#! /usr/bin/env python # -*- coding: utf-8 -*- # copyright 2014 Hamilton Kibbe # Modified from code by Paulo Henrique Silva # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # http://www.apache.org/licenses/LICENSE-2.0 # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """ Rendering ============ **Gerber (RS-274X) and Excellon file rendering** Render Gerber and Excellon files to a variety of formats. """ from ..gerber_statements import (CommentStmt, UnknownStmt, EofStmt, ParamStmt, CoordStmt, ApertureStmt, RegionModeStmt, QuadrantModeStmt, ) class GerberContext(object): """ Gerber rendering context base class Provides basic functionality and API for rendering gerber files. Medium- specific renderers should subclass GerberContext and implement the drawing functions. Colors are stored internally as 32-bit RGB and may need to be converted to a native format in the rendering subclass. Attributes ---------- settings : FileSettings (dict-like) Gerber file settings x : float X-coordinate of the "photoplotter" head. y : float Y-coordinate of the "photoplotter" head aperture : int The aperture that is currently in use interpolation : str Current interpolation mode. may be 'linear' or 'arc' direction : string Current arc direction. May be either 'clockwise' or 'counterclockwise' image_polarity : string Current image polarity setting. May be 'positive' or 'negative' level_polarity : string Level polarity. May be 'dark' or 'clear'. Dark polarity indicates the existance of copper/silkscreen/etc. in the exposed area, whereas clear polarity indicates material should be removed from the exposed area. region_mode : string Region mode. May be 'on' or 'off'. When region mode is set to 'on' the following "contours" define the outline of a region. When region mode is subsequently turned 'off', the defined area is filled. quadrant_mode : string Quadrant mode. May be 'single-quadrant' or 'multi-quadrant'. Defines how arcs are specified. color : tuple (, , ) Color used for rendering as a tuple of normalized (red, green, blue) values. drill_color : tuple (, , ) Color used for rendering drill hits. Format is the same as for `color`. background_color : tuple (, , ) Color of the background. Used when exposing areas in 'clear' level polarity mode. Format is the same as for `color`. """ def __init__(self): self.settings = {} self.x = 0 self.y = 0 self.aperture = 0 self.interpolation = 'linear' self.direction = 'clockwise' self.image_polarity = 'positive' self.level_polarity = 'dark' self.region_mode = 'off' self.quadrant_mode = 'multi-quadrant' self.color = (0.7215, 0.451, 0.200) self.drill_color = (0.25, 0.25, 0.25) self.background_color = (0.0, 0.0, 0.0) def set_format(self, settings): """ Set source file format. Parameters ---------- settings : FileSettings instance or dict-like Gerber file settings used in source file. """ self.settings = settings def set_coord_format(self, zero_suppression, decimal_format, notation): """ Set coordinate format used in source gerber file Parameters ---------- zero_suppression : string Zero suppression mode. may be 'leading' or 'trailling' decimal_format : tuple (, ) Decimal precision format specified as (integer digits, decimal digits) notation : string Notation mode. 'absolute' or 'incremental' """ if zero_suppression not in ('leading', 'trailling'): raise ValueError('Zero suppression must be "leading" or "trailing"') self.settings['zero_suppression'] = zero_suppression self.settings['format'] = decimal_format self.settings['notation'] = notation def set_coord_notation(self, notation): """ Set context notation mode Parameters ---------- notation : string Notation mode. may be 'absolute' or 'incremental' Raises ------ ValueError If `notation` is not either "absolute" or "incremental" """ if notation not in ('absolute', 'incremental'): raise ValueError('Notation may be "absolute" or "incremental"') self.settings['notation'] = notation def set_coord_unit(self, unit): """ Set context measurement units Parameters ---------- unit : string Measurement units. may be 'inch' or 'metric' Raises ------ ValueError If `unit` is not 'inch' or 'metric' """ if unit not in ('inch', 'metric'): raise ValueError('Unit may be "inch" or "metric"') self.settings['units'] = unit def set_image_polarity(self, polarity): """ Set context image polarity Parameters ---------- polarity : string Image polarity. May be "positive" or "negative" Raises ------ ValueError If polarity is not 'positive' or 'negative' """ if polarity not in ('positive', 'negative'): raise ValueError('Polarity may be "positive" or "negative"') self.image_polarity = polarity def set_level_polarity(self, polarity): """ Set context level polarity Parameters ---------- polarity : string Level polarity. May be "dark" or "clear" Raises ------ ValueError If polarity is not 'dark' or 'clear' """ if polarity not in ('dark', 'clear'): raise ValueError('Polarity may be "dark" or "clear"') self.level_polarity = polarity def set_interpolation(self, interpolation): """ Set arc interpolation mode Parameters ---------- interpolation : string Interpolation mode. May be 'linear' or 'arc' Raises ------ ValueError If `interpolation` is not 'linear' or 'arc' """ if interpolation not in ('linear', 'arc'): raise ValueError('Interpolation may be "linear" or "arc"') self.interpolation = interpolation def set_aperture(self, d): """ Set active aperture Parameters ---------- aperture : int Aperture number to activate. """ self.aperture = d def set_color(self, color): """ Set rendering color. Parameters ---------- color : tuple (, , ) Color as a tuple of (red, green, blue) values. Each channel is represented as a float value in (0, 1) """ self.color = color def set_drill_color(self, color): """ Set color used for rendering drill hits. Parameters ---------- color : tuple (, , ) Color as a tuple of (red, green, blue) values. Each channel is represented as a float value in (0, 1) """ self.drill_color = color def set_background_color(self, color): """ Set rendering background color Parameters ---------- color : tuple (, , ) Color as a tuple of (red, green, blue) values. Each channel is represented as a float value in (0, 1) """ self.background_color = color def resolve(self, x, y): """ Resolve missing x or y coordinates in a coordinate command. Replace missing x or y values with the current x or y position. This is the default method for handling coordinate pairs pulled from gerber file statments, as a move/line/arc involving a change in only one axis will drop the redundant axis coordinate to reduce file size. Parameters ---------- x : float X-coordinate. If `None`, will be replaced with current "photoplotter" head x-coordinate y : float Y-coordinate. If `None`, will be replaced with current "photoplotter" head y-coordinate Returns ------- coordinates : tuple (, ) Coordinates in absolute notation """ x = x if x is not None else self.x y = y if y is not None else self.y return x, y def define_aperture(self, d, shape, modifiers): pass def move(self, x, y, resolve=True): """ Lights-off move. Move the "photoplotter" head to (x, y) without drawing a line. If x or y is `None`, remain at the same point in that axis. Parameters ----------- x : float X-coordinate to move to. If x is `None`, do not move in the X direction y : float Y-coordinate to move to. if y is `None`, do not move in the Y direction resolve : bool If resolve is `True` the context will replace missing x or y coordinates with the current plotter head position. This is the default behavior. """ if resolve: self.x, self.y = self.resolve(x, y) else: self.x, self.y = x, y def stroke(self, x, y, i, j): pass def line(self, x, y): pass def arc(self, x, y, i, j): pass def flash(self, x, y): pass def drill(self, x, y, diameter): pass def evaluate(self, stmt): if isinstance(stmt, (CommentStmt, UnknownStmt, EofStmt)): return elif isinstance(stmt, ParamStmt): self._evaluate_param(stmt) elif isinstance(stmt, CoordStmt): self._evaluate_coord(stmt) elif isinstance(stmt, ApertureStmt): self._evaluate_aperture(stmt) elif isinstance(stmt, (RegionModeStmt, QuadrantModeStmt)): self._evaluate_mode(stmt) else: raise Exception("Invalid statement to evaluate") def _evaluate_mode(self, stmt): if stmt.type == 'RegionMode': if self.region_mode == 'on' and stmt.mode == 'off': self._fill_region() self.region_mode = stmt.mode elif stmt.type == 'QuadrantMode': self.quadrant_mode = stmt.mode def _evaluate_param(self, stmt): if stmt.param == "FS": self.set_coord_format(stmt.zero_suppression, stmt.format, stmt.notation) self.set_coord_notation(stmt.notation) elif stmt.param == "MO:": self.set_coord_unit(stmt.mode) elif stmt.param == "IP:": self.set_image_polarity(stmt.ip) elif stmt.param == "LP:": self.set_level_polarity(stmt.lp) elif stmt.param == "AD": self.define_aperture(stmt.d, stmt.shape, stmt.modifiers) def _evaluate_coord(self, stmt): if stmt.function in ("G01", "G1"): self.set_interpolation('linear') elif stmt.function in ('G02', 'G2', 'G03', 'G3'): self.set_interpolation('arc') self.direction = ('clockwise' if stmt.function in ('G02', 'G2') else 'counterclockwise') if stmt.op == "D01": self.stroke(stmt.x, stmt.y, stmt.i, stmt.j) elif stmt.op == "D02": self.move(stmt.x, stmt.y) elif stmt.op == "D03": self.flash(stmt.x, stmt.y) def _evaluate_aperture(self, stmt): self.set_aperture(stmt.d) def _fill_region(self): pass