.g0')
+    expected_layer_class = "bottom"
+    filename = os.path.join(
+        os.path.dirname(__file__), "resources/example_guess_by_content.g0"
+    )
 
     layer_hints = [
-        Hint(layer='bottom',
-                ext=[],
-                name=[],
-                regex='',
-                content=['G04 Layer name: Bottom']
-            )
+        Hint(
+            layer="bottom",
+            ext=[],
+            name=[],
+            regex="",
+            content=["G04 Layer name: Bottom"],
+        )
     ]
     hints.extend(layer_hints)
 
-    assert_equal(expected_layer_class, guess_layer_class_by_content(filename))
+    assert expected_layer_class == guess_layer_class_by_content(filename)
 
 
 def test_sort_layers():
     """ Test layer ordering
     """
     layers = [
-        PCBLayer(layer_class='drawing'),
-        PCBLayer(layer_class='drill'),
-        PCBLayer(layer_class='bottompaste'),
-        PCBLayer(layer_class='bottomsilk'),
-        PCBLayer(layer_class='bottommask'),
-        PCBLayer(layer_class='bottom'),
-        PCBLayer(layer_class='internal'),
-        PCBLayer(layer_class='top'),
-        PCBLayer(layer_class='topmask'),
-        PCBLayer(layer_class='topsilk'),
-        PCBLayer(layer_class='toppaste'),
-        PCBLayer(layer_class='outline'),
+        PCBLayer(layer_class="drawing"),
+        PCBLayer(layer_class="drill"),
+        PCBLayer(layer_class="bottompaste"),
+        PCBLayer(layer_class="bottomsilk"),
+        PCBLayer(layer_class="bottommask"),
+        PCBLayer(layer_class="bottom"),
+        PCBLayer(layer_class="internal"),
+        PCBLayer(layer_class="top"),
+        PCBLayer(layer_class="topmask"),
+        PCBLayer(layer_class="topsilk"),
+        PCBLayer(layer_class="toppaste"),
+        PCBLayer(layer_class="outline"),
     ]
 
-    layer_order = ['outline', 'toppaste', 'topsilk', 'topmask', 'top',
-                   'internal', 'bottom', 'bottommask', 'bottomsilk',
-                   'bottompaste', 'drill', 'drawing']
+    layer_order = [
+        "outline",
+        "toppaste",
+        "topsilk",
+        "topmask",
+        "top",
+        "internal",
+        "bottom",
+        "bottommask",
+        "bottomsilk",
+        "bottompaste",
+        "drill",
+        "drawing",
+    ]
     bottom_order = list(reversed(layer_order[:10])) + layer_order[10:]
-    assert_equal([l.layer_class for l in sort_layers(layers)], layer_order)
-    assert_equal([l.layer_class for l in sort_layers(layers, from_top=False)],
-                 bottom_order)
+    assert [l.layer_class for l in sort_layers(layers)] == layer_order
+    assert [l.layer_class for l in sort_layers(layers, from_top=False)] == bottom_order
 
 
 def test_PCBLayer_from_file():
     layer = PCBLayer.from_cam(read(COPPER_FILE))
-    assert_true(isinstance(layer, PCBLayer))
+    assert isinstance(layer, PCBLayer)
     layer = PCBLayer.from_cam(read(NCDRILL_FILE))
-    assert_true(isinstance(layer, DrillLayer))
+    assert isinstance(layer, DrillLayer)
     layer = PCBLayer.from_cam(read(NETLIST_FILE))
-    assert_true(isinstance(layer, PCBLayer))
-    assert_equal(layer.layer_class, 'ipc_netlist')
+    assert isinstance(layer, PCBLayer)
+    assert layer.layer_class == "ipc_netlist"
 
 
 def test_PCBLayer_bounds():
     source = read(COPPER_FILE)
     layer = PCBLayer.from_cam(source)
-    assert_equal(source.bounds, layer.bounds)
+    assert source.bounds == layer.bounds
 
 
 def test_DrillLayer_from_cam():
     no_exceptions = True
     try:
         layer = DrillLayer.from_cam(read(NCDRILL_FILE))
-        assert_true(isinstance(layer, DrillLayer))
+        assert isinstance(layer, DrillLayer)
     except:
         no_exceptions = False
-    assert_true(no_exceptions)
+    assert no_exceptions
diff --git a/gerber/tests/test_primitives.py b/gerber/tests/test_primitives.py
index b932297..ad5b34f 100644
--- a/gerber/tests/test_primitives.py
+++ b/gerber/tests/test_primitives.py
@@ -2,467 +2,478 @@
 # -*- coding: utf-8 -*-
 
 # Author: Hamilton Kibbe <ham@hamiltonkib.be>
-from operator import add
 
+import pytest
+from operator import add
 from ..primitives import *
-from .tests import *
 
 
 def test_primitive_smoketest():
     p = Primitive()
     try:
         p.bounding_box
-        assert_false(True, 'should have thrown the exception')
+        assert not True, "should have thrown the exception"
     except NotImplementedError:
         pass
-    #assert_raises(NotImplementedError, p.bounding_box)
+    # pytest.raises(NotImplementedError, p.bounding_box)
 
     p.to_metric()
     p.to_inch()
-    #try:
+    # try:
     #    p.offset(1, 1)
     #    assert_false(True, 'should have thrown the exception')
-    #except NotImplementedError:
+    # except NotImplementedError:
     #    pass
 
 
-
 def test_line_angle():
     """ Test Line primitive angle calculation
     """
-    cases = [((0, 0), (1, 0), math.radians(0)),
-             ((0, 0), (1, 1), math.radians(45)),
-             ((0, 0), (0, 1), math.radians(90)),
-             ((0, 0), (-1, 1), math.radians(135)),
-             ((0, 0), (-1, 0), math.radians(180)),
-             ((0, 0), (-1, -1), math.radians(225)),
-             ((0, 0), (0, -1), math.radians(270)),
-             ((0, 0), (1, -1), math.radians(315)), ]
+    cases = [
+        ((0, 0), (1, 0), math.radians(0)),
+        ((0, 0), (1, 1), math.radians(45)),
+        ((0, 0), (0, 1), math.radians(90)),
+        ((0, 0), (-1, 1), math.radians(135)),
+        ((0, 0), (-1, 0), math.radians(180)),
+        ((0, 0), (-1, -1), math.radians(225)),
+        ((0, 0), (0, -1), math.radians(270)),
+        ((0, 0), (1, -1), math.radians(315)),
+    ]
     for start, end, expected in cases:
         l = Line(start, end, 0)
         line_angle = (l.angle + 2 * math.pi) % (2 * math.pi)
-        assert_almost_equal(line_angle, expected)
+        pytest.approx(line_angle, expected)
 
 
 def test_line_bounds():
     """ Test Line primitive bounding box calculation
     """
-    cases = [((0, 0), (1, 1), ((-1, 2), (-1, 2))),
-             ((-1, -1), (1, 1), ((-2, 2), (-2, 2))),
-             ((1, 1), (-1, -1), ((-2, 2), (-2, 2))),
-             ((-1, 1), (1, -1), ((-2, 2), (-2, 2))), ]
+    cases = [
+        ((0, 0), (1, 1), ((-1, 2), (-1, 2))),
+        ((-1, -1), (1, 1), ((-2, 2), (-2, 2))),
+        ((1, 1), (-1, -1), ((-2, 2), (-2, 2))),
+        ((-1, 1), (1, -1), ((-2, 2), (-2, 2))),
+    ]
 
     c = Circle((0, 0), 2)
     r = Rectangle((0, 0), 2, 2)
     for shape in (c, r):
         for start, end, expected in cases:
             l = Line(start, end, shape)
-            assert_equal(l.bounding_box, expected)
+            assert l.bounding_box == expected
     # Test a non-square rectangle
     r = Rectangle((0, 0), 3, 2)
-    cases = [((0, 0), (1, 1), ((-1.5, 2.5), (-1, 2))),
-             ((-1, -1), (1, 1), ((-2.5, 2.5), (-2, 2))),
-             ((1, 1), (-1, -1), ((-2.5, 2.5), (-2, 2))),
-             ((-1, 1), (1, -1), ((-2.5, 2.5), (-2, 2))), ]
+    cases = [
+        ((0, 0), (1, 1), ((-1.5, 2.5), (-1, 2))),
+        ((-1, -1), (1, 1), ((-2.5, 2.5), (-2, 2))),
+        ((1, 1), (-1, -1), ((-2.5, 2.5), (-2, 2))),
+        ((-1, 1), (1, -1), ((-2.5, 2.5), (-2, 2))),
+    ]
     for start, end, expected in cases:
         l = Line(start, end, r)
-        assert_equal(l.bounding_box, expected)
+        assert l.bounding_box == expected
 
 
 def test_line_vertices():
     c = Circle((0, 0), 2)
     l = Line((0, 0), (1, 1), c)
-    assert_equal(l.vertices, None)
+    assert l.vertices == None
 
     # All 4 compass points, all 4 quadrants and the case where start == end
-    test_cases = [((0, 0), (1, 0), ((-1, -1), (-1, 1), (2, 1), (2, -1))),
-                  ((0, 0), (1, 1), ((-1, -1), (-1, 1),
-                                    (0, 2), (2, 2), (2, 0), (1, -1))),
-                  ((0, 0), (0, 1), ((-1, -1), (-1, 2), (1, 2), (1, -1))),
-                  ((0, 0), (-1, 1), ((-1, -1), (-2, 0),
-                                     (-2, 2), (0, 2), (1, 1), (1, -1))),
-                  ((0, 0), (-1, 0), ((-2, -1), (-2, 1), (1, 1), (1, -1))),
-                  ((0, 0), (-1, -1), ((-2, -2), (1, -1),
-                                      (1, 1), (-1, 1), (-2, 0), (0, -2))),
-                  ((0, 0), (0, -1), ((-1, -2), (-1, 1), (1, 1), (1, -2))),
-                  ((0, 0), (1, -1), ((-1, -1), (0, -2),
-                                     (2, -2), (2, 0), (1, 1), (-1, 1))),
-                  ((0, 0), (0, 0), ((-1, -1), (-1, 1), (1, 1), (1, -1))), ]
+    test_cases = [
+        ((0, 0), (1, 0), ((-1, -1), (-1, 1), (2, 1), (2, -1))),
+        ((0, 0), (1, 1), ((-1, -1), (-1, 1), (0, 2), (2, 2), (2, 0), (1, -1))),
+        ((0, 0), (0, 1), ((-1, -1), (-1, 2), (1, 2), (1, -1))),
+        ((0, 0), (-1, 1), ((-1, -1), (-2, 0), (-2, 2), (0, 2), (1, 1), (1, -1))),
+        ((0, 0), (-1, 0), ((-2, -1), (-2, 1), (1, 1), (1, -1))),
+        ((0, 0), (-1, -1), ((-2, -2), (1, -1), (1, 1), (-1, 1), (-2, 0), (0, -2))),
+        ((0, 0), (0, -1), ((-1, -2), (-1, 1), (1, 1), (1, -2))),
+        ((0, 0), (1, -1), ((-1, -1), (0, -2), (2, -2), (2, 0), (1, 1), (-1, 1))),
+        ((0, 0), (0, 0), ((-1, -1), (-1, 1), (1, 1), (1, -1))),
+    ]
     r = Rectangle((0, 0), 2, 2)
 
     for start, end, vertices in test_cases:
         l = Line(start, end, r)
-        assert_equal(set(vertices), set(l.vertices))
+        assert set(vertices) == set(l.vertices)
 
 
 def test_line_conversion():
-    c = Circle((0, 0), 25.4, units='metric')
-    l = Line((2.54, 25.4), (254.0, 2540.0), c, units='metric')
+    c = Circle((0, 0), 25.4, units="metric")
+    l = Line((2.54, 25.4), (254.0, 2540.0), c, units="metric")
 
     # No effect
     l.to_metric()
-    assert_equal(l.start, (2.54, 25.4))
-    assert_equal(l.end, (254.0, 2540.0))
-    assert_equal(l.aperture.diameter, 25.4)
+    assert l.start == (2.54, 25.4)
+    assert l.end == (254.0, 2540.0)
+    assert l.aperture.diameter == 25.4
 
     l.to_inch()
-    assert_equal(l.start, (0.1, 1.0))
-    assert_equal(l.end, (10.0, 100.0))
-    assert_equal(l.aperture.diameter, 1.0)
+    assert l.start == (0.1, 1.0)
+    assert l.end == (10.0, 100.0)
+    assert l.aperture.diameter == 1.0
 
     # No effect
     l.to_inch()
-    assert_equal(l.start, (0.1, 1.0))
-    assert_equal(l.end, (10.0, 100.0))
-    assert_equal(l.aperture.diameter, 1.0)
+    assert l.start == (0.1, 1.0)
+    assert l.end == (10.0, 100.0)
+    assert l.aperture.diameter == 1.0
 
-    c = Circle((0, 0), 1.0, units='inch')
-    l = Line((0.1, 1.0), (10.0, 100.0), c, units='inch')
+    c = Circle((0, 0), 1.0, units="inch")
+    l = Line((0.1, 1.0), (10.0, 100.0), c, units="inch")
 
     # No effect
     l.to_inch()
-    assert_equal(l.start, (0.1, 1.0))
-    assert_equal(l.end, (10.0, 100.0))
-    assert_equal(l.aperture.diameter, 1.0)
+    assert l.start == (0.1, 1.0)
+    assert l.end == (10.0, 100.0)
+    assert l.aperture.diameter == 1.0
 
     l.to_metric()
-    assert_equal(l.start, (2.54, 25.4))
-    assert_equal(l.end, (254.0, 2540.0))
-    assert_equal(l.aperture.diameter, 25.4)
+    assert l.start == (2.54, 25.4)
+    assert l.end == (254.0, 2540.0)
+    assert l.aperture.diameter == 25.4
 
     # No effect
     l.to_metric()
-    assert_equal(l.start, (2.54, 25.4))
-    assert_equal(l.end, (254.0, 2540.0))
-    assert_equal(l.aperture.diameter, 25.4)
+    assert l.start == (2.54, 25.4)
+    assert l.end == (254.0, 2540.0)
+    assert l.aperture.diameter == 25.4
 
-    r = Rectangle((0, 0), 25.4, 254.0, units='metric')
-    l = Line((2.54, 25.4), (254.0, 2540.0), r, units='metric')
+    r = Rectangle((0, 0), 25.4, 254.0, units="metric")
+    l = Line((2.54, 25.4), (254.0, 2540.0), r, units="metric")
     l.to_inch()
-    assert_equal(l.start, (0.1, 1.0))
-    assert_equal(l.end, (10.0, 100.0))
-    assert_equal(l.aperture.width, 1.0)
-    assert_equal(l.aperture.height, 10.0)
+    assert l.start == (0.1, 1.0)
+    assert l.end == (10.0, 100.0)
+    assert l.aperture.width == 1.0
+    assert l.aperture.height == 10.0
 
-    r = Rectangle((0, 0), 1.0, 10.0, units='inch')
-    l = Line((0.1, 1.0), (10.0, 100.0), r, units='inch')
+    r = Rectangle((0, 0), 1.0, 10.0, units="inch")
+    l = Line((0.1, 1.0), (10.0, 100.0), r, units="inch")
     l.to_metric()
-    assert_equal(l.start, (2.54, 25.4))
-    assert_equal(l.end, (254.0, 2540.0))
-    assert_equal(l.aperture.width, 25.4)
-    assert_equal(l.aperture.height, 254.0)
+    assert l.start == (2.54, 25.4)
+    assert l.end == (254.0, 2540.0)
+    assert l.aperture.width == 25.4
+    assert l.aperture.height == 254.0
 
 
 def test_line_offset():
     c = Circle((0, 0), 1)
     l = Line((0, 0), (1, 1), c)
     l.offset(1, 0)
-    assert_equal(l.start, (1., 0.))
-    assert_equal(l.end, (2., 1.))
+    assert l.start == (1.0, 0.0)
+    assert l.end == (2.0, 1.0)
     l.offset(0, 1)
-    assert_equal(l.start, (1., 1.))
-    assert_equal(l.end, (2., 2.))
+    assert l.start == (1.0, 1.0)
+    assert l.end == (2.0, 2.0)
 
 
 def test_arc_radius():
     """ Test Arc primitive radius calculation
     """
-    cases = [((-3, 4), (5, 0), (0, 0), 5),
-             ((0, 1), (1, 0), (0, 0), 1), ]
+    cases = [((-3, 4), (5, 0), (0, 0), 5), ((0, 1), (1, 0), (0, 0), 1)]
 
     for start, end, center, radius in cases:
-        a = Arc(start, end, center, 'clockwise', 0, 'single-quadrant')
-        assert_equal(a.radius, radius)
+        a = Arc(start, end, center, "clockwise", 0, "single-quadrant")
+        assert a.radius == radius
 
 
 def test_arc_sweep_angle():
     """ Test Arc primitive sweep angle calculation
     """
-    cases = [((1, 0), (0, 1), (0, 0), 'counterclockwise', math.radians(90)),
-             ((1, 0), (0, 1), (0, 0), 'clockwise', math.radians(270)),
-             ((1, 0), (-1, 0), (0, 0), 'clockwise', math.radians(180)),
-             ((1, 0), (-1, 0), (0, 0), 'counterclockwise', math.radians(180)), ]
+    cases = [
+        ((1, 0), (0, 1), (0, 0), "counterclockwise", math.radians(90)),
+        ((1, 0), (0, 1), (0, 0), "clockwise", math.radians(270)),
+        ((1, 0), (-1, 0), (0, 0), "clockwise", math.radians(180)),
+        ((1, 0), (-1, 0), (0, 0), "counterclockwise", math.radians(180)),
+    ]
 
     for start, end, center, direction, sweep in cases:
-        c = Circle((0,0), 1)
-        a = Arc(start, end, center, direction, c, 'single-quadrant')
-        assert_equal(a.sweep_angle, sweep)
+        c = Circle((0, 0), 1)
+        a = Arc(start, end, center, direction, c, "single-quadrant")
+        assert a.sweep_angle == sweep
 
 
 def test_arc_bounds():
     """ Test Arc primitive bounding box calculation
     """
     cases = [
-        ((1, 0), (0, 1), (0, 0), 'clockwise', ((-1.5, 1.5), (-1.5, 1.5))),
-        ((1, 0), (0, 1), (0, 0), 'counterclockwise',((-0.5, 1.5), (-0.5, 1.5))),
-
-        ((0, 1), (-1, 0), (0, 0), 'clockwise', ((-1.5, 1.5), (-1.5, 1.5))),
-        ((0, 1), (-1, 0), (0, 0), 'counterclockwise', ((-1.5, 0.5), (-0.5, 1.5))),
-
-        ((-1, 0), (0, -1), (0, 0), 'clockwise', ((-1.5, 1.5), (-1.5, 1.5))),
-        ((-1, 0), (0, -1), (0, 0), 'counterclockwise', ((-1.5, 0.5), (-1.5, 0.5))),
-
-        ((0, -1), (1, 0), (0, 0), 'clockwise', ((-1.5, 1.5), (-1.5, 1.5))),
-        ((0, -1), (1, 0), (0, 0), 'counterclockwise',((-0.5, 1.5), (-1.5, 0.5))),
-
+        ((1, 0), (0, 1), (0, 0), "clockwise", ((-1.5, 1.5), (-1.5, 1.5))),
+        ((1, 0), (0, 1), (0, 0), "counterclockwise", ((-0.5, 1.5), (-0.5, 1.5))),
+        ((0, 1), (-1, 0), (0, 0), "clockwise", ((-1.5, 1.5), (-1.5, 1.5))),
+        ((0, 1), (-1, 0), (0, 0), "counterclockwise", ((-1.5, 0.5), (-0.5, 1.5))),
+        ((-1, 0), (0, -1), (0, 0), "clockwise", ((-1.5, 1.5), (-1.5, 1.5))),
+        ((-1, 0), (0, -1), (0, 0), "counterclockwise", ((-1.5, 0.5), (-1.5, 0.5))),
+        ((0, -1), (1, 0), (0, 0), "clockwise", ((-1.5, 1.5), (-1.5, 1.5))),
+        ((0, -1), (1, 0), (0, 0), "counterclockwise", ((-0.5, 1.5), (-1.5, 0.5))),
         # Arcs with the same start and end point render a full circle
-        ((1, 0), (1, 0), (0, 0), 'clockwise', ((-1.5, 1.5), (-1.5, 1.5))),
-        ((1, 0), (1, 0), (0, 0), 'counterclockwise', ((-1.5, 1.5), (-1.5, 1.5))),
+        ((1, 0), (1, 0), (0, 0), "clockwise", ((-1.5, 1.5), (-1.5, 1.5))),
+        ((1, 0), (1, 0), (0, 0), "counterclockwise", ((-1.5, 1.5), (-1.5, 1.5))),
     ]
     for start, end, center, direction, bounds in cases:
-        c = Circle((0,0), 1)
-        a = Arc(start, end, center, direction, c, 'multi-quadrant')
-        assert_equal(a.bounding_box, bounds)
+        c = Circle((0, 0), 1)
+        a = Arc(start, end, center, direction, c, "multi-quadrant")
+        assert a.bounding_box == bounds
+
 
 def test_arc_bounds_no_aperture():
     """ Test Arc primitive bounding box calculation ignoring aperture
     """
     cases = [
-        ((1, 0), (0, 1), (0, 0), 'clockwise', ((-1.0, 1.0), (-1.0, 1.0))),
-        ((1, 0), (0, 1), (0, 0), 'counterclockwise',((0.0, 1.0), (0.0, 1.0))),
-
-        ((0, 1), (-1, 0), (0, 0), 'clockwise', ((-1.0, 1.0), (-1.0, 1.0))),
-        ((0, 1), (-1, 0), (0, 0), 'counterclockwise', ((-1.0, 0.0), (0.0, 1.0))),
-
-        ((-1, 0), (0, -1), (0, 0), 'clockwise', ((-1.0, 1.0), (-1.0, 1.0))),
-        ((-1, 0), (0, -1), (0, 0), 'counterclockwise', ((-1.0, 0.0), (-1.0, 0.0))),
-
-        ((0, -1), (1, 0), (0, 0), 'clockwise', ((-1.0, 1.0), (-1.0, 1.0))),
-        ((0, -1), (1, 0), (0, 0), 'counterclockwise',((-0.0, 1.0), (-1.0, 0.0))),
-
+        ((1, 0), (0, 1), (0, 0), "clockwise", ((-1.0, 1.0), (-1.0, 1.0))),
+        ((1, 0), (0, 1), (0, 0), "counterclockwise", ((0.0, 1.0), (0.0, 1.0))),
+        ((0, 1), (-1, 0), (0, 0), "clockwise", ((-1.0, 1.0), (-1.0, 1.0))),
+        ((0, 1), (-1, 0), (0, 0), "counterclockwise", ((-1.0, 0.0), (0.0, 1.0))),
+        ((-1, 0), (0, -1), (0, 0), "clockwise", ((-1.0, 1.0), (-1.0, 1.0))),
+        ((-1, 0), (0, -1), (0, 0), "counterclockwise", ((-1.0, 0.0), (-1.0, 0.0))),
+        ((0, -1), (1, 0), (0, 0), "clockwise", ((-1.0, 1.0), (-1.0, 1.0))),
+        ((0, -1), (1, 0), (0, 0), "counterclockwise", ((-0.0, 1.0), (-1.0, 0.0))),
         # Arcs with the same start and end point render a full circle
-        ((1, 0), (1, 0), (0, 0), 'clockwise', ((-1.0, 1.0), (-1.0, 1.0))),
-        ((1, 0), (1, 0), (0, 0), 'counterclockwise', ((-1.0, 1.0), (-1.0, 1.0))),
+        ((1, 0), (1, 0), (0, 0), "clockwise", ((-1.0, 1.0), (-1.0, 1.0))),
+        ((1, 0), (1, 0), (0, 0), "counterclockwise", ((-1.0, 1.0), (-1.0, 1.0))),
     ]
     for start, end, center, direction, bounds in cases:
-        c = Circle((0,0), 1)
-        a = Arc(start, end, center, direction, c, 'multi-quadrant')
-        assert_equal(a.bounding_box_no_aperture, bounds)
+        c = Circle((0, 0), 1)
+        a = Arc(start, end, center, direction, c, "multi-quadrant")
+        assert a.bounding_box_no_aperture == bounds
 
 
 def test_arc_conversion():
-    c = Circle((0, 0), 25.4, units='metric')
-    a = Arc((2.54, 25.4), (254.0, 2540.0), (25400.0, 254000.0),
-            'clockwise', c, 'single-quadrant', units='metric')
+    c = Circle((0, 0), 25.4, units="metric")
+    a = Arc(
+        (2.54, 25.4),
+        (254.0, 2540.0),
+        (25400.0, 254000.0),
+        "clockwise",
+        c,
+        "single-quadrant",
+        units="metric",
+    )
 
     # No effect
     a.to_metric()
-    assert_equal(a.start, (2.54, 25.4))
-    assert_equal(a.end, (254.0, 2540.0))
-    assert_equal(a.center, (25400.0, 254000.0))
-    assert_equal(a.aperture.diameter, 25.4)
+    assert a.start == (2.54, 25.4)
+    assert a.end == (254.0, 2540.0)
+    assert a.center == (25400.0, 254000.0)
+    assert a.aperture.diameter == 25.4
 
     a.to_inch()
-    assert_equal(a.start, (0.1, 1.0))
-    assert_equal(a.end, (10.0, 100.0))
-    assert_equal(a.center, (1000.0, 10000.0))
-    assert_equal(a.aperture.diameter, 1.0)
+    assert a.start == (0.1, 1.0)
+    assert a.end == (10.0, 100.0)
+    assert a.center == (1000.0, 10000.0)
+    assert a.aperture.diameter == 1.0
 
     # no effect
     a.to_inch()
-    assert_equal(a.start, (0.1, 1.0))
-    assert_equal(a.end, (10.0, 100.0))
-    assert_equal(a.center, (1000.0, 10000.0))
-    assert_equal(a.aperture.diameter, 1.0)
-
-    c = Circle((0, 0), 1.0, units='inch')
-    a = Arc((0.1, 1.0), (10.0, 100.0), (1000.0, 10000.0),
-            'clockwise', c, 'single-quadrant', units='inch')
+    assert a.start == (0.1, 1.0)
+    assert a.end == (10.0, 100.0)
+    assert a.center == (1000.0, 10000.0)
+    assert a.aperture.diameter == 1.0
+
+    c = Circle((0, 0), 1.0, units="inch")
+    a = Arc(
+        (0.1, 1.0),
+        (10.0, 100.0),
+        (1000.0, 10000.0),
+        "clockwise",
+        c,
+        "single-quadrant",
+        units="inch",
+    )
     a.to_metric()
-    assert_equal(a.start, (2.54, 25.4))
-    assert_equal(a.end, (254.0, 2540.0))
-    assert_equal(a.center, (25400.0, 254000.0))
-    assert_equal(a.aperture.diameter, 25.4)
+    assert a.start == (2.54, 25.4)
+    assert a.end == (254.0, 2540.0)
+    assert a.center == (25400.0, 254000.0)
+    assert a.aperture.diameter == 25.4
 
 
 def test_arc_offset():
     c = Circle((0, 0), 1)
-    a = Arc((0, 0), (1, 1), (2, 2), 'clockwise', c, 'single-quadrant')
+    a = Arc((0, 0), (1, 1), (2, 2), "clockwise", c, "single-quadrant")
     a.offset(1, 0)
-    assert_equal(a.start, (1., 0.))
-    assert_equal(a.end, (2., 1.))
-    assert_equal(a.center, (3., 2.))
+    assert a.start == (1.0, 0.0)
+    assert a.end == (2.0, 1.0)
+    assert a.center == (3.0, 2.0)
     a.offset(0, 1)
-    assert_equal(a.start, (1., 1.))
-    assert_equal(a.end, (2., 2.))
-    assert_equal(a.center, (3., 3.))
+    assert a.start == (1.0, 1.0)
+    assert a.end == (2.0, 2.0)
+    assert a.center == (3.0, 3.0)
 
 
 def test_circle_radius():
     """ Test Circle primitive radius calculation
     """
     c = Circle((1, 1), 2)
-    assert_equal(c.radius, 1)
+    assert c.radius == 1
 
 
 def test_circle_hole_radius():
     """ Test Circle primitive hole radius calculation
     """
     c = Circle((1, 1), 4, 2)
-    assert_equal(c.hole_radius, 1)
+    assert c.hole_radius == 1
 
 
 def test_circle_bounds():
     """ Test Circle bounding box calculation
     """
     c = Circle((1, 1), 2)
-    assert_equal(c.bounding_box, ((0, 2), (0, 2)))
+    assert c.bounding_box == ((0, 2), (0, 2))
 
 
 def test_circle_conversion():
     """Circle conversion of units"""
     # Circle initially metric, no hole
-    c = Circle((2.54, 25.4), 254.0, units='metric')
+    c = Circle((2.54, 25.4), 254.0, units="metric")
 
     c.to_metric()  # shouldn't do antyhing
-    assert_equal(c.position, (2.54, 25.4))
-    assert_equal(c.diameter, 254.)
-    assert_equal(c.hole_diameter, None)
+    assert c.position == (2.54, 25.4)
+    assert c.diameter == 254.0
+    assert c.hole_diameter == None
 
     c.to_inch()
-    assert_equal(c.position, (0.1, 1.))
-    assert_equal(c.diameter, 10.)
-    assert_equal(c.hole_diameter, None)
+    assert c.position == (0.1, 1.0)
+    assert c.diameter == 10.0
+    assert c.hole_diameter == None
 
     # no effect
     c.to_inch()
-    assert_equal(c.position, (0.1, 1.))
-    assert_equal(c.diameter, 10.)
-    assert_equal(c.hole_diameter, None)
+    assert c.position == (0.1, 1.0)
+    assert c.diameter == 10.0
+    assert c.hole_diameter == None
 
     # Circle initially metric, with hole
-    c = Circle((2.54, 25.4), 254.0, 127.0, units='metric')
+    c = Circle((2.54, 25.4), 254.0, 127.0, units="metric")
 
-    c.to_metric()   #shouldn't do antyhing
-    assert_equal(c.position, (2.54, 25.4))
-    assert_equal(c.diameter, 254.)
-    assert_equal(c.hole_diameter, 127.)
+    c.to_metric()  # shouldn't do antyhing
+    assert c.position == (2.54, 25.4)
+    assert c.diameter == 254.0
+    assert c.hole_diameter == 127.0
 
     c.to_inch()
-    assert_equal(c.position, (0.1, 1.))
-    assert_equal(c.diameter, 10.)
-    assert_equal(c.hole_diameter, 5.)
+    assert c.position == (0.1, 1.0)
+    assert c.diameter == 10.0
+    assert c.hole_diameter == 5.0
 
     # no effect
     c.to_inch()
-    assert_equal(c.position, (0.1, 1.))
-    assert_equal(c.diameter, 10.)
-    assert_equal(c.hole_diameter, 5.)
+    assert c.position == (0.1, 1.0)
+    assert c.diameter == 10.0
+    assert c.hole_diameter == 5.0
 
     # Circle initially inch, no hole
-    c = Circle((0.1, 1.0), 10.0, units='inch')
+    c = Circle((0.1, 1.0), 10.0, units="inch")
     # No effect
     c.to_inch()
-    assert_equal(c.position, (0.1, 1.))
-    assert_equal(c.diameter, 10.)
-    assert_equal(c.hole_diameter, None)
+    assert c.position == (0.1, 1.0)
+    assert c.diameter == 10.0
+    assert c.hole_diameter == None
 
     c.to_metric()
-    assert_equal(c.position, (2.54, 25.4))
-    assert_equal(c.diameter, 254.)
-    assert_equal(c.hole_diameter, None)
+    assert c.position == (2.54, 25.4)
+    assert c.diameter == 254.0
+    assert c.hole_diameter == None
 
     # no effect
     c.to_metric()
-    assert_equal(c.position, (2.54, 25.4))
-    assert_equal(c.diameter, 254.)
-    assert_equal(c.hole_diameter, None)
+    assert c.position == (2.54, 25.4)
+    assert c.diameter == 254.0
+    assert c.hole_diameter == None
 
-    c = Circle((0.1, 1.0), 10.0, 5.0, units='inch')
-    #No effect
+    c = Circle((0.1, 1.0), 10.0, 5.0, units="inch")
+    # No effect
     c.to_inch()
-    assert_equal(c.position, (0.1, 1.))
-    assert_equal(c.diameter, 10.)
-    assert_equal(c.hole_diameter, 5.)
+    assert c.position == (0.1, 1.0)
+    assert c.diameter == 10.0
+    assert c.hole_diameter == 5.0
 
     c.to_metric()
-    assert_equal(c.position, (2.54, 25.4))
-    assert_equal(c.diameter, 254.)
-    assert_equal(c.hole_diameter, 127.)
+    assert c.position == (2.54, 25.4)
+    assert c.diameter == 254.0
+    assert c.hole_diameter == 127.0
 
     # no effect
     c.to_metric()
-    assert_equal(c.position, (2.54, 25.4))
-    assert_equal(c.diameter, 254.)
-    assert_equal(c.hole_diameter, 127.)
+    assert c.position == (2.54, 25.4)
+    assert c.diameter == 254.0
+    assert c.hole_diameter == 127.0
 
 
 def test_circle_offset():
     c = Circle((0, 0), 1)
     c.offset(1, 0)
-    assert_equal(c.position, (1., 0.))
+    assert c.position == (1.0, 0.0)
     c.offset(0, 1)
-    assert_equal(c.position, (1., 1.))
+    assert c.position == (1.0, 1.0)
 
 
 def test_ellipse_ctor():
     """ Test ellipse creation
     """
     e = Ellipse((2, 2), 3, 2)
-    assert_equal(e.position, (2, 2))
-    assert_equal(e.width, 3)
-    assert_equal(e.height, 2)
+    assert e.position == (2, 2)
+    assert e.width == 3
+    assert e.height == 2
 
 
 def test_ellipse_bounds():
     """ Test ellipse bounding box calculation
     """
     e = Ellipse((2, 2), 4, 2)
-    assert_equal(e.bounding_box, ((0, 4), (1, 3)))
+    assert e.bounding_box == ((0, 4), (1, 3))
     e = Ellipse((2, 2), 4, 2, rotation=90)
-    assert_equal(e.bounding_box, ((1, 3), (0, 4)))
+    assert e.bounding_box == ((1, 3), (0, 4))
     e = Ellipse((2, 2), 4, 2, rotation=180)
-    assert_equal(e.bounding_box, ((0, 4), (1, 3)))
+    assert e.bounding_box == ((0, 4), (1, 3))
     e = Ellipse((2, 2), 4, 2, rotation=270)
-    assert_equal(e.bounding_box, ((1, 3), (0, 4)))
+    assert e.bounding_box == ((1, 3), (0, 4))
 
 
 def test_ellipse_conversion():
-    e = Ellipse((2.54, 25.4), 254.0, 2540., units='metric')
+    e = Ellipse((2.54, 25.4), 254.0, 2540.0, units="metric")
 
     # No effect
     e.to_metric()
-    assert_equal(e.position, (2.54, 25.4))
-    assert_equal(e.width, 254.)
-    assert_equal(e.height, 2540.)
+    assert e.position == (2.54, 25.4)
+    assert e.width == 254.0
+    assert e.height == 2540.0
 
     e.to_inch()
-    assert_equal(e.position, (0.1, 1.))
-    assert_equal(e.width, 10.)
-    assert_equal(e.height, 100.)
+    assert e.position == (0.1, 1.0)
+    assert e.width == 10.0
+    assert e.height == 100.0
 
     # No effect
     e.to_inch()
-    assert_equal(e.position, (0.1, 1.))
-    assert_equal(e.width, 10.)
-    assert_equal(e.height, 100.)
+    assert e.position == (0.1, 1.0)
+    assert e.width == 10.0
+    assert e.height == 100.0
 
-    e = Ellipse((0.1, 1.), 10.0, 100., units='inch')
+    e = Ellipse((0.1, 1.0), 10.0, 100.0, units="inch")
 
     # no effect
     e.to_inch()
-    assert_equal(e.position, (0.1, 1.))
-    assert_equal(e.width, 10.)
-    assert_equal(e.height, 100.)
+    assert e.position == (0.1, 1.0)
+    assert e.width == 10.0
+    assert e.height == 100.0
 
     e.to_metric()
-    assert_equal(e.position, (2.54, 25.4))
-    assert_equal(e.width, 254.)
-    assert_equal(e.height, 2540.)
+    assert e.position == (2.54, 25.4)
+    assert e.width == 254.0
+    assert e.height == 2540.0
 
     # No effect
     e.to_metric()
-    assert_equal(e.position, (2.54, 25.4))
-    assert_equal(e.width, 254.)
-    assert_equal(e.height, 2540.)
+    assert e.position == (2.54, 25.4)
+    assert e.width == 254.0
+    assert e.height == 2540.0
 
 
 def test_ellipse_offset():
     e = Ellipse((0, 0), 1, 2)
     e.offset(1, 0)
-    assert_equal(e.position, (1., 0.))
+    assert e.position == (1.0, 0.0)
     e.offset(0, 1)
-    assert_equal(e.position, (1., 1.))
+    assert e.position == (1.0, 1.0)
 
 
 def test_rectangle_ctor():
@@ -471,19 +482,19 @@ def test_rectangle_ctor():
     test_cases = (((0, 0), 1, 1), ((0, 0), 1, 2), ((1, 1), 1, 2))
     for pos, width, height in test_cases:
         r = Rectangle(pos, width, height)
-        assert_equal(r.position, pos)
-        assert_equal(r.width, width)
-        assert_equal(r.height, height)
+        assert r.position == pos
+        assert r.width == width
+        assert r.height == height
 
 
 def test_rectangle_hole_radius():
     """ Test rectangle hole diameter calculation
     """
-    r = Rectangle((0,0), 2, 2)
-    assert_equal(0, r.hole_radius)
+    r = Rectangle((0, 0), 2, 2)
+    assert 0 == r.hole_radius
 
-    r = Rectangle((0,0), 2, 2, 1)
-    assert_equal(0.5, r.hole_radius)
+    r = Rectangle((0, 0), 2, 2, 1)
+    assert 0.5 == r.hole_radius
 
 
 def test_rectangle_bounds():
@@ -491,126 +502,137 @@ def test_rectangle_bounds():
     """
     r = Rectangle((0, 0), 2, 2)
     xbounds, ybounds = r.bounding_box
-    assert_array_almost_equal(xbounds, (-1, 1))
-    assert_array_almost_equal(ybounds, (-1, 1))
+    pytest.approx(xbounds, (-1, 1))
+    pytest.approx(ybounds, (-1, 1))
     r = Rectangle((0, 0), 2, 2, rotation=45)
     xbounds, ybounds = r.bounding_box
-    assert_array_almost_equal(xbounds, (-math.sqrt(2), math.sqrt(2)))
-    assert_array_almost_equal(ybounds, (-math.sqrt(2), math.sqrt(2)))
+    pytest.approx(xbounds, (-math.sqrt(2), math.sqrt(2)))
+    pytest.approx(ybounds, (-math.sqrt(2), math.sqrt(2)))
+
 
 def test_rectangle_vertices():
     sqrt2 = math.sqrt(2.0)
     TEST_VECTORS = [
         ((0, 0), 2.0, 2.0, 0.0, ((-1.0, -1.0), (-1.0, 1.0), (1.0, 1.0), (1.0, -1.0))),
         ((0, 0), 2.0, 3.0, 0.0, ((-1.0, -1.5), (-1.0, 1.5), (1.0, 1.5), (1.0, -1.5))),
-        ((0, 0), 2.0, 2.0, 90.0,((-1.0, -1.0), (-1.0, 1.0), (1.0, 1.0), (1.0, -1.0))),
-        ((0, 0), 3.0, 2.0, 90.0,((-1.0, -1.5), (-1.0, 1.5), (1.0, 1.5), (1.0, -1.5))),
-        ((0, 0), 2.0, 2.0, 45.0,((-sqrt2, 0.0), (0.0, sqrt2), (sqrt2, 0), (0, -sqrt2))),
+        ((0, 0), 2.0, 2.0, 90.0, ((-1.0, -1.0), (-1.0, 1.0), (1.0, 1.0), (1.0, -1.0))),
+        ((0, 0), 3.0, 2.0, 90.0, ((-1.0, -1.5), (-1.0, 1.5), (1.0, 1.5), (1.0, -1.5))),
+        (
+            (0, 0),
+            2.0,
+            2.0,
+            45.0,
+            ((-sqrt2, 0.0), (0.0, sqrt2), (sqrt2, 0), (0, -sqrt2)),
+        ),
     ]
     for pos, width, height, rotation, expected in TEST_VECTORS:
         r = Rectangle(pos, width, height, rotation=rotation)
         for test, expect in zip(sorted(r.vertices), sorted(expected)):
-            assert_array_almost_equal(test, expect)
+            pytest.approx(test, expect)
 
     r = Rectangle((0, 0), 2.0, 2.0, rotation=0.0)
     r.rotation = 45.0
-    for test, expect in zip(sorted(r.vertices), sorted(((-sqrt2, 0.0), (0.0, sqrt2), (sqrt2, 0), (0, -sqrt2)))):
-        assert_array_almost_equal(test, expect)
+    for test, expect in zip(
+        sorted(r.vertices),
+        sorted(((-sqrt2, 0.0), (0.0, sqrt2), (sqrt2, 0), (0, -sqrt2))),
+    ):
+        pytest.approx(test, expect)
+
 
 def test_rectangle_segments():
 
     r = Rectangle((0, 0), 2.0, 2.0)
     expected = [vtx for segment in r.segments for vtx in segment]
     for vertex in r.vertices:
-        assert_in(vertex, expected)
+        assert vertex in expected
 
 
 def test_rectangle_conversion():
     """Test converting rectangles between units"""
 
     # Initially metric no hole
-    r = Rectangle((2.54, 25.4), 254.0, 2540.0, units='metric')
+    r = Rectangle((2.54, 25.4), 254.0, 2540.0, units="metric")
 
     r.to_metric()
-    assert_equal(r.position, (2.54, 25.4))
-    assert_equal(r.width, 254.0)
-    assert_equal(r.height, 2540.0)
+    assert r.position == (2.54, 25.4)
+    assert r.width == 254.0
+    assert r.height == 2540.0
 
     r.to_inch()
-    assert_equal(r.position, (0.1, 1.0))
-    assert_equal(r.width, 10.0)
-    assert_equal(r.height, 100.0)
+    assert r.position == (0.1, 1.0)
+    assert r.width == 10.0
+    assert r.height == 100.0
 
     r.to_inch()
-    assert_equal(r.position, (0.1, 1.0))
-    assert_equal(r.width, 10.0)
-    assert_equal(r.height, 100.0)
+    assert r.position == (0.1, 1.0)
+    assert r.width == 10.0
+    assert r.height == 100.0
 
     # Initially metric with hole
-    r = Rectangle((2.54, 25.4), 254.0, 2540.0, 127.0, units='metric')
+    r = Rectangle((2.54, 25.4), 254.0, 2540.0, 127.0, units="metric")
 
     r.to_metric()
-    assert_equal(r.position, (2.54,25.4))
-    assert_equal(r.width, 254.0)
-    assert_equal(r.height, 2540.0)
-    assert_equal(r.hole_diameter, 127.0)
+    assert r.position == (2.54, 25.4)
+    assert r.width == 254.0
+    assert r.height == 2540.0
+    assert r.hole_diameter == 127.0
 
     r.to_inch()
-    assert_equal(r.position, (0.1, 1.0))
-    assert_equal(r.width, 10.0)
-    assert_equal(r.height, 100.0)
-    assert_equal(r.hole_diameter, 5.0)
+    assert r.position == (0.1, 1.0)
+    assert r.width == 10.0
+    assert r.height == 100.0
+    assert r.hole_diameter == 5.0
 
     r.to_inch()
-    assert_equal(r.position, (0.1, 1.0))
-    assert_equal(r.width, 10.0)
-    assert_equal(r.height, 100.0)
-    assert_equal(r.hole_diameter, 5.0)
+    assert r.position == (0.1, 1.0)
+    assert r.width == 10.0
+    assert r.height == 100.0
+    assert r.hole_diameter == 5.0
 
     # Initially inch, no hole
-    r = Rectangle((0.1, 1.0), 10.0, 100.0, units='inch')
+    r = Rectangle((0.1, 1.0), 10.0, 100.0, units="inch")
     r.to_inch()
-    assert_equal(r.position, (0.1, 1.0))
-    assert_equal(r.width, 10.0)
-    assert_equal(r.height, 100.0)
+    assert r.position == (0.1, 1.0)
+    assert r.width == 10.0
+    assert r.height == 100.0
 
     r.to_metric()
-    assert_equal(r.position, (2.54, 25.4))
-    assert_equal(r.width, 254.0)
-    assert_equal(r.height, 2540.0)
+    assert r.position == (2.54, 25.4)
+    assert r.width == 254.0
+    assert r.height == 2540.0
 
     r.to_metric()
-    assert_equal(r.position, (2.54, 25.4))
-    assert_equal(r.width, 254.0)
-    assert_equal(r.height, 2540.0)
+    assert r.position == (2.54, 25.4)
+    assert r.width == 254.0
+    assert r.height == 2540.0
 
     # Initially inch with hole
-    r = Rectangle((0.1, 1.0), 10.0, 100.0, 5.0, units='inch')
+    r = Rectangle((0.1, 1.0), 10.0, 100.0, 5.0, units="inch")
     r.to_inch()
-    assert_equal(r.position, (0.1, 1.0))
-    assert_equal(r.width, 10.0)
-    assert_equal(r.height, 100.0)
-    assert_equal(r.hole_diameter, 5.0)
+    assert r.position == (0.1, 1.0)
+    assert r.width == 10.0
+    assert r.height == 100.0
+    assert r.hole_diameter == 5.0
 
     r.to_metric()
-    assert_equal(r.position, (2.54,25.4))
-    assert_equal(r.width, 254.0)
-    assert_equal(r.height, 2540.0)
-    assert_equal(r.hole_diameter, 127.0)
+    assert r.position == (2.54, 25.4)
+    assert r.width == 254.0
+    assert r.height == 2540.0
+    assert r.hole_diameter == 127.0
 
     r.to_metric()
-    assert_equal(r.position, (2.54, 25.4))
-    assert_equal(r.width, 254.0)
-    assert_equal(r.height, 2540.0)
-    assert_equal(r.hole_diameter, 127.0)
+    assert r.position == (2.54, 25.4)
+    assert r.width == 254.0
+    assert r.height == 2540.0
+    assert r.hole_diameter == 127.0
 
 
 def test_rectangle_offset():
     r = Rectangle((0, 0), 1, 2)
     r.offset(1, 0)
-    assert_equal(r.position, (1., 0.))
+    assert r.position == (1.0, 0.0)
     r.offset(0, 1)
-    assert_equal(r.position, (1., 1.))
+    assert r.position == (1.0, 1.0)
 
 
 def test_diamond_ctor():
@@ -619,9 +641,9 @@ def test_diamond_ctor():
     test_cases = (((0, 0), 1, 1), ((0, 0), 1, 2), ((1, 1), 1, 2))
     for pos, width, height in test_cases:
         d = Diamond(pos, width, height)
-        assert_equal(d.position, pos)
-        assert_equal(d.width, width)
-        assert_equal(d.height, height)
+        assert d.position == pos
+        assert d.width == width
+        assert d.height == height
 
 
 def test_diamond_bounds():
@@ -629,71 +651,73 @@ def test_diamond_bounds():
     """
     d = Diamond((0, 0), 2, 2)
     xbounds, ybounds = d.bounding_box
-    assert_array_almost_equal(xbounds, (-1, 1))
-    assert_array_almost_equal(ybounds, (-1, 1))
+    pytest.approx(xbounds, (-1, 1))
+    pytest.approx(ybounds, (-1, 1))
     d = Diamond((0, 0), math.sqrt(2), math.sqrt(2), rotation=45)
     xbounds, ybounds = d.bounding_box
-    assert_array_almost_equal(xbounds, (-1, 1))
-    assert_array_almost_equal(ybounds, (-1, 1))
+    pytest.approx(xbounds, (-1, 1))
+    pytest.approx(ybounds, (-1, 1))
 
 
 def test_diamond_conversion():
-    d = Diamond((2.54, 25.4), 254.0, 2540.0, units='metric')
+    d = Diamond((2.54, 25.4), 254.0, 2540.0, units="metric")
 
     d.to_metric()
-    assert_equal(d.position, (2.54, 25.4))
-    assert_equal(d.width, 254.0)
-    assert_equal(d.height, 2540.0)
+    assert d.position == (2.54, 25.4)
+    assert d.width == 254.0
+    assert d.height == 2540.0
 
     d.to_inch()
-    assert_equal(d.position, (0.1, 1.0))
-    assert_equal(d.width, 10.0)
-    assert_equal(d.height, 100.0)
+    assert d.position == (0.1, 1.0)
+    assert d.width == 10.0
+    assert d.height == 100.0
 
     d.to_inch()
-    assert_equal(d.position, (0.1, 1.0))
-    assert_equal(d.width, 10.0)
-    assert_equal(d.height, 100.0)
+    assert d.position == (0.1, 1.0)
+    assert d.width == 10.0
+    assert d.height == 100.0
 
-    d = Diamond((0.1, 1.0), 10.0, 100.0, units='inch')
+    d = Diamond((0.1, 1.0), 10.0, 100.0, units="inch")
 
     d.to_inch()
-    assert_equal(d.position, (0.1, 1.0))
-    assert_equal(d.width, 10.0)
-    assert_equal(d.height, 100.0)
+    assert d.position == (0.1, 1.0)
+    assert d.width == 10.0
+    assert d.height == 100.0
 
     d.to_metric()
-    assert_equal(d.position, (2.54, 25.4))
-    assert_equal(d.width, 254.0)
-    assert_equal(d.height, 2540.0)
+    assert d.position == (2.54, 25.4)
+    assert d.width == 254.0
+    assert d.height == 2540.0
 
     d.to_metric()
-    assert_equal(d.position, (2.54, 25.4))
-    assert_equal(d.width, 254.0)
-    assert_equal(d.height, 2540.0)
+    assert d.position == (2.54, 25.4)
+    assert d.width == 254.0
+    assert d.height == 2540.0
 
 
 def test_diamond_offset():
     d = Diamond((0, 0), 1, 2)
     d.offset(1, 0)
-    assert_equal(d.position, (1., 0.))
+    assert d.position == (1.0, 0.0)
     d.offset(0, 1)
-    assert_equal(d.position, (1., 1.))
+    assert d.position == (1.0, 1.0)
 
 
 def test_chamfer_rectangle_ctor():
     """ Test chamfer rectangle creation
     """
-    test_cases = (((0, 0), 1, 1, 0.2, (True, True, False, False)),
-                  ((0, 0), 1, 2, 0.3, (True, True, True, True)),
-                  ((1, 1), 1, 2, 0.4, (False, False, False, False)))
+    test_cases = (
+        ((0, 0), 1, 1, 0.2, (True, True, False, False)),
+        ((0, 0), 1, 2, 0.3, (True, True, True, True)),
+        ((1, 1), 1, 2, 0.4, (False, False, False, False)),
+    )
     for pos, width, height, chamfer, corners in test_cases:
         r = ChamferRectangle(pos, width, height, chamfer, corners)
-        assert_equal(r.position, pos)
-        assert_equal(r.width, width)
-        assert_equal(r.height, height)
-        assert_equal(r.chamfer, chamfer)
-        assert_array_almost_equal(r.corners, corners)
+        assert r.position == pos
+        assert r.width == width
+        assert r.height == height
+        assert r.chamfer == chamfer
+        pytest.approx(r.corners, corners)
 
 
 def test_chamfer_rectangle_bounds():
@@ -701,91 +725,124 @@ def test_chamfer_rectangle_bounds():
     """
     r = ChamferRectangle((0, 0), 2, 2, 0.2, (True, True, False, False))
     xbounds, ybounds = r.bounding_box
-    assert_array_almost_equal(xbounds, (-1, 1))
-    assert_array_almost_equal(ybounds, (-1, 1))
-    r = ChamferRectangle(
-        (0, 0), 2, 2, 0.2, (True, True, False, False), rotation=45)
+    pytest.approx(xbounds, (-1, 1))
+    pytest.approx(ybounds, (-1, 1))
+    r = ChamferRectangle((0, 0), 2, 2, 0.2, (True, True, False, False), rotation=45)
     xbounds, ybounds = r.bounding_box
-    assert_array_almost_equal(xbounds, (-math.sqrt(2), math.sqrt(2)))
-    assert_array_almost_equal(ybounds, (-math.sqrt(2), math.sqrt(2)))
+    pytest.approx(xbounds, (-math.sqrt(2), math.sqrt(2)))
+    pytest.approx(ybounds, (-math.sqrt(2), math.sqrt(2)))
 
 
 def test_chamfer_rectangle_conversion():
-    r = ChamferRectangle((2.54, 25.4), 254.0, 2540.0, 0.254,
-                         (True, True, False, False), units='metric')
+    r = ChamferRectangle(
+        (2.54, 25.4), 254.0, 2540.0, 0.254, (True, True, False, False), units="metric"
+    )
 
     r.to_metric()
-    assert_equal(r.position, (2.54, 25.4))
-    assert_equal(r.width, 254.0)
-    assert_equal(r.height, 2540.0)
-    assert_equal(r.chamfer, 0.254)
+    assert r.position == (2.54, 25.4)
+    assert r.width == 254.0
+    assert r.height == 2540.0
+    assert r.chamfer == 0.254
 
     r.to_inch()
-    assert_equal(r.position, (0.1, 1.0))
-    assert_equal(r.width, 10.0)
-    assert_equal(r.height, 100.0)
-    assert_equal(r.chamfer, 0.01)
+    assert r.position == (0.1, 1.0)
+    assert r.width == 10.0
+    assert r.height == 100.0
+    assert r.chamfer == 0.01
 
     r.to_inch()
-    assert_equal(r.position, (0.1, 1.0))
-    assert_equal(r.width, 10.0)
-    assert_equal(r.height, 100.0)
-    assert_equal(r.chamfer, 0.01)
+    assert r.position == (0.1, 1.0)
+    assert r.width == 10.0
+    assert r.height == 100.0
+    assert r.chamfer == 0.01
 
-    r = ChamferRectangle((0.1, 1.0), 10.0, 100.0, 0.01,
-                         (True, True, False, False), units='inch')
+    r = ChamferRectangle(
+        (0.1, 1.0), 10.0, 100.0, 0.01, (True, True, False, False), units="inch"
+    )
     r.to_inch()
-    assert_equal(r.position, (0.1, 1.0))
-    assert_equal(r.width, 10.0)
-    assert_equal(r.height, 100.0)
-    assert_equal(r.chamfer, 0.01)
+    assert r.position == (0.1, 1.0)
+    assert r.width == 10.0
+    assert r.height == 100.0
+    assert r.chamfer == 0.01
 
     r.to_metric()
-    assert_equal(r.position, (2.54, 25.4))
-    assert_equal(r.width, 254.0)
-    assert_equal(r.height, 2540.0)
-    assert_equal(r.chamfer, 0.254)
+    assert r.position == (2.54, 25.4)
+    assert r.width == 254.0
+    assert r.height == 2540.0
+    assert r.chamfer == 0.254
 
     r.to_metric()
-    assert_equal(r.position, (2.54, 25.4))
-    assert_equal(r.width, 254.0)
-    assert_equal(r.height, 2540.0)
-    assert_equal(r.chamfer, 0.254)
+    assert r.position == (2.54, 25.4)
+    assert r.width == 254.0
+    assert r.height == 2540.0
+    assert r.chamfer == 0.254
 
 
 def test_chamfer_rectangle_offset():
     r = ChamferRectangle((0, 0), 1, 2, 0.01, (True, True, False, False))
     r.offset(1, 0)
-    assert_equal(r.position, (1., 0.))
+    assert r.position == (1.0, 0.0)
     r.offset(0, 1)
-    assert_equal(r.position, (1., 1.))
+    assert r.position == (1.0, 1.0)
+
 
 def test_chamfer_rectangle_vertices():
     TEST_VECTORS = [
-        (1.0, (True, True, True, True), ((-2.5, -1.5), (-2.5, 1.5), (-1.5, 2.5), (1.5, 2.5), (2.5, 1.5), (2.5, -1.5), (1.5, -2.5), (-1.5, -2.5))),
-        (1.0, (True, False, False, False), ((-2.5, -2.5), (-2.5, 2.5), (1.5, 2.5), (2.5, 1.5), (2.5, -2.5))),
-        (1.0, (False, True, False, False), ((-2.5, -2.5), (-2.5, 1.5), (-1.5, 2.5), (2.5, 2.5), (2.5, -2.5))),
-        (1.0, (False, False, True, False), ((-2.5, -1.5), (-2.5, 2.5), (2.5, 2.5), (2.5, -2.5), (-1.5, -2.5))),
-        (1.0, (False, False, False, True), ((-2.5, -2.5), (-2.5, 2.5), (2.5, 2.5), (2.5, -1.5), (1.5, -2.5))),
+        (
+            1.0,
+            (True, True, True, True),
+            (
+                (-2.5, -1.5),
+                (-2.5, 1.5),
+                (-1.5, 2.5),
+                (1.5, 2.5),
+                (2.5, 1.5),
+                (2.5, -1.5),
+                (1.5, -2.5),
+                (-1.5, -2.5),
+            ),
+        ),
+        (
+            1.0,
+            (True, False, False, False),
+            ((-2.5, -2.5), (-2.5, 2.5), (1.5, 2.5), (2.5, 1.5), (2.5, -2.5)),
+        ),
+        (
+            1.0,
+            (False, True, False, False),
+            ((-2.5, -2.5), (-2.5, 1.5), (-1.5, 2.5), (2.5, 2.5), (2.5, -2.5)),
+        ),
+        (
+            1.0,
+            (False, False, True, False),
+            ((-2.5, -1.5), (-2.5, 2.5), (2.5, 2.5), (2.5, -2.5), (-1.5, -2.5)),
+        ),
+        (
+            1.0,
+            (False, False, False, True),
+            ((-2.5, -2.5), (-2.5, 2.5), (2.5, 2.5), (2.5, -1.5), (1.5, -2.5)),
+        ),
     ]
     for chamfer, corners, expected in TEST_VECTORS:
         r = ChamferRectangle((0, 0), 5, 5, chamfer, corners)
-        assert_equal(set(r.vertices), set(expected))
+        assert set(r.vertices) == set(expected)
 
 
 def test_round_rectangle_ctor():
     """ Test round rectangle creation
     """
-    test_cases = (((0, 0), 1, 1, 0.2, (True, True, False, False)),
-                  ((0, 0), 1, 2, 0.3, (True, True, True, True)),
-                  ((1, 1), 1, 2, 0.4, (False, False, False, False)))
+    test_cases = (
+        ((0, 0), 1, 1, 0.2, (True, True, False, False)),
+        ((0, 0), 1, 2, 0.3, (True, True, True, True)),
+        ((1, 1), 1, 2, 0.4, (False, False, False, False)),
+    )
     for pos, width, height, radius, corners in test_cases:
         r = RoundRectangle(pos, width, height, radius, corners)
-        assert_equal(r.position, pos)
-        assert_equal(r.width, width)
-        assert_equal(r.height, height)
-        assert_equal(r.radius, radius)
-        assert_array_almost_equal(r.corners, corners)
+        assert r.position == pos
+        assert r.width == width
+        assert r.height == height
+        assert r.radius == radius
+        pytest.approx(r.corners, corners)
 
 
 def test_round_rectangle_bounds():
@@ -793,78 +850,77 @@ def test_round_rectangle_bounds():
     """
     r = RoundRectangle((0, 0), 2, 2, 0.2, (True, True, False, False))
     xbounds, ybounds = r.bounding_box
-    assert_array_almost_equal(xbounds, (-1, 1))
-    assert_array_almost_equal(ybounds, (-1, 1))
-    r = RoundRectangle((0, 0), 2, 2, 0.2,
-                       (True, True, False, False), rotation=45)
+    pytest.approx(xbounds, (-1, 1))
+    pytest.approx(ybounds, (-1, 1))
+    r = RoundRectangle((0, 0), 2, 2, 0.2, (True, True, False, False), rotation=45)
     xbounds, ybounds = r.bounding_box
-    assert_array_almost_equal(xbounds, (-math.sqrt(2), math.sqrt(2)))
-    assert_array_almost_equal(ybounds, (-math.sqrt(2), math.sqrt(2)))
+    pytest.approx(xbounds, (-math.sqrt(2), math.sqrt(2)))
+    pytest.approx(ybounds, (-math.sqrt(2), math.sqrt(2)))
 
 
 def test_round_rectangle_conversion():
-    r = RoundRectangle((2.54, 25.4), 254.0, 2540.0, 0.254,
-                       (True, True, False, False), units='metric')
+    r = RoundRectangle(
+        (2.54, 25.4), 254.0, 2540.0, 0.254, (True, True, False, False), units="metric"
+    )
 
     r.to_metric()
-    assert_equal(r.position, (2.54, 25.4))
-    assert_equal(r.width, 254.0)
-    assert_equal(r.height, 2540.0)
-    assert_equal(r.radius, 0.254)
+    assert r.position == (2.54, 25.4)
+    assert r.width == 254.0
+    assert r.height == 2540.0
+    assert r.radius == 0.254
 
     r.to_inch()
-    assert_equal(r.position, (0.1, 1.0))
-    assert_equal(r.width, 10.0)
-    assert_equal(r.height, 100.0)
-    assert_equal(r.radius, 0.01)
+    assert r.position == (0.1, 1.0)
+    assert r.width == 10.0
+    assert r.height == 100.0
+    assert r.radius == 0.01
 
     r.to_inch()
-    assert_equal(r.position, (0.1, 1.0))
-    assert_equal(r.width, 10.0)
-    assert_equal(r.height, 100.0)
-    assert_equal(r.radius, 0.01)
+    assert r.position == (0.1, 1.0)
+    assert r.width == 10.0
+    assert r.height == 100.0
+    assert r.radius == 0.01
 
-    r = RoundRectangle((0.1, 1.0), 10.0, 100.0, 0.01,
-                       (True, True, False, False), units='inch')
+    r = RoundRectangle(
+        (0.1, 1.0), 10.0, 100.0, 0.01, (True, True, False, False), units="inch"
+    )
 
     r.to_inch()
-    assert_equal(r.position, (0.1, 1.0))
-    assert_equal(r.width, 10.0)
-    assert_equal(r.height, 100.0)
-    assert_equal(r.radius, 0.01)
+    assert r.position == (0.1, 1.0)
+    assert r.width == 10.0
+    assert r.height == 100.0
+    assert r.radius == 0.01
 
     r.to_metric()
-    assert_equal(r.position, (2.54, 25.4))
-    assert_equal(r.width, 254.0)
-    assert_equal(r.height, 2540.0)
-    assert_equal(r.radius, 0.254)
+    assert r.position == (2.54, 25.4)
+    assert r.width == 254.0
+    assert r.height == 2540.0
+    assert r.radius == 0.254
 
     r.to_metric()
-    assert_equal(r.position, (2.54, 25.4))
-    assert_equal(r.width, 254.0)
-    assert_equal(r.height, 2540.0)
-    assert_equal(r.radius, 0.254)
+    assert r.position == (2.54, 25.4)
+    assert r.width == 254.0
+    assert r.height == 2540.0
+    assert r.radius == 0.254
 
 
 def test_round_rectangle_offset():
     r = RoundRectangle((0, 0), 1, 2, 0.01, (True, True, False, False))
     r.offset(1, 0)
-    assert_equal(r.position, (1., 0.))
+    assert r.position == (1.0, 0.0)
     r.offset(0, 1)
-    assert_equal(r.position, (1., 1.))
+    assert r.position == (1.0, 1.0)
 
 
 def test_obround_ctor():
     """ Test obround creation
     """
-    test_cases = (((0, 0), 1, 1),
-                  ((0, 0), 1, 2),
-                  ((1, 1), 1, 2))
+    test_cases = (((0, 0), 1, 1), ((0, 0), 1, 2), ((1, 1), 1, 2))
     for pos, width, height in test_cases:
         o = Obround(pos, width, height)
-        assert_equal(o.position, pos)
-        assert_equal(o.width, width)
-        assert_equal(o.height, height)
+        assert o.position == pos
+        assert o.width == width
+        assert o.height == height
 
 
 def test_obround_bounds():
@@ -872,94 +928,92 @@ def test_obround_bounds():
     """
     o = Obround((2, 2), 2, 4)
     xbounds, ybounds = o.bounding_box
-    assert_array_almost_equal(xbounds, (1, 3))
-    assert_array_almost_equal(ybounds, (0, 4))
+    pytest.approx(xbounds, (1, 3))
+    pytest.approx(ybounds, (0, 4))
     o = Obround((2, 2), 4, 2)
     xbounds, ybounds = o.bounding_box
-    assert_array_almost_equal(xbounds, (0, 4))
-    assert_array_almost_equal(ybounds, (1, 3))
+    pytest.approx(xbounds, (0, 4))
+    pytest.approx(ybounds, (1, 3))
 
 
 def test_obround_orientation():
     o = Obround((0, 0), 2, 1)
-    assert_equal(o.orientation, 'horizontal')
+    assert o.orientation == "horizontal"
     o = Obround((0, 0), 1, 2)
-    assert_equal(o.orientation, 'vertical')
+    assert o.orientation == "vertical"
 
 
 def test_obround_subshapes():
     o = Obround((0, 0), 1, 4)
     ss = o.subshapes
-    assert_array_almost_equal(ss['rectangle'].position, (0, 0))
-    assert_array_almost_equal(ss['circle1'].position, (0, 1.5))
-    assert_array_almost_equal(ss['circle2'].position, (0, -1.5))
+    pytest.approx(ss["rectangle"].position, (0, 0))
+    pytest.approx(ss["circle1"].position, (0, 1.5))
+    pytest.approx(ss["circle2"].position, (0, -1.5))
     o = Obround((0, 0), 4, 1)
     ss = o.subshapes
-    assert_array_almost_equal(ss['rectangle'].position, (0, 0))
-    assert_array_almost_equal(ss['circle1'].position, (1.5, 0))
-    assert_array_almost_equal(ss['circle2'].position, (-1.5, 0))
+    pytest.approx(ss["rectangle"].position, (0, 0))
+    pytest.approx(ss["circle1"].position, (1.5, 0))
+    pytest.approx(ss["circle2"].position, (-1.5, 0))
 
 
 def test_obround_conversion():
-    o = Obround((2.54, 25.4), 254.0, 2540.0, units='metric')
+    o = Obround((2.54, 25.4), 254.0, 2540.0, units="metric")
 
     # No effect
     o.to_metric()
-    assert_equal(o.position, (2.54, 25.4))
-    assert_equal(o.width, 254.0)
-    assert_equal(o.height, 2540.0)
+    assert o.position == (2.54, 25.4)
+    assert o.width == 254.0
+    assert o.height == 2540.0
 
     o.to_inch()
-    assert_equal(o.position, (0.1, 1.0))
-    assert_equal(o.width, 10.0)
-    assert_equal(o.height, 100.0)
+    assert o.position == (0.1, 1.0)
+    assert o.width == 10.0
+    assert o.height == 100.0
 
     # No effect
     o.to_inch()
-    assert_equal(o.position, (0.1, 1.0))
-    assert_equal(o.width, 10.0)
-    assert_equal(o.height, 100.0)
+    assert o.position == (0.1, 1.0)
+    assert o.width == 10.0
+    assert o.height == 100.0
 
-    o = Obround((0.1, 1.0), 10.0, 100.0, units='inch')
+    o = Obround((0.1, 1.0), 10.0, 100.0, units="inch")
 
     # No effect
     o.to_inch()
-    assert_equal(o.position, (0.1, 1.0))
-    assert_equal(o.width, 10.0)
-    assert_equal(o.height, 100.0)
+    assert o.position == (0.1, 1.0)
+    assert o.width == 10.0
+    assert o.height == 100.0
 
     o.to_metric()
-    assert_equal(o.position, (2.54, 25.4))
-    assert_equal(o.width, 254.0)
-    assert_equal(o.height, 2540.0)
+    assert o.position == (2.54, 25.4)
+    assert o.width == 254.0
+    assert o.height == 2540.0
 
     # No effect
     o.to_metric()
-    assert_equal(o.position, (2.54, 25.4))
-    assert_equal(o.width, 254.0)
-    assert_equal(o.height, 2540.0)
+    assert o.position == (2.54, 25.4)
+    assert o.width == 254.0
+    assert o.height == 2540.0
 
 
 def test_obround_offset():
     o = Obround((0, 0), 1, 2)
     o.offset(1, 0)
-    assert_equal(o.position, (1., 0.))
+    assert o.position == (1.0, 0.0)
     o.offset(0, 1)
-    assert_equal(o.position, (1., 1.))
+    assert o.position == (1.0, 1.0)
 
 
 def test_polygon_ctor():
     """ Test polygon creation
     """
-    test_cases = (((0, 0), 3, 5, 0),
-                  ((0, 0), 5, 6, 0),
-                  ((1, 1), 7, 7, 45))
+    test_cases = (((0, 0), 3, 5, 0), ((0, 0), 5, 6, 0), ((1, 1), 7, 7, 45))
     for pos, sides, radius, hole_diameter in test_cases:
         p = Polygon(pos, sides, radius, hole_diameter)
-        assert_equal(p.position, pos)
-        assert_equal(p.sides, sides)
-        assert_equal(p.radius, radius)
-        assert_equal(p.hole_diameter, hole_diameter)
+        assert p.position == pos
+        assert p.sides == sides
+        assert p.radius == radius
+        assert p.hole_diameter == hole_diameter
 
 
 def test_polygon_bounds():
@@ -967,90 +1021,102 @@ def test_polygon_bounds():
     """
     p = Polygon((2, 2), 3, 2, 0)
     xbounds, ybounds = p.bounding_box
-    assert_array_almost_equal(xbounds, (0, 4))
-    assert_array_almost_equal(ybounds, (0, 4))
+    pytest.approx(xbounds, (0, 4))
+    pytest.approx(ybounds, (0, 4))
     p = Polygon((2, 2), 3, 4, 0)
     xbounds, ybounds = p.bounding_box
-    assert_array_almost_equal(xbounds, (-2, 6))
-    assert_array_almost_equal(ybounds, (-2, 6))
+    pytest.approx(xbounds, (-2, 6))
+    pytest.approx(ybounds, (-2, 6))
 
 
 def test_polygon_conversion():
-    p = Polygon((2.54, 25.4), 3, 254.0, 0, units='metric')
+    p = Polygon((2.54, 25.4), 3, 254.0, 0, units="metric")
 
     # No effect
     p.to_metric()
-    assert_equal(p.position, (2.54, 25.4))
-    assert_equal(p.radius, 254.0)
+    assert p.position == (2.54, 25.4)
+    assert p.radius == 254.0
 
     p.to_inch()
-    assert_equal(p.position, (0.1, 1.0))
-    assert_equal(p.radius, 10.0)
+    assert p.position == (0.1, 1.0)
+    assert p.radius == 10.0
 
     # No effect
     p.to_inch()
-    assert_equal(p.position, (0.1, 1.0))
-    assert_equal(p.radius, 10.0)
+    assert p.position == (0.1, 1.0)
+    assert p.radius == 10.0
 
-    p = Polygon((0.1, 1.0), 3, 10.0, 0, units='inch')
+    p = Polygon((0.1, 1.0), 3, 10.0, 0, units="inch")
 
     # No effect
     p.to_inch()
-    assert_equal(p.position, (0.1, 1.0))
-    assert_equal(p.radius, 10.0)
+    assert p.position == (0.1, 1.0)
+    assert p.radius == 10.0
 
     p.to_metric()
-    assert_equal(p.position, (2.54, 25.4))
-    assert_equal(p.radius, 254.0)
+    assert p.position == (2.54, 25.4)
+    assert p.radius == 254.0
 
     # No effect
     p.to_metric()
-    assert_equal(p.position, (2.54, 25.4))
-    assert_equal(p.radius, 254.0)
+    assert p.position == (2.54, 25.4)
+    assert p.radius == 254.0
 
 
 def test_polygon_offset():
     p = Polygon((0, 0), 5, 10, 0)
     p.offset(1, 0)
-    assert_equal(p.position, (1., 0.))
+    assert p.position == (1.0, 0.0)
     p.offset(0, 1)
-    assert_equal(p.position, (1., 1.))
+    assert p.position == (1.0, 1.0)
 
 
 def test_region_ctor():
     """ Test Region creation
     """
     apt = Circle((0, 0), 0)
-    lines = (Line((0, 0), (1, 0), apt), Line((1, 0), (1, 1), apt),
-             Line((1, 1), (0, 1), apt), Line((0, 1), (0, 0), apt))
+    lines = (
+        Line((0, 0), (1, 0), apt),
+        Line((1, 0), (1, 1), apt),
+        Line((1, 1), (0, 1), apt),
+        Line((0, 1), (0, 0), apt),
+    )
     points = ((0, 0), (1, 0), (1, 1), (0, 1))
     r = Region(lines)
     for i, p in enumerate(lines):
-        assert_equal(r.primitives[i], p)
+        assert r.primitives[i] == p
 
 
 def test_region_bounds():
     """ Test region bounding box calculation
     """
     apt = Circle((0, 0), 0)
-    lines = (Line((0, 0), (1, 0), apt), Line((1, 0), (1, 1), apt),
-             Line((1, 1), (0, 1), apt), Line((0, 1), (0, 0), apt))
+    lines = (
+        Line((0, 0), (1, 0), apt),
+        Line((1, 0), (1, 1), apt),
+        Line((1, 1), (0, 1), apt),
+        Line((0, 1), (0, 0), apt),
+    )
     r = Region(lines)
     xbounds, ybounds = r.bounding_box
-    assert_array_almost_equal(xbounds, (0, 1))
-    assert_array_almost_equal(ybounds, (0, 1))
+    pytest.approx(xbounds, (0, 1))
+    pytest.approx(ybounds, (0, 1))
 
 
 def test_region_offset():
     apt = Circle((0, 0), 0)
-    lines = (Line((0, 0), (1, 0), apt), Line((1, 0), (1, 1), apt),
-             Line((1, 1), (0, 1), apt), Line((0, 1), (0, 0), apt))
+    lines = (
+        Line((0, 0), (1, 0), apt),
+        Line((1, 0), (1, 1), apt),
+        Line((1, 1), (0, 1), apt),
+        Line((0, 1), (0, 0), apt),
+    )
     r = Region(lines)
     xlim, ylim = r.bounding_box
     r.offset(0, 1)
     new_xlim, new_ylim = r.bounding_box
-    assert_array_almost_equal(new_xlim, xlim)
-    assert_array_almost_equal(new_ylim, tuple([y + 1 for y in ylim]))
+    pytest.approx(new_xlim, xlim)
+    pytest.approx(new_ylim, tuple([y + 1 for y in ylim]))
 
 
 def test_round_butterfly_ctor():
@@ -1059,58 +1125,58 @@ def test_round_butterfly_ctor():
     test_cases = (((0, 0), 3), ((0, 0), 5), ((1, 1), 7))
     for pos, diameter in test_cases:
         b = RoundButterfly(pos, diameter)
-        assert_equal(b.position, pos)
-        assert_equal(b.diameter, diameter)
-        assert_equal(b.radius, diameter / 2.)
+        assert b.position == pos
+        assert b.diameter == diameter
+        assert b.radius == diameter / 2.0
 
 
 def test_round_butterfly_ctor_validation():
     """ Test RoundButterfly argument validation
     """
-    assert_raises(TypeError, RoundButterfly, 3, 5)
-    assert_raises(TypeError, RoundButterfly, (3, 4, 5), 5)
+    pytest.raises(TypeError, RoundButterfly, 3, 5)
+    pytest.raises(TypeError, RoundButterfly, (3, 4, 5), 5)
 
 
 def test_round_butterfly_conversion():
-    b = RoundButterfly((2.54, 25.4), 254.0, units='metric')
+    b = RoundButterfly((2.54, 25.4), 254.0, units="metric")
 
     # No Effect
     b.to_metric()
-    assert_equal(b.position, (2.54, 25.4))
-    assert_equal(b.diameter, (254.0))
+    assert b.position == (2.54, 25.4)
+    assert b.diameter == (254.0)
 
     b.to_inch()
-    assert_equal(b.position, (0.1, 1.0))
-    assert_equal(b.diameter, 10.0)
+    assert b.position == (0.1, 1.0)
+    assert b.diameter == 10.0
 
     # No effect
     b.to_inch()
-    assert_equal(b.position, (0.1, 1.0))
-    assert_equal(b.diameter, 10.0)
+    assert b.position == (0.1, 1.0)
+    assert b.diameter == 10.0
 
-    b = RoundButterfly((0.1, 1.0), 10.0, units='inch')
+    b = RoundButterfly((0.1, 1.0), 10.0, units="inch")
 
     # No effect
     b.to_inch()
-    assert_equal(b.position, (0.1, 1.0))
-    assert_equal(b.diameter, 10.0)
+    assert b.position == (0.1, 1.0)
+    assert b.diameter == 10.0
 
     b.to_metric()
-    assert_equal(b.position, (2.54, 25.4))
-    assert_equal(b.diameter, (254.0))
+    assert b.position == (2.54, 25.4)
+    assert b.diameter == (254.0)
 
     # No Effect
     b.to_metric()
-    assert_equal(b.position, (2.54, 25.4))
-    assert_equal(b.diameter, (254.0))
+    assert b.position == (2.54, 25.4)
+    assert b.diameter == (254.0)
 
 
 def test_round_butterfly_offset():
     b = RoundButterfly((0, 0), 1)
     b.offset(1, 0)
-    assert_equal(b.position, (1., 0.))
+    assert b.position == (1.0, 0.0)
     b.offset(0, 1)
-    assert_equal(b.position, (1., 1.))
+    assert b.position == (1.0, 1.0)
 
 
 def test_round_butterfly_bounds():
@@ -1118,8 +1184,8 @@ def test_round_butterfly_bounds():
     """
     b = RoundButterfly((0, 0), 2)
     xbounds, ybounds = b.bounding_box
-    assert_array_almost_equal(xbounds, (-1, 1))
-    assert_array_almost_equal(ybounds, (-1, 1))
+    pytest.approx(xbounds, (-1, 1))
+    pytest.approx(ybounds, (-1, 1))
 
 
 def test_square_butterfly_ctor():
@@ -1128,15 +1194,15 @@ def test_square_butterfly_ctor():
     test_cases = (((0, 0), 3), ((0, 0), 5), ((1, 1), 7))
     for pos, side in test_cases:
         b = SquareButterfly(pos, side)
-        assert_equal(b.position, pos)
-        assert_equal(b.side, side)
+        assert b.position == pos
+        assert b.side == side
 
 
 def test_square_butterfly_ctor_validation():
     """ Test SquareButterfly argument validation
     """
-    assert_raises(TypeError, SquareButterfly, 3, 5)
-    assert_raises(TypeError, SquareButterfly, (3, 4, 5), 5)
+    pytest.raises(TypeError, SquareButterfly, 3, 5)
+    pytest.raises(TypeError, SquareButterfly, (3, 4, 5), 5)
 
 
 def test_square_butterfly_bounds():
@@ -1144,125 +1210,129 @@ def test_square_butterfly_bounds():
     """
     b = SquareButterfly((0, 0), 2)
     xbounds, ybounds = b.bounding_box
-    assert_array_almost_equal(xbounds, (-1, 1))
-    assert_array_almost_equal(ybounds, (-1, 1))
+    pytest.approx(xbounds, (-1, 1))
+    pytest.approx(ybounds, (-1, 1))
 
 
 def test_squarebutterfly_conversion():
-    b = SquareButterfly((2.54, 25.4), 254.0, units='metric')
+    b = SquareButterfly((2.54, 25.4), 254.0, units="metric")
 
     # No effect
     b.to_metric()
-    assert_equal(b.position, (2.54, 25.4))
-    assert_equal(b.side, (254.0))
+    assert b.position == (2.54, 25.4)
+    assert b.side == (254.0)
 
     b.to_inch()
-    assert_equal(b.position, (0.1, 1.0))
-    assert_equal(b.side, 10.0)
+    assert b.position == (0.1, 1.0)
+    assert b.side == 10.0
 
     # No effect
     b.to_inch()
-    assert_equal(b.position, (0.1, 1.0))
-    assert_equal(b.side, 10.0)
+    assert b.position == (0.1, 1.0)
+    assert b.side == 10.0
 
-    b = SquareButterfly((0.1, 1.0), 10.0, units='inch')
+    b = SquareButterfly((0.1, 1.0), 10.0, units="inch")
 
     # No effect
     b.to_inch()
-    assert_equal(b.position, (0.1, 1.0))
-    assert_equal(b.side, 10.0)
+    assert b.position == (0.1, 1.0)
+    assert b.side == 10.0
 
     b.to_metric()
-    assert_equal(b.position, (2.54, 25.4))
-    assert_equal(b.side, (254.0))
+    assert b.position == (2.54, 25.4)
+    assert b.side == (254.0)
 
     # No effect
     b.to_metric()
-    assert_equal(b.position, (2.54, 25.4))
-    assert_equal(b.side, (254.0))
+    assert b.position == (2.54, 25.4)
+    assert b.side == (254.0)
 
 
 def test_square_butterfly_offset():
     b = SquareButterfly((0, 0), 1)
     b.offset(1, 0)
-    assert_equal(b.position, (1., 0.))
+    assert b.position == (1.0, 0.0)
     b.offset(0, 1)
-    assert_equal(b.position, (1., 1.))
+    assert b.position == (1.0, 1.0)
 
 
 def test_donut_ctor():
     """ Test Donut primitive creation
     """
-    test_cases = (((0, 0), 'round', 3, 5), ((0, 0), 'square', 5, 7),
-                  ((1, 1), 'hexagon', 7, 9), ((2, 2), 'octagon', 9, 11))
+    test_cases = (
+        ((0, 0), "round", 3, 5),
+        ((0, 0), "square", 5, 7),
+        ((1, 1), "hexagon", 7, 9),
+        ((2, 2), "octagon", 9, 11),
+    )
     for pos, shape, in_d, out_d in test_cases:
         d = Donut(pos, shape, in_d, out_d)
-        assert_equal(d.position, pos)
-        assert_equal(d.shape, shape)
-        assert_equal(d.inner_diameter, in_d)
-        assert_equal(d.outer_diameter, out_d)
+        assert d.position == pos
+        assert d.shape == shape
+        assert d.inner_diameter == in_d
+        assert d.outer_diameter == out_d
 
 
 def test_donut_ctor_validation():
-    assert_raises(TypeError, Donut, 3, 'round', 5, 7)
-    assert_raises(TypeError, Donut, (3, 4, 5), 'round', 5, 7)
-    assert_raises(ValueError, Donut, (0, 0), 'triangle', 3, 5)
-    assert_raises(ValueError, Donut, (0, 0), 'round', 5, 3)
+    pytest.raises(TypeError, Donut, 3, "round", 5, 7)
+    pytest.raises(TypeError, Donut, (3, 4, 5), "round", 5, 7)
+    pytest.raises(ValueError, Donut, (0, 0), "triangle", 3, 5)
+    pytest.raises(ValueError, Donut, (0, 0), "round", 5, 3)
 
 
 def test_donut_bounds():
-    d = Donut((0, 0), 'round', 0.0, 2.0)
+    d = Donut((0, 0), "round", 0.0, 2.0)
     xbounds, ybounds = d.bounding_box
-    assert_equal(xbounds, (-1., 1.))
-    assert_equal(ybounds, (-1., 1.))
+    assert xbounds == (-1.0, 1.0)
+    assert ybounds == (-1.0, 1.0)
 
 
 def test_donut_conversion():
-    d = Donut((2.54, 25.4), 'round', 254.0, 2540.0, units='metric')
+    d = Donut((2.54, 25.4), "round", 254.0, 2540.0, units="metric")
 
     # No effect
     d.to_metric()
-    assert_equal(d.position, (2.54, 25.4))
-    assert_equal(d.inner_diameter, 254.0)
-    assert_equal(d.outer_diameter, 2540.0)
+    assert d.position == (2.54, 25.4)
+    assert d.inner_diameter == 254.0
+    assert d.outer_diameter == 2540.0
 
     d.to_inch()
-    assert_equal(d.position, (0.1, 1.0))
-    assert_equal(d.inner_diameter, 10.0)
-    assert_equal(d.outer_diameter, 100.0)
+    assert d.position == (0.1, 1.0)
+    assert d.inner_diameter == 10.0
+    assert d.outer_diameter == 100.0
 
     # No effect
     d.to_inch()
-    assert_equal(d.position, (0.1, 1.0))
-    assert_equal(d.inner_diameter, 10.0)
-    assert_equal(d.outer_diameter, 100.0)
+    assert d.position == (0.1, 1.0)
+    assert d.inner_diameter == 10.0
+    assert d.outer_diameter == 100.0
 
-    d = Donut((0.1, 1.0), 'round', 10.0, 100.0, units='inch')
+    d = Donut((0.1, 1.0), "round", 10.0, 100.0, units="inch")
 
     # No effect
     d.to_inch()
-    assert_equal(d.position, (0.1, 1.0))
-    assert_equal(d.inner_diameter, 10.0)
-    assert_equal(d.outer_diameter, 100.0)
+    assert d.position == (0.1, 1.0)
+    assert d.inner_diameter == 10.0
+    assert d.outer_diameter == 100.0
 
     d.to_metric()
-    assert_equal(d.position, (2.54, 25.4))
-    assert_equal(d.inner_diameter, 254.0)
-    assert_equal(d.outer_diameter, 2540.0)
+    assert d.position == (2.54, 25.4)
+    assert d.inner_diameter == 254.0
+    assert d.outer_diameter == 2540.0
 
     # No effect
     d.to_metric()
-    assert_equal(d.position, (2.54, 25.4))
-    assert_equal(d.inner_diameter, 254.0)
-    assert_equal(d.outer_diameter, 2540.0)
+    assert d.position == (2.54, 25.4)
+    assert d.inner_diameter == 254.0
+    assert d.outer_diameter == 2540.0
 
 
 def test_donut_offset():
-    d = Donut((0, 0), 'round', 1, 10)
+    d = Donut((0, 0), "round", 1, 10)
     d.offset(1, 0)
-    assert_equal(d.position, (1., 0.))
+    assert d.position == (1.0, 0.0)
     d.offset(0, 1)
-    assert_equal(d.position, (1., 1.))
+    assert d.position == (1.0, 1.0)
 
 
 def test_drill_ctor():
@@ -1271,89 +1341,89 @@ def test_drill_ctor():
     test_cases = (((0, 0), 2), ((1, 1), 3), ((2, 2), 5))
     for position, diameter in test_cases:
         d = Drill(position, diameter)
-        assert_equal(d.position, position)
-        assert_equal(d.diameter, diameter)
-        assert_equal(d.radius, diameter / 2.)
+        assert d.position == position
+        assert d.diameter == diameter
+        assert d.radius == diameter / 2.0
 
 
 def test_drill_ctor_validation():
     """ Test drill argument validation
     """
-    assert_raises(TypeError, Drill, 3, 5)
-    assert_raises(TypeError, Drill, (3,4,5), 5)
-
+    pytest.raises(TypeError, Drill, 3, 5)
+    pytest.raises(TypeError, Drill, (3, 4, 5), 5)
 
 
 def test_drill_bounds():
     d = Drill((0, 0), 2)
     xbounds, ybounds = d.bounding_box
-    assert_array_almost_equal(xbounds, (-1, 1))
-    assert_array_almost_equal(ybounds, (-1, 1))
+    pytest.approx(xbounds, (-1, 1))
+    pytest.approx(ybounds, (-1, 1))
     d = Drill((1, 2), 2)
     xbounds, ybounds = d.bounding_box
-    assert_array_almost_equal(xbounds, (0, 2))
-    assert_array_almost_equal(ybounds, (1, 3))
+    pytest.approx(xbounds, (0, 2))
+    pytest.approx(ybounds, (1, 3))
 
 
 def test_drill_conversion():
-    d = Drill((2.54, 25.4), 254., units='metric')
+    d = Drill((2.54, 25.4), 254.0, units="metric")
 
-    #No effect
+    # No effect
     d.to_metric()
-    assert_equal(d.position, (2.54, 25.4))
-    assert_equal(d.diameter, 254.0)
+    assert d.position == (2.54, 25.4)
+    assert d.diameter == 254.0
 
     d.to_inch()
-    assert_equal(d.position, (0.1, 1.0))
-    assert_equal(d.diameter, 10.0)
+    assert d.position == (0.1, 1.0)
+    assert d.diameter == 10.0
 
-    #No effect
+    # No effect
     d.to_inch()
-    assert_equal(d.position, (0.1, 1.0))
-    assert_equal(d.diameter, 10.0)
+    assert d.position == (0.1, 1.0)
+    assert d.diameter == 10.0
 
-    d = Drill((0.1, 1.0), 10., units='inch')
+    d = Drill((0.1, 1.0), 10.0, units="inch")
 
     # No effect
     d.to_inch()
-    assert_equal(d.position, (0.1, 1.0))
-    assert_equal(d.diameter, 10.0)
+    assert d.position == (0.1, 1.0)
+    assert d.diameter == 10.0
 
     d.to_metric()
-    assert_equal(d.position, (2.54, 25.4))
-    assert_equal(d.diameter, 254.0)
+    assert d.position == (2.54, 25.4)
+    assert d.diameter == 254.0
 
     # No effect
     d.to_metric()
-    assert_equal(d.position, (2.54, 25.4))
-    assert_equal(d.diameter, 254.0)
+    assert d.position == (2.54, 25.4)
+    assert d.diameter == 254.0
 
 
 def test_drill_offset():
-    d = Drill((0, 0), 1.)
+    d = Drill((0, 0), 1.0)
     d.offset(1, 0)
-    assert_equal(d.position, (1., 0.))
+    assert d.position == (1.0, 0.0)
     d.offset(0, 1)
-    assert_equal(d.position, (1., 1.))
+    assert d.position == (1.0, 1.0)
 
 
 def test_drill_equality():
-    d = Drill((2.54, 25.4), 254.)
-    d1 = Drill((2.54, 25.4), 254.)
-    assert_equal(d, d1)
+    d = Drill((2.54, 25.4), 254.0)
+    d1 = Drill((2.54, 25.4), 254.0)
+    assert d == d1
     d1 = Drill((2.54, 25.4), 254.2)
-    assert_not_equal(d, d1)
+    assert d != d1
 
 
 def test_slot_bounds():
     """ Test Slot primitive bounding box calculation
     """
-    cases = [((0, 0), (1, 1), ((-1, 2), (-1, 2))),
-             ((-1, -1), (1, 1), ((-2, 2), (-2, 2))),
-             ((1, 1), (-1, -1), ((-2, 2), (-2, 2))),
-             ((-1, 1), (1, -1), ((-2, 2), (-2, 2))), ]
+    cases = [
+        ((0, 0), (1, 1), ((-1, 2), (-1, 2))),
+        ((-1, -1), (1, 1), ((-2, 2), (-2, 2))),
+        ((1, 1), (-1, -1), ((-2, 2), (-2, 2))),
+        ((-1, 1), (1, -1), ((-2, 2), (-2, 2))),
+    ]
 
     for start, end, expected in cases:
         s = Slot(start, end, 2.0)
-        assert_equal(s.bounding_box, expected)
-
+        assert s.bounding_box == expected
diff --git a/gerber/tests/test_rs274x.py b/gerber/tests/test_rs274x.py
index 4c69446..e7baf11 100644
--- a/gerber/tests/test_rs274x.py
+++ b/gerber/tests/test_rs274x.py
@@ -3,53 +3,53 @@
 
 # Author: Hamilton Kibbe <ham@hamiltonkib.be>
 import os
+import pytest
 
 from ..rs274x import read, GerberFile
-from .tests import *
 
 
-TOP_COPPER_FILE = os.path.join(os.path.dirname(__file__),
-                               'resources/top_copper.GTL')
+TOP_COPPER_FILE = os.path.join(os.path.dirname(__file__), "resources/top_copper.GTL")
 
-MULTILINE_READ_FILE = os.path.join(os.path.dirname(__file__),
-                                   'resources/multiline_read.ger')
+MULTILINE_READ_FILE = os.path.join(
+    os.path.dirname(__file__), "resources/multiline_read.ger"
+)
 
 
 def test_read():
     top_copper = read(TOP_COPPER_FILE)
-    assert(isinstance(top_copper, GerberFile))
+    assert isinstance(top_copper, GerberFile)
 
 
 def test_multiline_read():
     multiline = read(MULTILINE_READ_FILE)
-    assert(isinstance(multiline, GerberFile))
-    assert_equal(10, len(multiline.statements))
+    assert isinstance(multiline, GerberFile)
+    assert 10 == len(multiline.statements)
 
 
 def test_comments_parameter():
     top_copper = read(TOP_COPPER_FILE)
-    assert_equal(top_copper.comments[0], 'This is a comment,:')
+    assert top_copper.comments[0] == "This is a comment,:"
 
 
 def test_size_parameter():
     top_copper = read(TOP_COPPER_FILE)
     size = top_copper.size
-    assert_almost_equal(size[0], 2.256900, 6)
-    assert_almost_equal(size[1], 1.500000, 6)
+    pytest.approx(size[0], 2.256900, 6)
+    pytest.approx(size[1], 1.500000, 6)
 
 
 def test_conversion():
     top_copper = read(TOP_COPPER_FILE)
-    assert_equal(top_copper.units, 'inch')
+    assert top_copper.units == "inch"
     top_copper_inch = read(TOP_COPPER_FILE)
     top_copper.to_metric()
     for statement in top_copper_inch.statements:
         statement.to_metric()
     for primitive in top_copper_inch.primitives:
         primitive.to_metric()
-    assert_equal(top_copper.units, 'metric')
+    assert top_copper.units == "metric"
     for i, m in zip(top_copper.statements, top_copper_inch.statements):
-        assert_equal(i, m)
+        assert i == m
 
     for i, m in zip(top_copper.primitives, top_copper_inch.primitives):
-        assert_equal(i, m)
+        assert i == m
diff --git a/gerber/tests/test_rs274x_backend.py b/gerber/tests/test_rs274x_backend.py
index e128841..13347c5 100644
--- a/gerber/tests/test_rs274x_backend.py
+++ b/gerber/tests/test_rs274x_backend.py
@@ -7,62 +7,86 @@ import os
 
 from ..render.rs274x_backend import Rs274xContext
 from ..rs274x import read
-from .tests import *
+
 
 def test_render_two_boxes():
     """Umaco exapmle of two boxes"""
-    _test_render('resources/example_two_square_boxes.gbr', 'golden/example_two_square_boxes.gbr')
+    _test_render(
+        "resources/example_two_square_boxes.gbr", "golden/example_two_square_boxes.gbr"
+    )
 
 
 def _test_render_single_quadrant():
     """Umaco exapmle of a single quadrant arc"""
 
     # TODO there is probably a bug here
-    _test_render('resources/example_single_quadrant.gbr', 'golden/example_single_quadrant.gbr')
+    _test_render(
+        "resources/example_single_quadrant.gbr", "golden/example_single_quadrant.gbr"
+    )
 
 
 def _test_render_simple_contour():
     """Umaco exapmle of a simple arrow-shaped contour"""
-    _test_render('resources/example_simple_contour.gbr', 'golden/example_simple_contour.gbr')
+    _test_render(
+        "resources/example_simple_contour.gbr", "golden/example_simple_contour.gbr"
+    )
 
 
 def _test_render_single_contour_1():
     """Umaco example of a single contour
 
     The resulting image for this test is used by other tests because they must generate the same output."""
-    _test_render('resources/example_single_contour_1.gbr', 'golden/example_single_contour.gbr')
+    _test_render(
+        "resources/example_single_contour_1.gbr", "golden/example_single_contour.gbr"
+    )
 
 
 def _test_render_single_contour_2():
     """Umaco exapmle of a single contour, alternate contour end order
 
     The resulting image for this test is used by other tests because they must generate the same output."""
-    _test_render('resources/example_single_contour_2.gbr', 'golden/example_single_contour.gbr')
+    _test_render(
+        "resources/example_single_contour_2.gbr", "golden/example_single_contour.gbr"
+    )
 
 
 def _test_render_single_contour_3():
     """Umaco exapmle of a single contour with extra line"""
-    _test_render('resources/example_single_contour_3.gbr', 'golden/example_single_contour_3.gbr')
+    _test_render(
+        "resources/example_single_contour_3.gbr", "golden/example_single_contour_3.gbr"
+    )
 
 
 def _test_render_not_overlapping_contour():
     """Umaco example of D02 staring a second contour"""
-    _test_render('resources/example_not_overlapping_contour.gbr', 'golden/example_not_overlapping_contour.gbr')
+    _test_render(
+        "resources/example_not_overlapping_contour.gbr",
+        "golden/example_not_overlapping_contour.gbr",
+    )
 
 
 def _test_render_not_overlapping_touching():
     """Umaco example of D02 staring a second contour"""
-    _test_render('resources/example_not_overlapping_touching.gbr', 'golden/example_not_overlapping_touching.gbr')
+    _test_render(
+        "resources/example_not_overlapping_touching.gbr",
+        "golden/example_not_overlapping_touching.gbr",
+    )
 
 
 def _test_render_overlapping_touching():
     """Umaco example of D02 staring a second contour"""
-    _test_render('resources/example_overlapping_touching.gbr', 'golden/example_overlapping_touching.gbr')
+    _test_render(
+        "resources/example_overlapping_touching.gbr",
+        "golden/example_overlapping_touching.gbr",
+    )
 
 
 def _test_render_overlapping_contour():
     """Umaco example of D02 staring a second contour"""
-    _test_render('resources/example_overlapping_contour.gbr', 'golden/example_overlapping_contour.gbr')
+    _test_render(
+        "resources/example_overlapping_contour.gbr",
+        "golden/example_overlapping_contour.gbr",
+    )
 
 
 def _DISABLED_test_render_level_holes():
@@ -70,76 +94,96 @@ def _DISABLED_test_render_level_holes():
 
     # TODO This is clearly rendering wrong. I'm temporarily checking this in because there are more
     # rendering fixes in the related repository that may resolve these.
-    _test_render('resources/example_level_holes.gbr', 'golden/example_overlapping_contour.gbr')
+    _test_render(
+        "resources/example_level_holes.gbr", "golden/example_overlapping_contour.gbr"
+    )
 
 
 def _DISABLED_test_render_cutin():
     """Umaco example of using a cutin"""
 
     # TODO This is clearly rendering wrong.
-    _test_render('resources/example_cutin.gbr', 'golden/example_cutin.gbr')
+    _test_render("resources/example_cutin.gbr", "golden/example_cutin.gbr")
 
 
 def _test_render_fully_coincident():
     """Umaco example of coincident lines rendering two contours"""
 
-    _test_render('resources/example_fully_coincident.gbr', 'golden/example_fully_coincident.gbr')
+    _test_render(
+        "resources/example_fully_coincident.gbr", "golden/example_fully_coincident.gbr"
+    )
 
 
 def _test_render_coincident_hole():
     """Umaco example of coincident lines rendering a hole in the contour"""
 
-    _test_render('resources/example_coincident_hole.gbr', 'golden/example_coincident_hole.gbr')
+    _test_render(
+        "resources/example_coincident_hole.gbr", "golden/example_coincident_hole.gbr"
+    )
 
 
 def _test_render_cutin_multiple():
     """Umaco example of a region with multiple cutins"""
 
-    _test_render('resources/example_cutin_multiple.gbr', 'golden/example_cutin_multiple.gbr')
+    _test_render(
+        "resources/example_cutin_multiple.gbr", "golden/example_cutin_multiple.gbr"
+    )
 
 
 def _test_flash_circle():
     """Umaco example a simple circular flash with and without a hole"""
 
-    _test_render('resources/example_flash_circle.gbr', 'golden/example_flash_circle.gbr')
+    _test_render(
+        "resources/example_flash_circle.gbr", "golden/example_flash_circle.gbr"
+    )
 
 
 def _test_flash_rectangle():
     """Umaco example a simple rectangular flash with and without a hole"""
 
-    _test_render('resources/example_flash_rectangle.gbr', 'golden/example_flash_rectangle.gbr')
+    _test_render(
+        "resources/example_flash_rectangle.gbr", "golden/example_flash_rectangle.gbr"
+    )
 
 
 def _test_flash_obround():
     """Umaco example a simple obround flash with and without a hole"""
 
-    _test_render('resources/example_flash_obround.gbr', 'golden/example_flash_obround.gbr')
+    _test_render(
+        "resources/example_flash_obround.gbr", "golden/example_flash_obround.gbr"
+    )
 
 
 def _test_flash_polygon():
     """Umaco example a simple polygon flash with and without a hole"""
 
-    _test_render('resources/example_flash_polygon.gbr', 'golden/example_flash_polygon.gbr')
+    _test_render(
+        "resources/example_flash_polygon.gbr", "golden/example_flash_polygon.gbr"
+    )
 
 
 def _test_holes_dont_clear():
     """Umaco example that an aperture with a hole does not clear the area"""
 
-    _test_render('resources/example_holes_dont_clear.gbr', 'golden/example_holes_dont_clear.gbr')
+    _test_render(
+        "resources/example_holes_dont_clear.gbr", "golden/example_holes_dont_clear.gbr"
+    )
 
 
 def _test_render_am_exposure_modifier():
     """Umaco example that an aperture macro with a hole does not clear the area"""
 
-    _test_render('resources/example_am_exposure_modifier.gbr', 'golden/example_am_exposure_modifier.gbr')
+    _test_render(
+        "resources/example_am_exposure_modifier.gbr",
+        "golden/example_am_exposure_modifier.gbr",
+    )
 
 
 def _resolve_path(path):
-    return os.path.join(os.path.dirname(__file__),
-                                path)
+    return os.path.join(os.path.dirname(__file__), path)
 
 
-def _test_render(gerber_path, png_expected_path, create_output_path = None):
+def _test_render(gerber_path, png_expected_path, create_output_path=None):
     """Render the gerber file and compare to the expected PNG output.
 
     Parameters
@@ -168,18 +212,21 @@ def _test_render(gerber_path, png_expected_path, create_output_path = None):
 
     # If we want to write the file bytes, do it now. This happens
     if create_output_path:
-        with open(create_output_path, 'wb') as out_file:
+        with open(create_output_path, "wb") as out_file:
             out_file.write(actual_contents.getvalue())
         # Creating the output is dangerous - it could overwrite the expected result.
         # So if we are creating the output, we make the test fail on purpose so you
         # won't forget to disable this
-        assert_false(True, 'Test created the output %s. This needs to be disabled to make sure the test behaves correctly' % (create_output_path,))
+        assert not True, (
+            "Test created the output %s. This needs to be disabled to make sure the test behaves correctly"
+            % (create_output_path,)
+        )
 
     # Read the expected PNG file
 
-    with open(png_expected_path, 'r') as expected_file:
+    with open(png_expected_path, "r") as expected_file:
         expected_contents = expected_file.read()
 
-    assert_equal(expected_contents, actual_contents.getvalue())
+    assert expected_contents == actual_contents.getvalue()
 
     return gerber
diff --git a/gerber/tests/test_utils.py b/gerber/tests/test_utils.py
index 35f6f47..68484d1 100644
--- a/gerber/tests/test_utils.py
+++ b/gerber/tests/test_utils.py
@@ -3,7 +3,7 @@
 
 # Author: Hamilton Kibbe <ham@hamiltonkib.be>
 
-from .tests import assert_equal, assert_raises
+import pytest
 from ..utils import *
 
 
@@ -14,60 +14,99 @@ def test_zero_suppression():
     fmt = (2, 5)
 
     # Test leading zero suppression
-    zero_suppression = 'leading'
-    test_cases = [('1', 0.00001), ('10', 0.0001), ('100', 0.001),
-                  ('1000', 0.01), ('10000', 0.1), ('100000', 1.0),
-                  ('1000000', 10.0), ('-1', -0.00001), ('-10', -0.0001),
-                  ('-100', -0.001), ('-1000', -0.01), ('-10000', -0.1),
-                  ('-100000', -1.0), ('-1000000', -10.0),
-                  ('0', 0.0)]
+    zero_suppression = "leading"
+    test_cases = [
+        ("1", 0.00001),
+        ("10", 0.0001),
+        ("100", 0.001),
+        ("1000", 0.01),
+        ("10000", 0.1),
+        ("100000", 1.0),
+        ("1000000", 10.0),
+        ("-1", -0.00001),
+        ("-10", -0.0001),
+        ("-100", -0.001),
+        ("-1000", -0.01),
+        ("-10000", -0.1),
+        ("-100000", -1.0),
+        ("-1000000", -10.0),
+        ("0", 0.0),
+    ]
     for string, value in test_cases:
-        assert_equal(value, parse_gerber_value(string, fmt, zero_suppression))
-        assert_equal(string, write_gerber_value(value, fmt, zero_suppression))
+        assert value == parse_gerber_value(string, fmt, zero_suppression)
+        assert string == write_gerber_value(value, fmt, zero_suppression)
 
     # Test trailing zero suppression
-    zero_suppression = 'trailing'
-    test_cases = [('1', 10.0), ('01', 1.0), ('001', 0.1), ('0001', 0.01),
-                  ('00001', 0.001), ('000001', 0.0001),
-                  ('0000001', 0.00001), ('-1', -10.0), ('-01', -1.0),
-                  ('-001', -0.1), ('-0001', -0.01), ('-00001', -0.001),
-                  ('-000001', -0.0001), ('-0000001', -0.00001),
-                  ('0', 0.0)]
+    zero_suppression = "trailing"
+    test_cases = [
+        ("1", 10.0),
+        ("01", 1.0),
+        ("001", 0.1),
+        ("0001", 0.01),
+        ("00001", 0.001),
+        ("000001", 0.0001),
+        ("0000001", 0.00001),
+        ("-1", -10.0),
+        ("-01", -1.0),
+        ("-001", -0.1),
+        ("-0001", -0.01),
+        ("-00001", -0.001),
+        ("-000001", -0.0001),
+        ("-0000001", -0.00001),
+        ("0", 0.0),
+    ]
     for string, value in test_cases:
-        assert_equal(value, parse_gerber_value(string, fmt, zero_suppression))
-        assert_equal(string, write_gerber_value(value, fmt, zero_suppression))
+        assert value == parse_gerber_value(string, fmt, zero_suppression)
+        assert string == write_gerber_value(value, fmt, zero_suppression)
 
-    assert_equal(write_gerber_value(0.000000001, fmt, 'leading'), '0')
-    assert_equal(write_gerber_value(0.000000001, fmt, 'trailing'), '0')
+    assert write_gerber_value(0.000000001, fmt, "leading") == "0"
+    assert write_gerber_value(0.000000001, fmt, "trailing") == "0"
 
 
 def test_format():
     """ Test gerber value parser and writer handle format correctly
     """
-    zero_suppression = 'leading'
-    test_cases = [((2, 7), '1', 0.0000001), ((2, 6), '1', 0.000001),
-                  ((2, 5), '1', 0.00001), ((2, 4), '1', 0.0001),
-                  ((2, 3), '1', 0.001), ((2, 2), '1', 0.01),
-                  ((2, 1), '1', 0.1), ((2, 7), '-1', -0.0000001),
-                  ((2, 6), '-1', -0.000001), ((2, 5), '-1', -0.00001),
-                  ((2, 4), '-1', -0.0001), ((2, 3), '-1', -0.001),
-                  ((2, 2), '-1', -0.01), ((2, 1), '-1', -0.1),
-                  ((2, 6), '0', 0)]
+    zero_suppression = "leading"
+    test_cases = [
+        ((2, 7), "1", 0.0000001),
+        ((2, 6), "1", 0.000001),
+        ((2, 5), "1", 0.00001),
+        ((2, 4), "1", 0.0001),
+        ((2, 3), "1", 0.001),
+        ((2, 2), "1", 0.01),
+        ((2, 1), "1", 0.1),
+        ((2, 7), "-1", -0.0000001),
+        ((2, 6), "-1", -0.000001),
+        ((2, 5), "-1", -0.00001),
+        ((2, 4), "-1", -0.0001),
+        ((2, 3), "-1", -0.001),
+        ((2, 2), "-1", -0.01),
+        ((2, 1), "-1", -0.1),
+        ((2, 6), "0", 0),
+    ]
     for fmt, string, value in test_cases:
-        assert_equal(value, parse_gerber_value(string, fmt, zero_suppression))
-        assert_equal(string, write_gerber_value(value, fmt, zero_suppression))
-
-    zero_suppression = 'trailing'
-    test_cases = [((6, 5), '1', 100000.0), ((5, 5), '1', 10000.0),
-                  ((4, 5), '1', 1000.0), ((3, 5), '1', 100.0),
-                  ((2, 5), '1', 10.0), ((1, 5), '1', 1.0),
-                  ((6, 5), '-1', -100000.0), ((5, 5), '-1', -10000.0),
-                  ((4, 5), '-1', -1000.0), ((3, 5), '-1', -100.0),
-                  ((2, 5), '-1', -10.0), ((1, 5), '-1', -1.0),
-                  ((2, 5), '0', 0)]
+        assert value == parse_gerber_value(string, fmt, zero_suppression)
+        assert string == write_gerber_value(value, fmt, zero_suppression)
+
+    zero_suppression = "trailing"
+    test_cases = [
+        ((6, 5), "1", 100000.0),
+        ((5, 5), "1", 10000.0),
+        ((4, 5), "1", 1000.0),
+        ((3, 5), "1", 100.0),
+        ((2, 5), "1", 10.0),
+        ((1, 5), "1", 1.0),
+        ((6, 5), "-1", -100000.0),
+        ((5, 5), "-1", -10000.0),
+        ((4, 5), "-1", -1000.0),
+        ((3, 5), "-1", -100.0),
+        ((2, 5), "-1", -10.0),
+        ((1, 5), "-1", -1.0),
+        ((2, 5), "0", 0),
+    ]
     for fmt, string, value in test_cases:
-        assert_equal(value, parse_gerber_value(string, fmt, zero_suppression))
-        assert_equal(string, write_gerber_value(value, fmt, zero_suppression))
+        assert value == parse_gerber_value(string, fmt, zero_suppression)
+        assert string == write_gerber_value(value, fmt, zero_suppression)
 
 
 def test_decimal_truncation():
@@ -76,54 +115,53 @@ def test_decimal_truncation():
     value = 1.123456789
     for x in range(10):
         result = decimal_string(value, precision=x)
-        calculated = '1.' + ''.join(str(y) for y in range(1, x + 1))
-        assert_equal(result, calculated)
+        calculated = "1." + "".join(str(y) for y in range(1, x + 1))
+        assert result == calculated
 
 
 def test_decimal_padding():
     """ Test decimal_string padding
     """
     value = 1.123
-    assert_equal(decimal_string(value, precision=3, padding=True), '1.123')
-    assert_equal(decimal_string(value, precision=4, padding=True), '1.1230')
-    assert_equal(decimal_string(value, precision=5, padding=True), '1.12300')
-    assert_equal(decimal_string(value, precision=6, padding=True), '1.123000')
-    assert_equal(decimal_string(0, precision=6, padding=True), '0.000000')
+    assert decimal_string(value, precision=3, padding=True) == "1.123"
+    assert decimal_string(value, precision=4, padding=True) == "1.1230"
+    assert decimal_string(value, precision=5, padding=True) == "1.12300"
+    assert decimal_string(value, precision=6, padding=True) == "1.123000"
+    assert decimal_string(0, precision=6, padding=True) == "0.000000"
 
 
 def test_parse_format_validation():
     """ Test parse_gerber_value() format validation
     """
-    assert_raises(ValueError, parse_gerber_value, '00001111', (7, 5))
-    assert_raises(ValueError, parse_gerber_value, '00001111', (5, 8))
-    assert_raises(ValueError, parse_gerber_value, '00001111', (13, 1))
+    pytest.raises(ValueError, parse_gerber_value, "00001111", (7, 5))
+    pytest.raises(ValueError, parse_gerber_value, "00001111", (5, 8))
+    pytest.raises(ValueError, parse_gerber_value, "00001111", (13, 1))
 
 
 def test_write_format_validation():
     """ Test write_gerber_value() format validation
     """
-    assert_raises(ValueError, write_gerber_value, 69.0, (7, 5))
-    assert_raises(ValueError, write_gerber_value, 69.0, (5, 8))
-    assert_raises(ValueError, write_gerber_value, 69.0, (13, 1))
+    pytest.raises(ValueError, write_gerber_value, 69.0, (7, 5))
+    pytest.raises(ValueError, write_gerber_value, 69.0, (5, 8))
+    pytest.raises(ValueError, write_gerber_value, 69.0, (13, 1))
 
 
 def test_detect_format_with_short_file():
     """ Verify file format detection works with short files
     """
-    assert_equal('unknown', detect_file_format('gerber/tests/__init__.py'))
+    assert "unknown" == detect_file_format("gerber/tests/__init__.py")
 
 
 def test_validate_coordinates():
-    assert_raises(TypeError, validate_coordinates, 3)
-    assert_raises(TypeError, validate_coordinates, 3.1)
-    assert_raises(TypeError, validate_coordinates, '14')
-    assert_raises(TypeError, validate_coordinates, (0,))
-    assert_raises(TypeError, validate_coordinates, (0, 1, 2))
-    assert_raises(TypeError, validate_coordinates, (0, 'string'))
+    pytest.raises(TypeError, validate_coordinates, 3)
+    pytest.raises(TypeError, validate_coordinates, 3.1)
+    pytest.raises(TypeError, validate_coordinates, "14")
+    pytest.raises(TypeError, validate_coordinates, (0,))
+    pytest.raises(TypeError, validate_coordinates, (0, 1, 2))
+    pytest.raises(TypeError, validate_coordinates, (0, "string"))
 
 
 def test_convex_hull():
     points = [(0, 0), (1, 0), (1, 1), (0.5, 0.5), (0, 1), (0, 0)]
     expected = [(0, 0), (1, 0), (1, 1), (0, 1), (0, 0)]
-    assert_equal(set(convex_hull(points)), set(expected))
-    
\ No newline at end of file
+    assert set(convex_hull(points)) == set(expected)
diff --git a/gerber/tests/tests.py b/gerber/tests/tests.py
deleted file mode 100644
index ac08208..0000000
--- a/gerber/tests/tests.py
+++ /dev/null
@@ -1,25 +0,0 @@
-#! /usr/bin/env python
-# -*- coding: utf-8 -*-
-
-# Author: Hamilton Kibbe <ham@hamiltonkib.be>
-
-from nose.tools import assert_in
-from nose.tools import assert_not_in
-from nose.tools import assert_equal
-from nose.tools import assert_not_equal
-from nose.tools import assert_almost_equal
-from nose.tools import assert_true
-from nose.tools import assert_false
-from nose.tools import assert_raises
-from nose.tools import raises
-from nose import with_setup
-
-__all__ = ['assert_in', 'assert_not_in', 'assert_equal', 'assert_not_equal',
-           'assert_almost_equal', 'assert_array_almost_equal', 'assert_true',
-           'assert_false', 'assert_raises', 'raises', 'with_setup']
-
-
-def assert_array_almost_equal(arr1, arr2, decimal=6):
-    assert_equal(len(arr1), len(arr2))
-    for i in range(len(arr1)):
-        assert_almost_equal(arr1[i], arr2[i], decimal)
diff --git a/requirements-dev.txt b/requirements-dev.txt
index c1e695d..1238afe 100644
--- a/requirements-dev.txt
+++ b/requirements-dev.txt
@@ -1,5 +1,5 @@
 # install base requirements
 -r requirements.txt
 
-coverage==4.5.4
-nose==1.3.7
+ pytest==4.6.6
+ pytest-cov==2.8.1