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authorGarret Fick <garret@ficksworkshop.com>2016-02-27 15:24:36 +0800
committerGarret Fick <garret@ficksworkshop.com>2016-02-27 15:24:36 +0800
commit29c0d82bf53907030d11df9eb09471b716a0be2e (patch)
treee172ad05e29c9f6a82c862badd0d2242dd567be1 /gerber
parent02dbc6a51e2ef417f2bd41d6159ba53cc736535d (diff)
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RS274X backend for rendering. Incompelte still
Diffstat (limited to 'gerber')
-rw-r--r--gerber/gerber_statements.py65
-rw-r--r--gerber/primitives.py46
-rw-r--r--gerber/render/rs274x_backend.py290
-rw-r--r--gerber/utils.py6
4 files changed, 403 insertions, 4 deletions
diff --git a/gerber/gerber_statements.py b/gerber/gerber_statements.py
index 14a431b..bb190f4 100644
--- a/gerber/gerber_statements.py
+++ b/gerber/gerber_statements.py
@@ -226,6 +226,11 @@ class LPParamStmt(ParamStmt):
param = stmt_dict['param']
lp = 'clear' if stmt_dict.get('lp') == 'C' else 'dark'
return cls(param, lp)
+
+ @classmethod
+ def from_region(cls, region):
+ #todo what is the first param?
+ return cls(None, region.level_polarity)
def __init__(self, param, lp):
""" Initialize LPParamStmt class
@@ -258,7 +263,21 @@ class LPParamStmt(ParamStmt):
class ADParamStmt(ParamStmt):
""" AD - Gerber Aperture Definition Statement
"""
-
+
+ @classmethod
+ def rect(cls, dcode, width, height):
+ '''Create a rectangular aperture definition statement'''
+ return cls('AD', dcode, 'R', ([width, height],))
+
+ @classmethod
+ def circle(cls, dcode, diameter):
+ '''Create a circular aperture definition statement'''
+ return cls('AD', dcode, 'C', ([diameter],))
+
+ @classmethod
+ def macro(cls, dcode, name):
+ return cls('AD', dcode, name, '')
+
@classmethod
def from_dict(cls, stmt_dict):
param = stmt_dict.get('param')
@@ -293,7 +312,9 @@ class ADParamStmt(ParamStmt):
ParamStmt.__init__(self, param)
self.d = d
self.shape = shape
- if modifiers:
+ if isinstance(modifiers, tuple):
+ self.modifiers = modifiers
+ elif modifiers:
self.modifiers = [tuple([float(x) for x in m.split("X") if len(x)]) for m in modifiers.split(",") if len(m)]
else:
self.modifiers = [tuple()]
@@ -817,6 +838,14 @@ class CoordStmt(Statement):
""" Coordinate Data Block
"""
+ OP_DRAW = 'D01'
+ OP_MOVE = 'D02'
+ OP_FLASH = 'D03'
+
+ FUNC_LINEAR = 'G01'
+ FUNC_ARC_CW = 'G02'
+ FUNC_ARC_CCW = 'G03'
+
@classmethod
def from_dict(cls, stmt_dict, settings):
function = stmt_dict['function']
@@ -835,6 +864,22 @@ class CoordStmt(Statement):
if j is not None:
j = parse_gerber_value(stmt_dict.get('j'), settings.format, settings.zero_suppression)
return cls(function, x, y, i, j, op, settings)
+
+ @classmethod
+ def move(cls, func, point):
+ return cls(func, point[0], point[1], None, None, CoordStmt.OP_MOVE, None)
+
+ @classmethod
+ def line(cls, func, point):
+ return cls(func, point[0], point[1], None, None, CoordStmt.OP_DRAW, None)
+
+ @classmethod
+ def arc(cls, func, point, center):
+ return cls(func, point[0], point[1], center[0], center[1], CoordStmt.OP_DRAW, None)
+
+ @classmethod
+ def flash(cls, point):
+ return cls(None, point[0], point[1], None, None, CoordStmt.OP_FLASH, None)
def __init__(self, function, x, y, i, j, op, settings):
""" Initialize CoordStmt class
@@ -1003,6 +1048,14 @@ class EofStmt(Statement):
class QuadrantModeStmt(Statement):
+
+ @classmethod
+ def single(cls):
+ return cls('single-quadrant')
+
+ @classmethod
+ def multi(cls):
+ return cls('multi-quadrant')
@classmethod
def from_gerber(cls, line):
@@ -1031,6 +1084,14 @@ class RegionModeStmt(Statement):
if 'G36' not in line and 'G37' not in line:
raise ValueError('%s is not a valid region mode statement' % line)
return (cls('on') if line[:3] == 'G36' else cls('off'))
+
+ @classmethod
+ def on(cls):
+ return cls('on')
+
+ @classmethod
+ def off(cls):
+ return cls('off')
def __init__(self, mode):
super(RegionModeStmt, self).__init__('RegionMode')
diff --git a/gerber/primitives.py b/gerber/primitives.py
index 84115a6..21efb55 100644
--- a/gerber/primitives.py
+++ b/gerber/primitives.py
@@ -17,8 +17,9 @@
import math
from operator import add, sub
-from .utils import validate_coordinates, inch, metric, rotate_point
+from .utils import validate_coordinates, inch, metric, rotate_point, nearly_equal
from jsonpickle.util import PRIMITIVES
+from __builtin__ import False
class Primitive(object):
@@ -120,6 +121,9 @@ class Primitive(object):
def __eq__(self, other):
return self.__dict__ == other.__dict__
+
+ def to_statement(self):
+ pass
class Line(Primitive):
@@ -216,7 +220,16 @@ class Line(Primitive):
def offset(self, x_offset=0, y_offset=0):
self.start = tuple(map(add, self.start, (x_offset, y_offset)))
self.end = tuple(map(add, self.end, (x_offset, y_offset)))
+
+ def equivalent(self, other, offset):
+
+ if not isinstance(other, Line):
+ return False
+
+ equiv_start = tuple(map(add, other.start, offset))
+ equiv_end = tuple(map(add, other.end, offset))
+ return nearly_equal(self.start, equiv_start) and nearly_equal(self.end, equiv_end)
class Arc(Primitive):
"""
@@ -736,7 +749,7 @@ class AMGroup(Primitive):
elif prim:
self.primitives.append(prim)
self._position = None
- self._to_convert = ['arimitives']
+ self._to_convert = ['primitives']
@property
def flashed(self):
@@ -776,6 +789,21 @@ class AMGroup(Primitive):
self._position = new_pos
+ def equivalent(self, other, offset):
+ '''
+ Is this the macro group the same as the other, ignoring the position offset?
+ '''
+
+ if len(self.primitives) != len(other.primitives):
+ return False
+
+ # We know they have the same number of primitives, so now check them all
+ for i in range(0, len(self.primitives)):
+ if not self.primitives[i].equivalent(other.primitives[i], offset):
+ return False
+
+ # If we didn't find any differences, then they are the same
+ return True
class Outline(Primitive):
"""
@@ -816,6 +844,20 @@ class Outline(Primitive):
bounding_box = self.bounding_box()
return bounding_box[1][1] - bounding_box[1][0]
+ def equivalent(self, other, offset):
+ '''
+ Is this the outline the same as the other, ignoring the position offset?
+ '''
+
+ # Quick check if it even makes sense to compare them
+ if type(self) != type(other) or len(self.primitives) != len(other.primitives):
+ return False
+
+ for i in range(0, len(self.primitives)):
+ if not self.primitives[i].equivalent(other.primitives[i], offset):
+ return False
+
+ return True
class Region(Primitive):
"""
diff --git a/gerber/render/rs274x_backend.py b/gerber/render/rs274x_backend.py
new file mode 100644
index 0000000..0094192
--- /dev/null
+++ b/gerber/render/rs274x_backend.py
@@ -0,0 +1,290 @@
+
+from .render import GerberContext
+from ..gerber_statements import *
+from ..primitives import AMGroup, Arc, Circle, Line, Rectangle
+
+class Rs274xContext(GerberContext):
+
+ def __init__(self, settings):
+ GerberContext.__init__(self)
+ self.header = []
+ self.body = []
+ self.end = [EofStmt()]
+
+ # Current values so we know if we have to execute
+ # moves, levey changes before anything else
+ self._level_polarity = None
+ self._pos = (None, None)
+ self._func = None
+ self._quadrant_mode = None
+ self._dcode = None
+
+ self._next_dcode = 10
+ self._rects = {}
+ self._circles = {}
+ self._macros = {}
+
+ self._i_none = 0
+ self._j_none = 0
+
+ self._define_dcodes()
+
+
+ def _define_dcodes(self):
+
+ self._get_circle(.1575, 10)
+ self._get_circle(.035, 17)
+ self._get_rectangle(0.1575, 0.1181, 15)
+ self._get_rectangle(0.0492, 0.0118, 16)
+ self._get_circle(.0197, 11)
+ self._get_rectangle(0.0236, 0.0591, 12)
+ self._get_circle(.005, 18)
+ self._get_circle(.008, 19)
+ self._get_circle(.009, 20)
+ self._get_circle(.01, 21)
+ self._get_circle(.02, 22)
+ self._get_circle(.006, 23)
+ self._get_circle(.015, 24)
+ self._get_rectangle(0.1678, 0.1284, 26)
+ self._get_rectangle(0.0338, 0.0694, 25)
+
+ def _simplify_point(self, point):
+ return (point[0] if point[0] != self._pos[0] else None, point[1] if point[1] != self._pos[1] else None)
+
+ def _simplify_offset(self, point, offset):
+
+ if point[0] != offset[0]:
+ xoffset = point[0] - offset[0]
+ else:
+ xoffset = self._i_none
+
+ if point[1] != offset[1]:
+ yoffset = point[1] - offset[1]
+ else:
+ yoffset = self._j_none
+
+ return (xoffset, yoffset)
+
+ @property
+ def statements(self):
+ return self.header + self.body + self.end
+
+ def set_bounds(self, bounds):
+ pass
+
+ def _paint_background(self):
+ pass
+
+ def _select_aperture(self, aperture):
+
+ # Select the right aperture if not already selected
+ if aperture:
+ if isinstance(aperture, Circle):
+ aper = self._get_circle(aperture.diameter)
+ elif isinstance(aperture, Rectangle):
+ aper = self._get_rectangle(aperture.width, aperture.height)
+ else:
+ raise NotImplementedError('Line with invalid aperture type')
+
+ if aper.d != self._dcode:
+ self.body.append(ApertureStmt(aper.d))
+ self._dcode = aper.d
+
+ def _render_line(self, line, color):
+
+ self._select_aperture(line.aperture)
+
+ # Get the right function
+ if self._func != CoordStmt.FUNC_LINEAR:
+ func = CoordStmt.FUNC_LINEAR
+ else:
+ func = None
+ self._func = CoordStmt.FUNC_LINEAR
+
+ if self._pos != line.start:
+ self.body.append(CoordStmt.move(func, self._simplify_point(line.start)))
+ self._pos = line.start
+ # We already set the function, so the next command doesn't require that
+ func = None
+
+ self.body.append(CoordStmt.line(func, self._simplify_point(line.end)))
+ self._pos = line.end
+
+ def _render_arc(self, arc, color):
+
+ # Optionally set the quadrant mode if it has changed:
+ if arc.quadrant_mode != self._quadrant_mode:
+
+ if arc.quadrant_mode != 'multi-quadrant':
+ self.body.append(QuadrantModeStmt.single())
+ else:
+ self.body.append(QuadrantModeStmt.multi())
+
+ self._quadrant_mode = arc.quadrant_mode
+
+ # Select the right aperture if not already selected
+ self._select_aperture(arc.aperture)
+
+ # Find the right movement mode. Always set to be sure it is really right
+ dir = arc.direction
+ if dir == 'clockwise':
+ func = CoordStmt.FUNC_ARC_CW
+ self._func = CoordStmt.FUNC_ARC_CW
+ elif dir == 'counterclockwise':
+ func = CoordStmt.FUNC_ARC_CCW
+ self._func = CoordStmt.FUNC_ARC_CCW
+ else:
+ raise ValueError('Invalid circular interpolation mode')
+
+ if self._pos != arc.start:
+ # TODO I'm not sure if this is right
+ self.body.append(CoordStmt.move(CoordStmt.FUNC_LINEAR, self._simplify_point(arc.start)))
+ self._pos = arc.start
+
+ center = self._simplify_offset(arc.center, arc.start)
+ end = self._simplify_point(arc.end)
+ self.body.append(CoordStmt.arc(func, end, center))
+ self._pos = arc.end
+
+ def _render_region(self, region, color):
+
+ self._render_level_polarity(region)
+
+ self.body.append(RegionModeStmt.on())
+
+ for p in region.primitives:
+
+ if isinstance(p, Line):
+ self._render_line(p, color)
+ else:
+ self._render_arc(p, color)
+
+
+ self.body.append(RegionModeStmt.off())
+
+ def _render_level_polarity(self, region):
+ if region.level_polarity != self._level_polarity:
+ self._level_polarity = region.level_polarity
+ self.body.append(LPParamStmt.from_region(region))
+
+ def _render_flash(self, primitive, aperture):
+
+ if aperture.d != self._dcode:
+ self.body.append(ApertureStmt(aperture.d))
+ self._dcode = aperture.d
+
+ self.body.append(CoordStmt.flash( self._simplify_point(primitive.position)))
+ self._pos = primitive.position
+
+ def _get_circle(self, diameter, dcode = None):
+ '''Define a circlar aperture'''
+
+ aper = self._circles.get(diameter, None)
+
+ if not aper:
+ if not dcode:
+ dcode = self._next_dcode
+ self._next_dcode += 1
+ else:
+ self._next_dcode = max(dcode + 1, self._next_dcode)
+
+ aper = ADParamStmt.circle(dcode, diameter)
+ self._circles[diameter] = aper
+ self.header.append(aper)
+
+ return aper
+
+ def _render_circle(self, circle, color):
+
+ aper = self._get_circle(circle.diameter)
+ self._render_flash(circle, aper)
+
+ def _get_rectangle(self, width, height, dcode = None):
+ '''Get a rectanglar aperture. If it isn't defined, create it'''
+
+ key = (width, height)
+ aper = self._rects.get(key, None)
+
+ if not aper:
+ if not dcode:
+ dcode = self._next_dcode
+ self._next_dcode += 1
+ else:
+ self._next_dcode = max(dcode + 1, self._next_dcode)
+
+ aper = ADParamStmt.rect(dcode, width, height)
+ self._rects[(width, height)] = aper
+ self.header.append(aper)
+
+ return aper
+
+ def _render_rectangle(self, rectangle, color):
+
+ aper = self._get_rectangle(rectangle.width, rectangle.height)
+ self._render_flash(rectangle, aper)
+
+ def _render_obround(self, obround, color):
+ pass
+
+ def _render_polygon(self, polygon, color):
+ pass
+
+ def _render_drill(self, circle, color):
+ pass
+
+ def _hash_amacro(self, amgroup):
+ '''Calculate a very quick hash code for deciding if we should even check AM groups for comparision'''
+
+ hash = ''
+ for primitive in amgroup.primitives:
+
+ hash += primitive.__class__.__name__[0]
+ if hasattr(primitive, 'primitives'):
+ hash += str(len(primitive.primitives))
+
+ return hash
+
+ def _get_amacro(self, amgroup, dcode = None):
+ # Macros are a little special since we don't have a good way to compare them quickly
+ # but in most cases, this should work
+
+ hash = self._hash_amacro(amgroup)
+ macro = self._macros.get(hash, None)
+
+ if not macro:
+ # This is a new macro, so define it
+ if not dcode:
+ dcode = self._next_dcode
+ self._next_dcode += 1
+ else:
+ self._next_dcode = max(dcode + 1, self._next_dcode)
+
+ # Create the statements
+ # TODO
+ statements = []
+ aperdef = ADParamStmt.macro(dcode, hash)
+
+ # Store the dcode and the original so we can check if it really is the same
+ macro = (aperdef, amgroup)
+ self._macros[hash] = macro
+
+ else:
+ # We hae a definition, but check that the groups actually are the same
+ offset = (amgroup.position[0] - macro[1].position[0], amgroup.position[1] - macro[1].position[1])
+ if not amgroup.equivalent(macro[1], offset):
+ raise ValueError('Two AMGroup have the same hash but are not equivalent')
+
+ return macro[0]
+
+ def _render_amgroup(self, amgroup, color):
+
+ aper = self._get_amacro(amgroup)
+ self._render_flash(amgroup, aper)
+
+ def _render_inverted_layer(self):
+ pass
+
+ def post_render_primitives(self):
+ '''No more primitives, so set the end marker'''
+
+ self.body.append() \ No newline at end of file
diff --git a/gerber/utils.py b/gerber/utils.py
index 1c0af52..16323d6 100644
--- a/gerber/utils.py
+++ b/gerber/utils.py
@@ -288,3 +288,9 @@ def rotate_point(point, angle, center=(0.0, 0.0)):
x = center[0] + (cos(angle) * xdelta) - (sin(angle) * ydelta)
y = center[1] + (sin(angle) * xdelta) - (cos(angle) * ydelta)
return (x, y)
+
+
+def nearly_equal(point1, point2, ndigits = 6):
+ '''Are the points nearly equal'''
+
+ return round(point1[0] - point2[0], ndigits) == 0 and round(point1[1] - point2[1], ndigits) == 0