diff options
Diffstat (limited to 'gerberex/dxf.py')
-rw-r--r-- | gerberex/dxf.py | 327 |
1 files changed, 125 insertions, 202 deletions
diff --git a/gerberex/dxf.py b/gerberex/dxf.py index ae543ae..8f0b984 100644 --- a/gerberex/dxf.py +++ b/gerberex/dxf.py @@ -12,7 +12,7 @@ from gerber.gerber_statements import ADParamStmt from gerber.excellon_statements import ExcellonTool from gerber.excellon_statements import CoordinateStmt from gerberex.utility import is_equal_point, is_equal_value -from gerberex.dxf_path import generate_closed_paths +from gerberex.dxf_path import generate_paths from gerberex.excellon import write_excellon_header from gerberex.rs274x import write_gerber_header @@ -25,12 +25,6 @@ class DxfStatement(object): self.end = None self.is_closed = False - def to_gerber(self, settings=None, pitch=0, width=0): - pass - - def to_excellon(self, settings=None, pitch=0, width=0): - pass - def to_inch(self): pass @@ -61,38 +55,6 @@ class DxfLineStatement(DxfStatement): super(DxfLineStatement, self).__init__(entity) self.start = start self.end = end - - def to_gerber(self, settings=FileSettings(), pitch=0, width=0): - if pitch == 0: - x0, y0 = self.start - x1, y1 = self.end - return 'G01*\nX{0}Y{1}D02*\nX{2}Y{3}D01*'.format( - write_gerber_value(x0, settings.format, - settings.zero_suppression), - write_gerber_value(y0, settings.format, - settings.zero_suppression), - write_gerber_value(x1, settings.format, - settings.zero_suppression), - write_gerber_value(y1, settings.format, - settings.zero_suppression) - ) - else: - gstr = "" - for p in self._dots(pitch, width): - gstr += 'X{0}Y{1}D03*\n'.format( - write_gerber_value(p[0], settings.format, - settings.zero_suppression), - write_gerber_value(p[1], settings.format, - settings.zero_suppression)) - return gstr - - def to_excellon(self, settings=FileSettings(), pitch=0, width=0): - if not pitch: - return - gstr = "" - for p in self._dots(pitch, width): - gstr += CoordinateStmt(x=p[0], y=p[1]).to_excellon(settings) + '\n' - return gstr def to_inch(self): self.start = ( @@ -119,7 +81,7 @@ class DxfLineStatement(DxfStatement): self.start = self.end self.end = pt - def _dots(self, pitch, width): + def dots(self, pitch, width, offset=0): x0, y0 = self.start x1, y1 = self.end y1 = self.end[1] @@ -128,13 +90,18 @@ class DxfLineStatement(DxfStatement): l = sqrt(xp * xp + yp * yp) xd = xp * pitch / l yd = yp * pitch / l + x0 += xp * offset / l + y0 += yp * offset / l - d = 0; - while d < l + width / 2: - yield (x0, y0) - x0 += xd - y0 += yd - d += pitch + if offset > l + width / 2: + return (None, offset - l) + else: + d = offset; + while d < l + width / 2: + yield ((x0, y0), d - l) + x0 += xd + y0 += yd + d += pitch def offset(self, offset_x, offset_y): self.start = (self.start[0] + offset_x, self.start[1] + offset_y) @@ -144,104 +111,34 @@ class DxfLineStatement(DxfStatement): self.start = rotate_point(self.start, angle, center) self.end = rotate_point(self.end, angle, center) -class DxfCircleStatement(DxfStatement): - def __init__(self, entity): - super(DxfCircleStatement, self).__init__(entity) - self.radius = self.entity.radius - self.center = (self.entity.center[0], self.entity.center[1]) - self.start = (self.center[0] + self.radius, self.center[1]) - self.end = self.start - self.is_closed = True - - def to_gerber(self, settings=FileSettings(), pitch=0, width=0): - if pitch: - return - r = self.radius - x0, y0 = self.center - return 'G01*\nX{0}Y{1}D02*\n' \ - 'G75*\nG03*\nX{2}Y{3}I{4}J{5}D01*'.format( - write_gerber_value(x0 + r, settings.format, - settings.zero_suppression), - write_gerber_value(y0, settings.format, - settings.zero_suppression), - - write_gerber_value(x0 + r, settings.format, - settings.zero_suppression), - write_gerber_value(y0, settings.format, - settings.zero_suppression), - write_gerber_value(-r, settings.format, - settings.zero_suppression), - write_gerber_value(0, settings.format, - settings.zero_suppression) - ) - - def to_inch(self): - self.radius = inch(self.radius) - self.center = ( - inch(self.center[0]), inch(self.center[1])) - - def to_metric(self): - self.radius = metric(self.radius) - self.center = ( - metric(self.center[0]), metric(self.center[1])) - - def is_equal_to(self, target, error_range=0): - if not isinstance(target, DxfCircleStatement): - return False - return is_equal_point(self.center, target.enter, error_range) and \ - is_equal_value(self.radius, target.radius) - - def reverse(self): - pass - - def offset(self, offset_x, offset_y): - self.center = (self.center[0] + offset_x, self.center[1] + offset_y) - - def rotate(self, angle, center=(0, 0)): - self.center = rotate_point(self.center, angle, center) - class DxfArcStatement(DxfStatement): def __init__(self, entity): super(DxfArcStatement, self).__init__(entity) - self.start_angle = self.entity.start_angle - self.end_angle = self.entity.end_angle - self.radius = self.entity.radius - self.center = (self.entity.center[0], self.entity.center[1]) - self.start = ( - self.center[0] + self.radius * cos(self.start_angle / 180. * pi), - self.center[1] + self.radius * sin(self.start_angle / 180. * pi), - ) - self.end = ( - self.center[0] + self.radius * cos(self.end_angle / 180. * pi), - self.center[1] + self.radius * sin(self.end_angle / 180. * pi), - ) - angle = self.end_angle - self.start_angle - self.is_closed = angle >= 360 or angle <= -360 - - def to_gerber(self, settings=FileSettings(), pitch=0, width=0): - if pitch: - return - x0 = self.center[0] - y0 = self.center[1] - start_x, start_y = self.start - end_x, end_y = self.end - - return 'G01*\nX{0}Y{1}D02*\n' \ - 'G75*\nG{2}*\nX{3}Y{4}I{5}J{6}D01*'.format( - write_gerber_value(start_x, settings.format, - settings.zero_suppression), - write_gerber_value(start_y, settings.format, - settings.zero_suppression), - '02' if self.start_angle > self.end_angle else '03', - write_gerber_value(end_x, settings.format, - settings.zero_suppression), - write_gerber_value(end_y, settings.format, - settings.zero_suppression), - write_gerber_value(x0 - start_x, settings.format, - settings.zero_suppression), - write_gerber_value(y0 - start_y, settings.format, - settings.zero_suppression) - ) + if entity.dxftype == 'CIRCLE': + self.radius = self.entity.radius + self.center = (self.entity.center[0], self.entity.center[1]) + self.start = (self.center[0] + self.radius, self.center[1]) + self.end = self.start + self.start_angle = 0 + self.end_angle = -360 + self.is_closed = True + elif entity.dxftype == 'ARC': + self.start_angle = self.entity.start_angle + self.end_angle = self.entity.end_angle + self.radius = self.entity.radius + self.center = (self.entity.center[0], self.entity.center[1]) + self.start = ( + self.center[0] + self.radius * cos(self.start_angle / 180. * pi), + self.center[1] + self.radius * sin(self.start_angle / 180. * pi), + ) + self.end = ( + self.center[0] + self.radius * cos(self.end_angle / 180. * pi), + self.center[1] + self.radius * sin(self.end_angle / 180. * pi), + ) + angle = self.end_angle - self.start_angle + self.is_closed = angle >= 360 or angle <= -360 + else: + raise Exception('invalid DXF type was specified') def to_inch(self): self.radius = inch(self.radius) @@ -274,6 +171,28 @@ class DxfArcStatement(DxfStatement): self.start = self.end self.end = tmp + def dots(self, pitch, width, offset=0): + angle = self.end_angle - self.start_angle + afactor = 1 if angle > 0 else -1 + aangle = angle * afactor + L = 2 * pi * self.radius + l = L * aangle / 360 + pangle = pitch / L * 360 + wangle = width / L * 360 + oangle = offset / L * 360 + + if offset > l + width / 2: + yield (None, offset - l) + else: + da = oangle + while da < aangle + wangle / 2: + cangle = self.start_angle + da * afactor + x = self.radius * cos(cangle / 180 * pi) + self.center[0] + y = self.radius * sin(cangle / 180 * pi) + self.center[1] + remain = (da - aangle) / 360 * L + yield((x, y), remain) + da += pangle + def offset(self, offset_x, offset_y): self.center = (self.center[0] + offset_x, self.center[1] + offset_y) self.start = (self.start[0] + offset_x, self.start[1] + offset_y) @@ -296,36 +215,30 @@ class DxfPolylineStatement(DxfStatement): else: self.end = (self.entity.points[-1][0], self.entity.points[-1][1]) - def to_gerber(self, settings=FileSettings(), pitch=0, width=0): - if pitch: - return - x0 = self.entity.points[0][0] - y0 = self.entity.points[0][1] - b = self.entity.bulge[0] - gerber = 'G01*\nX{0}Y{1}D02*\nG75*'.format( - write_gerber_value(x0, settings.format, - settings.zero_suppression), - write_gerber_value(y0, settings.format, - settings.zero_suppression), - ) - + def disassemble(self): + class Item: + pass + def ptseq(): for i in range(1, len(self.entity.points)): yield i if self.entity.is_closed: yield 0 - + + x0 = self.entity.points[0][0] + y0 = self.entity.points[0][1] + b = self.entity.bulge[0] for idx in ptseq(): pt = self.entity.points[idx] x1 = pt[0] y1 = pt[1] if b == 0: - gerber += '\nG01*\nX{0}Y{1}D01*'.format( - write_gerber_value(x1, settings.format, - settings.zero_suppression), - write_gerber_value(y1, settings.format, - settings.zero_suppression), - ) + item = Item() + item.dxftype = 'LINE' + item.start = (x0, y0) + item.end = (x1, y1) + item.is_closed = False + yield DxfLineStatement.from_entity(item) else: ang = 4 * atan(b) xm = x0 + x1 @@ -334,24 +247,27 @@ class DxfPolylineStatement(DxfStatement): xc = (xm - t * (y1 - y0)) / 2 yc = (ym + t * (x1 - x0)) / 2 r = sqrt((x0 - xc)*(x0 - xc) + (y0 - yc)*(y0 - yc)) - - gerber += '\nG{0}*\nX{1}Y{2}I{3}J{4}D01*'.format( - '03' if ang > 0 else '02', - write_gerber_value(x1, settings.format, - settings.zero_suppression), - write_gerber_value(y1, settings.format, - settings.zero_suppression), - write_gerber_value(xc - x0, settings.format, - settings.zero_suppression), - write_gerber_value(yc - y0, settings.format, - settings.zero_suppression) - ) + rx0 = x0 - xc + ry0 = y0 - yc + rc = max(min(rx0 / r, 1.0), -1.0) + start_angle = acos(rc) if ry0 > 0 else 2 * pi - acos(rc) + start_angle *= 180 / pi + end_angle = start_angle + ang * 180 / pi + + item = Item() + item.dxftype = 'ARC' + item.start = (x0, y0) + item.end = (x1, y1) + item.start_angle = start_angle + item.end_angle = end_angle + item.radius = r + item.center = (xc, yc) + item.is_closed = end_angle - start_angle >= 360 + yield DxfArcStatement(item) x0 = x1 y0 = y1 b = self.entity.bulge[idx] - - return gerber def to_inch(self): self.start = (inch(self.start[0]), inch(self.start[1])) @@ -376,7 +292,6 @@ class DxfPolylineStatement(DxfStatement): for idx in range(len(self.entity.points)): self.entity.points[idx] = rotate_point(self.entity.points[idx], angle, center) - class DxfStatements(object): def __init__(self, statements, units, dcode=10, draw_mode=None): if draw_mode == None: @@ -388,7 +303,7 @@ class DxfStatements(object): self.width = 0 self.error_range = inch(ACCEPTABLE_ERROR) if self._units == 'inch' else ACCEPTABLE_ERROR self.statements = statements - self.paths = generate_closed_paths(self.statements, self.error_range) + self.close_paths, self.open_paths = generate_paths(self.statements, self.error_range) @property def units(self): @@ -401,58 +316,62 @@ class DxfStatements(object): yield 'D{0}*'.format(self.dcode) if self.draw_mode == DxfFile.DM_FILL: yield 'G36*' - for statement in self.statements: - if isinstance(statement, DxfCircleStatement) or \ - (isinstance(statement, DxfPolylineStatement) and statement.entity.is_closed): - yield statement.to_gerber(settings) - for path in self.paths: + for path in self.close_paths: yield path.to_gerber(settings) yield 'G37*' else: - for statement in self.statements: - yield statement.to_gerber( - settings, - pitch=self.pitch if self.draw_mode == DxfFile.DM_MOUSE_BITES else 0, - width=self.width) + pitch = self.pitch if self.draw_mode == DxfFile.DM_MOUSE_BITES else 0 + for path in self.open_paths: + yield path.to_gerber(settings, pitch=pitch, width=self.width) + for path in self.close_paths: + yield path.to_gerber(settings, pitch=pitch, width=self.width) return '\n'.join(gerbers()) def to_excellon(self, settings=FileSettings()): - if not self.draw_mode == DxfFile.DM_MOUSE_BITES: + if self.draw_mode == DxfFile.DM_FILL: return def drills(): - for statement in self.statements: - if isinstance(statement, DxfLineStatement): - yield statement.to_excellon(settings, pitch=self.pitch, width=self.width) + pitch = self.pitch if self.draw_mode == DxfFile.DM_MOUSE_BITES else 0 + for path in self.open_paths: + yield path.to_excellon(settings, pitch=pitch, width=self.width) + for path in self.close_paths: + yield path.to_excellon(settings, pitch=pitch, width=self.width) return '\n'.join(drills()) def to_inch(self): if self._units == 'metric': self._units = 'inch' self.pitch = inch(self.pitch) + self.width = inch(self.width) self.error_range = inch(self.error_range) - for statement in self.statements: - statement.to_inch() - for path in self.paths: + for path in self.open_paths: + path.to_inch() + for path in self.close_paths: path.to_inch() def to_metric(self): if self._units == 'inch': self._units = 'metric' self.pitch = metric(self.pitch) + self.width = metric(self.width) self.error_range = metric(self.error_range) - for statement in self.statements: - statement.to_metric() - for path in self.paths: + for path in self.open_paths: + path.to_metric() + for path in self.close_paths: path.to_metric() def offset(self, offset_x, offset_y): - for statement in self.statements: - statement.offset(offset_x, offset_y) + for path in self.open_paths: + path.offset(offset_x, offset_y) + for path in self.close_paths: + path.offset(offset_x, offset_y) def rotate(self, angle, center=(0, 0)): - for statement in self.statements: - statement.rotate(angle, center) + for path in self.open_paths: + path.rotate(angle, center) + for path in self.close_paths: + path.rotate(angle, center) class DxfFile(CamFile): DM_LINE = 0 @@ -483,7 +402,7 @@ class DxfFile(CamFile): elif entity.dxftype == 'LINE': statements.append(DxfLineStatement.from_entity(entity)) elif entity.dxftype == 'CIRCLE': - statements.append(DxfCircleStatement(entity)) + statements.append(DxfArcStatement(entity)) elif entity.dxftype == 'ARC': statements.append(DxfArcStatement(entity)) @@ -513,6 +432,10 @@ class DxfFile(CamFile): self._draw_mode = draw_mode self.aperture = ADParamStmt.circle(dcode=10, diameter=0.0) + if settings.units == 'inch': + self.aperture.to_inch() + else: + self.aperture.to_metric() self.statements = DxfStatements( statements, self.units, dcode=self.aperture.d, draw_mode=self.draw_mode) |