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path: root/renderer/support/pogojig/inkscape/effect.py
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"""
Based on code from Aaron Spike. See
http://www.bobcookdev.com/inkscape/inkscape-dxf.html
"""

import collections
import itertools
import os
import pkgutil
import re
from lxml import etree

from . import inkex, simpletransform, cubicsuperpath, cspsubdiv, inkscape


def _get_unit_factors_map():
    # Fluctuates somewhat between Inkscape releases _and_ between SVG version.
    pixels_per_inch = 96.
    pixels_per_mm = pixels_per_inch / 25.4
    
    return {
        'px': 1.0,
        'mm': pixels_per_mm,
        'cm': pixels_per_mm * 10,
        'm': pixels_per_mm * 1e3,
        'km': pixels_per_mm * 1e6,
        'pt': pixels_per_inch / 72,
        'pc': pixels_per_inch / 6,
        'in': pixels_per_inch,
        'ft': pixels_per_inch * 12,
        'yd': pixels_per_inch * 36}


class ExportEffect(inkex.Effect):
    _unit_factors = _get_unit_factors_map()
    _asymptote_all_paths_name = 'all'
    
    def __init__(self):
        inkex.Effect.__init__(self)
        
        self._flatness = float(os.environ.get('INKSCAPE_DXF_FLATNESS', 0.1))
        
        self._layers = None
        self._paths = None
    
    def _get_document_scale(self):
        """
        Return scaling factor applied to the document because of a viewBox
        setting. This currently ignores any setting of a preserveAspectRatio
        attribute (like Inkscape).
        """
        document_height = self._get_height()
        view_box = self._get_view_box()
        
        if view_box is None or document_height is None:
            return 1
        else:
            _, _, _, view_box_height = view_box
            
            return document_height / view_box_height
    
    def _get_document_height(self):
        """
        Get the height of the document in pixels in the document coordinate
        system as it is interpreted by Inkscape.
        """
        view_box = self._get_view_box()
        document_height = self._get_height()
        
        if view_box is not None:
            _, _, _, view_box_height = view_box
            
            return view_box_height
        elif document_height is not None:
            return document_height
        else:
            return 0
    
    def _get_height(self):
        height_attr = self.document.getroot().get('height')
        
        if height_attr is None:
            return None
        else:
            return self._measure_to_pixels(height_attr)
    
    def _get_view_box(self):
        view_box_attr = self.document.getroot().get('viewBox')
        
        if view_box_attr is None:
            return None
        else:
            return [float(i) for i in view_box_attr.split()]
    
    def _get_shape_paths(self, node, transform):
        shape = cubicsuperpath.parsePath(node.get('d'))
        
        transform = simpletransform.composeTransform(
            transform,
            simpletransform.composeParents(node, [[1, 0, 0], [0, 1, 0]]))
        
        simpletransform.applyTransformToPath(transform, shape)
        
        def iter_paths():
            for path in shape:
                cspsubdiv.subdiv(path, self._flatness)

                # path contains two control point coordinates and the actual
                # coordinates per point.
                yield [i for _, i, _ in path]
        
        return list(iter_paths())
    
    def effect(self):
        document_height = self._get_document_height()
        document_scale = self._get_document_scale()
        
        transform = simpletransform.composeTransform(
            [[document_scale, 0, 0], [0, document_scale, 0]],
            [[1, 0, 0], [0, -1, document_height]])
        
        layers = inkscape.get_inkscape_layers(self.svg_file)
        layers_by_inkscape_name = {i.inkscape_name: i for i in layers}
        
        def iter_paths():
            for node in self.document.getroot().xpath('//svg:path', namespaces=inkex.NSS):
                layer = layers_by_inkscape_name.get(self._get_inkscape_layer_name(node))
                
                for path in self._get_shape_paths(node, transform):
                    yield layer, path
        
        self._layers = layers
        self._paths = list(iter_paths())
    
    def write_dxf(self, file):
        # Scales pixels to millimeters. This is the predominant unit in CAD.
        unit_factor = self._unit_factors['mm']
        
        layer_indices = {l: i for i, l in enumerate(self._layers)}
        
        file.write(pkgutil.get_data(__name__, 'dxf_header.txt').decode('ASCII'))
        
        def write_instruction(code, value):
            print(code, file=file)
            print(value, file=file)
        
        handle_iter = itertools.count(256)
        
        for layer, path in self._paths:
            for (x1, y1), (x2, y2) in zip(path, path[1:]):
                write_instruction(0, 'LINE')
                
                if layer is not None:
                    write_instruction(8, layer.export_name)
                    write_instruction(62, layer_indices.get(layer, 0))
                
                write_instruction(5, '{:x}'.format(next(handle_iter)))
                write_instruction(100, 'AcDbEntity')
                write_instruction(100, 'AcDbLine')
                write_instruction(10, repr(x1 / unit_factor))
                write_instruction(20, repr(y1 / unit_factor))
                write_instruction(30, 0.0)
                write_instruction(11, repr(x2 / unit_factor))
                write_instruction(21, repr(y2 / unit_factor))
                write_instruction(31, 0.0)
        
        file.write(pkgutil.get_data(__name__, 'dxf_footer.txt').decode('ASCII'))
    
    def write_asy(self, file):
        def write_line(format, *args):
            print >> file, format.format(*args) + ';'

        # Scales pixels to points. Asymptote uses PostScript points (1 / 72
        # inch) by default.
        unit_factor = self._unit_factors['pt']
        
        paths_by_layer = collections.defaultdict(list)
        variable_names = []
        
        for layer, path in self._paths:
            paths_by_layer[layer].append(path)
        
        for layer in self._layers + [None]:
            paths = paths_by_layer[layer]
            variable_name = self._asymptote_identifier_from_layer(layer)
            write_line('path[] {}', variable_name)
            
            variable_names.append(variable_name)
            
            for path in paths:
                point_strs = ['({}, {})'.format(x / unit_factor, y / unit_factor) for x, y in path]

                # Hack. We should determine this from whether Z or z was used
                #  to close the path in the SVG document.
                if path[0] == path[-1]:
                    point_strs[-1] = 'cycle'
                
                write_line('{}.push({})', variable_name, ' -- '.join(point_strs))
        
        if self._asymptote_all_paths_name not in variable_names:
            write_line('path[] {}', self._asymptote_all_paths_name)
            
            for i in variable_names:
                write_line('{}.append({})', self._asymptote_all_paths_name, i)
    
    @classmethod
    def _parse_measure(cls, string):
        value_match = re.match(r'(([-+]?[0-9]+(\.[0-9]*)?|[-+]?\.[0-9]+)([eE][-+]?[0-9]+)?)', string)
        unit_match = re.search('(%s)$' % '|'.join(cls._unit_factors.keys()), string)    
        
        value = float(string[value_match.start():value_match.end()])
        
        if unit_match:
            unit = string[unit_match.start():unit_match.end()]
        else:
            unit = None
        
        return value, unit
    
    @classmethod
    def _measure_to_pixels(cls, string):
        """
        Parse a string containing a measure and return it's value converted
        to pixels.
        """
        value, unit = cls._parse_measure(string)
        
        return value * cls._get_unit_factor(unit)
    
    @classmethod
    def _get_inkscape_layer_name(cls, node):
        while node is not None:
            layer = node.get(inkex.addNS('label', 'inkscape'))
            
            if layer is not None:
                return layer
            
            node = node.getparent()
        
        return None
    
    @classmethod
    def _get_unit_factor(cls, unit):
        if unit is None:
            return 1
        else:
            return cls._unit_factors[unit]
    
    @classmethod
    def _asymptote_identifier_from_layer(cls, layer):
        if layer is None:
            return '_'
        else:
            return re.sub('[^a-zA-Z0-9]', '_', layer.export_name)
    
    @classmethod
    def check_document_units(cls, path):
        with open(path, 'r') as file:
            p = etree.XMLParser(huge_tree = True)
            document = etree.parse(file, parser = p)
        
        height_attr = document.getroot().get('height')
        
        if height_attr is None:
            raise ValueError(
                'SVG document has no height attribute. See '
                'https://github.com/Feuermurmel/openscad-template/wiki/Absolute-Measurements')
        
        _, height_unit = cls._parse_measure(height_attr)
        
        if height_unit is None or height_unit == 'px':
            raise ValueError(
                'Height of SVG document is not an absolute measure. See '
                'https://github.com/Feuermurmel/openscad-template/wiki/Absolute-Measurements')
        
        if document.getroot().get('viewBox') is None:
            raise ValueError(
                'SVG document has no viewBox attribute. See '
                'https://github.com/Feuermurmel/openscad-template/wiki/Absolute-Measurements')