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sendto_silhouette.py
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sendto_silhouette.py
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#!/usr/bin/env python3
# coding=utf-8
#
# Inkscape extension for driving a silhouette cameo
# (C) 2013 [email protected]. Licensed under CC-BY-SA-3.0 or GPL-2.0 at your choice.
# (C) 2014 - 2023 [email protected] and contributors
__version__ = "1.29" # Keep in sync with sendto_silhouette.inx ca line 179
__author__ = "Juergen Weigert <[email protected]> and contributors"
import sys, os, time, math, operator
# we sys.path.append() the directory where this script lives.
sys.path.append(os.path.dirname(os.path.abspath(sys.argv[0])))
sys_platform = sys.platform.lower()
if sys_platform.startswith("win"):
sys.path.append(r"C:\Program Files\Inkscape\share\inkscape\extensions")
elif sys_platform.startswith("darwin"):
sys.path.append("/Applications/Inkscape.app/Contents/Resources/share/inkscape/extensions")
else: # linux
sys.path.append("/usr/share/inkscape/extensions")
# We will use the inkex module with the predefined Effect base class.
# As of Inkscape 1.1, inkex cannot be loaded if stdout is closed,
# which it might be if we are coming here via silhouette_multi.
# This manipulation of sys.stdout should be removed if the issue
# https://gitlab.com/inkscape/extensions/-/issues/412
# is resolved in a future version.
dummy_stdout=False
if not sys.stdout:
sys.stdout=os.fdopen(os.open(os.devnull, os.O_WRONLY|os.O_APPEND), 'w')
dummy_stdout=True
if dummy_stdout:
sys.stdout.close()
sys.stdout=None
import inkex
from inkex.extensions import EffectExtension
from inkex import Boolean, Path, ShapeElement, PathElement, Rectangle, Circle, Ellipse, Line, Polyline, Polygon, Group, Use, TextElement, Image, BaseElement, SvgDocumentElement
from inkex.transforms import Transform
from inkex.units import convert_unit
from inkex.bezier import subdiv
from gettext import gettext
from optparse import SUPPRESS_HELP
from tempfile import NamedTemporaryFile, gettempdir
from silhouette.Graphtec import SilhouetteCameo, CAMEO_MATS
from silhouette.Strategy import MatFree
from silhouette.convert2dashes import convert2dash
import silhouette.StrategyMinTraveling
import silhouette.read_dump
from silhouette.Geometry import dist_sq, XY_a
# Temporary Monkey Backport Patches to support functions that exist only after v1.2
# TODO: If support for Inkscape v1.1 is dropped then this backport can be removed
if not hasattr(inkex, "__version__") or inkex.__version__[0:3] < "1.2":
from inkex import BaseElement, SvgDocumentElement, paths
import re
# backport https://gitlab.com/inkscape/extensions/-/issues/367
BaseElement.uutounit = lambda self, v, *kwargs: float(v)
# backport https://gitlab.com/inkscape/extensions/-/merge_requests/433
Line.get_path = lambda self: 'M{0[x1]},{0[y1]} L{0[x2]},{0[y2]}'.format(self.attrib)
# backport @ matmul operator
Transform.__matmul__ = Transform.__mul__
SvgDocumentElement.viewport_width = property(lambda self: convert_unit(self.get("width"), "px") or self.get_viewbox()[2])
SvgDocumentElement.viewport_height = property(lambda self: convert_unit(self.get("height"), "px") or self.get_viewbox()[3])
SvgDocumentElement._base_scale = lambda self, unit="px": (convert_unit(1, unit) or 1.0) if not all(self.get_viewbox()[2:]) else max([convert_unit(self.viewport_width, unit) / self.get_viewbox()[2], convert_unit(self.viewport_height, unit) / self.get_viewbox()[3]]) or convert_unit(1, unit) or 1.0
BaseElement.to_dimensional = staticmethod(lambda value, to_unit="px": convert_unit(value, to_unit))
BaseElement.to_dimensionless = staticmethod(lambda value: convert_unit(value, "px"))
BaseElement.viewport_to_unit = lambda self, value, unit="px": self.to_dimensional(self.to_dimensionless(value) / self.root._base_scale(), unit)
BaseElement.unit_to_viewport = lambda self, value, unit="px": self.to_dimensional(self.to_dimensionless(value) * self.root._base_scale(), unit)
BaseElement.set_sensitive = lambda self, sensitive="true": self.set("sodipodi:insensitive", ["true", None][sensitive])
paths.strargs = lambda string, kind=float: [kind(val) for val in re.compile(r"(?:[+-]?(?:(?:(?:[0-9]+)?\.(?:[0-9]+)|(?:[0-9]+)\.)(?:[eE][+-]?(?:[0-9]+))?|(?:[0-9]+)(?:[eE][+-]?(?:[0-9]+)))|[+-]?(?:[0-9]+))").findall(string)]
# Default Logfile Filename
LOGFILE_DEFAULT_NAME = "silhouette.log"
# Autogenerated Registration Mark SVG IDs
REGMARK_LAYERNAME = 'Regmarks'
REGMARK_LAYER_ID = 'regmark'
REGMARK_TOP_LEFT_ID = 'regmark-tl'
REGMARK_TOP_RIGHT_ID = 'regmark-tr'
REGMARK_BOTTOM_LEFT_ID = 'regmark-bl'
REGMARK_SAFE_AREA_ID = 'regmark-safe-area'
REGMARK_NOTES_ID = 'regmark-notes'
class teeFile:
def __init__(self, f1, f2):
self.f1 = f1
self.f2 = f2
def __del__(self, *args):
self.close()
def write(self, content):
self.f1.write(content)
self.f2.write(content)
def close(self):
self.f1.close()
self.f2.close()
class SendtoSilhouette(EffectExtension):
"""
Inkscape Extension to send to a Silhouette Cameo
"""
# pretend no changes to skip `save()` in `InkscapeExtension.save_raw()`
has_changed = lambda *x: False
def __init__(self):
# Call the base class constructor.
EffectExtension.__init__(self)
self.warnings = {}
self.pathcount = 0
self.paths = []
self.docTransform = Transform()
self.cmdfile = None
self.doc_reg_x = 0
self.doc_reg_y = 0
self.doc_reg_width = 0
self.doc_reg_length = 0
self.reg_origin_X = 0
self.reg_origin_Y = 0
self.reg_width = 0
self.reg_length = 0
try:
self.tty = open("/dev/tty", "w")
except:
self.tty = None
self.log = self.tty
self.default_logfile_path = os.path.join(gettempdir(), LOGFILE_DEFAULT_NAME)
def __del__(self, *args):
if self.log:
self.log.close() # will always close tty if there is one
if self.cmdfile:
self.cmdfile.close() # will always try to close cmdfile
def add_arguments(self, pars):
pars.add_argument("--active-tab", dest = "active_tab",
help=SUPPRESS_HELP)
pars.add_argument("-d", "--dashes",
dest = "dashes", type = Boolean, default = False,
help="convert paths with dashed strokes to separate subpaths for perforated cuts")
pars.add_argument("-a", "--autocrop",
dest = "autocrop", type = Boolean, default = False,
help="trim away top and left margin (before adding offsets)")
pars.add_argument("-b", "--bbox", "--bbox-only", "--bbox_only",
dest = "bboxonly", type = Boolean, default = False,
help="draft the objects bounding box instead of the objects")
pars.add_argument("-c", "--bladediameter",
dest = "bladediameter", type = float, default = 0.9,
help="[0..2.3] diameter of the used blade [mm], default = 0.9")
pars.add_argument("-C", "--cuttingmat",
choices=list(CAMEO_MATS.keys()), dest = "cuttingmat",
default = "cameo_12x12", help="Use cutting mat")
pars.add_argument("-D", "--depth",
dest = "depth", type = int, default = -1,
help="[0..10], or -1 for media default")
pars.add_argument("--log_paths",
dest = "dump_paths", type = Boolean, default = False,
help="Include final cut paths in log")
pars.add_argument("--append_logs",
dest = "append_logs", type = Boolean, default = False,
help="Append to log and dump files rather than overwriting")
pars.add_argument("--dry_run",
dest = "dry_run", type = Boolean, default = False,
help="Do not send commands to device (queries allowed)")
pars.add_argument("-g", "--strategy",
dest = "strategy", default = "mintravel",
choices=("mintravel", "mintravelfull", "mintravelfwd", "matfree", "zorder"),
help="Cutting Strategy: mintravel, mintravelfull, mintravelfwd, matfree or zorder")
pars.add_argument("--orient_paths",
dest = "orient_paths", default = "natural",
choices=("natural","desy","ascy","desx","ascx"),
help="Pre-orient paths: natural (as in svg), or [des(cending)|asc(ending)][y|x]")
pars.add_argument("--fuse_paths",
dest = "fuse_paths", type = Boolean, default = True,
help="Merge any path with predecessor that ends at its start.")
pars.add_argument("-l", "--sw_clipping",
dest = "sw_clipping", type = Boolean, default = True,
help="Enable software clipping")
pars.add_argument("-m", "--media", "--media-id", "--media_id",
dest = "media", default = "132",
choices=("100", "101", "102", "106", "111", "112", "113",
"120", "121", "122", "123", "124", "125", "126", "127", "128", "129", "130",
"131", "132", "133", "134", "135", "136", "137", "138", "300"),
help="113 = pen, 132 = printer paper, 300 = custom")
pars.add_argument("-o", "--overcut",
dest = "overcut", type = float, default = 0.5,
help="overcut on circular paths. [mm]")
pars.add_argument("-M", "--multipass",
dest = "multipass", type = int, default = 1,
help="[1..8], cut/draw each path object multiple times.")
pars.add_argument("-p", "--pressure",
dest = "pressure", type = int, default = 10,
help="[1..18], or 0 for media default")
pars.add_argument("-P", "--sharpencorners",
dest = "sharpencorners", type = Boolean, default = False,
help="Lift head at sharp corners")
pars.add_argument("--sharpencorners_start",
dest = "sharpencorners_start", type = float, default = 0.1,
help="Sharpen Corners - Start Ext. [mm]")
pars.add_argument("--sharpencorners_end",
dest = "sharpencorners_end", type = float, default = 0.1,
help="Sharpen Corners - End Ext. [mm]")
pars.add_argument("-r", "--reversetoggle",
dest = "reversetoggle", type = Boolean, default = False,
help="Cut each path the other direction. Affects every second pass when multipass.")
pars.add_argument("-s", "--speed",
dest = "speed", type = int, default = 10,
help="[1..10], or 0 for media default")
pars.add_argument("-S", "--smoothness", type = float,
dest="smoothness", default=.05, help="Smoothness of curves")
pars.add_argument("-t", "--tool",
choices=("autoblade", "cut", "pen", "default"), dest = "tool", default = None, help="Optimize for pen or knive")
pars.add_argument("-T", "--toolholder",
choices=("1", "2"), dest = "toolholder", default = None, help="[1..2]")
pars.add_argument("--preview",
dest = "preview", type = Boolean, default = True,
help="show cut pattern graphically before sending")
pars.add_argument("-V", "--version",
dest = "version", action = "version", version=__version__,
help="print the version number and exit")
pars.add_argument("-w", "--wait", "--wait-done", "--wait_done",
dest = "wait_done", type = Boolean, default = False,
help="After sending wait til device reports ready")
pars.add_argument("-x", "--x-off", "--x_off",
type = float, dest = "x_off", default = 0.0, help="X-Offset [mm]")
pars.add_argument("-y", "--y-off", "--y_off",
type = float, dest = "y_off", default = 0.0, help="Y-Offset [mm]")
pars.add_argument("-R", "--regmark",
dest = "regmark", type = Boolean, default = False,
help="The document has registration marks.")
pars.add_argument("--regsearch",
dest = "regsearch", type = Boolean, default = False,
help="Search for the registration marks.")
pars.add_argument("-X", "--reg-x", "--regwidth",
type = float, dest = "regwidth", default = 0.0, help="X mark to mark distance [mm]")
pars.add_argument("-Y", "--reg-y", "--reglength",
type = float, dest = "reglength", default = 0.0, help="Y mark to mark distance [mm]")
pars.add_argument("--rego-x", "--regoriginx",
type = float, dest = "regoriginx", default = 0.0, help="X mark origin from left [mm]")
pars.add_argument("--rego-y", "--regoriginy",
type = float, dest = "regoriginy", default = 0.0, help="X mark origin from top [mm]")
pars.add_argument("-e", "--endposition", "--end-postition",
"--end_position", choices=("start", "below"),
dest = "endposition", default = "below", help="Position of head after cutting: start or below")
pars.add_argument("--end_offset", type = float,
dest = "end_offset", default = 0.0,
help="Adjustment to the position after cutting")
pars.add_argument("--logfile",
dest = "logfile", default = None,
help="Name of file in which to save log messages.")
pars.add_argument("--cmdfile",
dest = "cmdfile", default = None,
help="Name of file to save transcript of cutter commands.")
pars.add_argument("--inc_queries",
dest = "inc_queries", type = Boolean, default = False,
help="Include queries in cutter command transcript")
pars.add_argument("--force_hardware",
dest = "force_hardware", default = None,
help = "Override hardware model of cutting device.")
# For Multi-Action
pars.add_argument("--skip_init",
dest = "skip_init", type = Boolean, default = False,
help = "Skip any setup, such as regmark searching (for Multi-Action).")
pars.add_argument("--skip_reset",
dest = "skip_reset", type = Boolean, default = False,
help = "Skip resetting to home at the end (for Multi-Action).")
# Can't set up the log here because arguments have not yet been parsed;
# defer that to the top of the effect() method, which is where all
# of the real activity happens.
def report(self, message, level):
"""
Display `message` to the appropriate output stream(s).
Each of the following `level` values encompasses all of the later ones:
error - display to standard error
log - record in logfile if there is one
tty - write to tty and flush if there is one
"""
if level == 'tty':
if self.tty:
print(message, file=self.tty)
self.tty.flush()
return
if level == 'log' or level == 'error':
if self.log:
print(message, file=self.log)
# That handles the tty also, because of the tee, but
# we have to flush the tty:
if self.tty:
self.tty.flush()
if level == 'log':
return
print(message, file=sys.stderr)
if level != 'error':
# oops accidentally used an invalid level
print(f" ... WARNING: message issued at invalid level {level}",
file=sys.stderr)
def plotPath(self, path: Path):
"""
Plot the path after smoothing curves to straights
"""
# convert into a cubicsuperpath (list of beziers)...
p = path.to_superpath()
# p is now a list of lists of cubic beziers [control pt1, control pt2, endpoint]
# where the start-point is the last point in the previous segment.
for sp in p:
# subdivide beziers into smooth curved parts
subdiv(sp, self.options.smoothness)
# extract path
if len(sp) > 1:
self.paths.append([tuple(csp[1]) for csp in sp])
def recursivelyTraverseSvg(self, aNodeList,
parent_visibility="visible",
parent_transform: Transform=None):
"""
Recursively traverse the svg file to plot out all of the
paths. The function keeps track of the composite transformation
that should be applied to each path.
This function handles path, group, line, rect, polyline, polygon,
circle, ellipse and use (clone) elements. Notable elements not
handled include text. Unhandled elements should be converted to
paths in Inkscape.
"""
for node in aNodeList:
# Ignore invisible nodes
if isinstance(node, BaseElement):
# try:
# # Inkex 1.2: `cascaded_style()` considers CSS (has bad performance!!)
# get = node.cascaded_style().get
# except:
get = lambda attr, default: node.style.get(attr, node.get(attr, default))
if get("display", "inline") == "none":
continue
if not float(get("opacity", 1.0)):
continue
v = get("visibility", parent_visibility)
if v == "inherit":
v = parent_visibility
# NOTE: inkex 1.1 has composed_transform only on ShapeElement
if isinstance(node, ShapeElement):
if parent_transform==None:
# init my_transform // needed for selection by `--id` param
my_transform = node.composed_transform()
else:
# NOTE: <<< transforms operate from right (detail) to left (whole)
my_transform = parent_transform @ node.transform
if isinstance(node, Group):
# Check if layer name is referring to registration mark or print layer
if node.label:
if "regmark" in node.label.lower():
self.report(f"layer '{node.label}' is a registration mark layer - skipped", 'log')
continue
if "print" in node.label.lower():
self.report(f"layer '{node.label}' is a print layer - skipped", 'log')
continue
self.recursivelyTraverseSvg(node, parent_visibility=v, parent_transform=my_transform)
elif isinstance(node, Use):
# A <use> element refers to another element via href="#blah" attribute.
# We then recursively process the referenced element.
#
# Notes:
# . Even if the <use> element has visibility="hidden", SVG still calls
# for processing the referenced element. The referenced element is
# hidden only if its visibility is "inherit" or "hidden".
refnode = node.href
if refnode is not None:
# apply any necessary (x, y) translation
x = float(node.get("x", 0.0))
y = float(node.get("y", 0.0))
# NOTE: <<< transforms operate from right (detail) to left (whole)
my_transform = my_transform @ Transform(translate=(x, y))
self.recursivelyTraverseSvg([refnode], parent_visibility=v, parent_transform=my_transform)
elif isinstance(node, (PathElement, Rectangle, Circle, Ellipse, Line, Polyline, Polygon)):
if v == "hidden" or v == "collapse":
continue
# calculate this object's transform
# NOTE: <<< transforms operate from right (detail) to left (whole)
transform = self.docTransform @ my_transform
# convert element to path
node = node.to_path_element()
# apply dashed style
if self.options.dashes:
convert2dash(node)
self.pathcount += 1
self.plotPath(node.path.transform(transform))
elif isinstance(node, TextElement):
texts = []
plaintext = ""
for tnode in node.iterfind(".//"): # all subtree
if tnode is not None and tnode.text is not None:
texts.append(tnode.text)
if len(texts):
if "text" not in self.warnings:
inkex.errormsg(gettext("Warning: unable to draw text; " +
"please convert it to a path first. Or consider using the " +
"Hershey Text extension which can be installed in the " +
"'Render' category of extensions."))
self.warnings["text"] = 1
plaintext = "', '".join(texts)
self.report(f"Text ignored: '{plaintext}'", 'error')
elif isinstance(node, Image):
if "image" not in self.warnings:
inkex.errormsg(gettext("Warning: unable to draw bitmap images; " +
"please convert them to line art first. Consider using the 'Trace bitmap...' " +
"tool of the 'Path' menu. Mac users please note that some X11 settings may " +
"cause cut-and-paste operations to paste in bitmap copies."))
self.warnings["image"] = 1
elif isinstance(node, BaseElement):
# This is another known subclass of `BaseElement`
pass
elif not isinstance(node.tag, str):
# This is likely an XML processing instruction such as an XML
# comment. lxml uses a function reference for such node tags
# and as such the node tag is likely not a printable string.
# Further, converting it to a printable string likely won't
# be very useful.
pass
else:
if str(node.tag) not in self.warnings:
t = str(node.tag).split("}")
self.report(gettext(
f"Warning: unable to draw <{str(t[-1])}> object,"
f"please convert it to a path first."),
'error')
self.warnings[str(node.tag)] = 1
def initDocScale(self):
"""
Set up the document-wide transform in the event that the document has an SVG viewbox
"""
self.report(f"7 svg.viewport_height = {self.svg.viewport_height}", 'tty')
self.report(f"8 svg.viewport_width = {self.svg.viewport_width}", 'tty')
self.docTransform = Transform(scale=(self.svg._base_scale("mm")))
def detect_doc_regmark(self):
"""
This scans the svg document for svg element relating to an autogenerated registration mark
that can be created by a seperate registration mark renderer in this extention.
From there the registration mark setting can be derived from it's offset.
"""
# Reset detected regmark offsets
self.doc_reg_x = 0
self.doc_reg_y = 0
self.doc_reg_width = 0
self.doc_reg_length = 0
# Check if all expected regmark svg elements is present
if self.svg.getElementById(REGMARK_TOP_LEFT_ID) is None:
return
if self.svg.getElementById(REGMARK_TOP_RIGHT_ID) is None:
return
if self.svg.getElementById(REGMARK_BOTTOM_LEFT_ID) is None:
return
# Calculate and derive the expected registration mark offsets
self.doc_reg_x = self.svg.unit_to_viewport(self.svg.getElementById(REGMARK_TOP_LEFT_ID).bounding_box(transform=True).left, "mm")
self.doc_reg_y = self.svg.unit_to_viewport(self.svg.getElementById(REGMARK_TOP_LEFT_ID).bounding_box(transform=True).top, "mm")
self.doc_reg_width = self.svg.unit_to_viewport(self.svg.getElementById(REGMARK_TOP_RIGHT_ID).bounding_box(transform=True).right, "mm") - self.doc_reg_x
self.doc_reg_length = self.svg.unit_to_viewport(self.svg.getElementById(REGMARK_BOTTOM_LEFT_ID).bounding_box(transform=True).bottom, "mm") - self.doc_reg_y
self.report(f"Detected Existing Registration Mark:: mark distance from document: Left={self.doc_reg_x}mm, Top={self.doc_reg_y}mm; mark to mark distance: X={self.doc_reg_width}mm, Y={self.doc_reg_length}mm;", 'log')
def sync_regmark_settings(self):
"""
Syncronise regmark settings.
Settings is prioritised based first on user input, existing regmarks in document then page derived values
"""
self.detect_doc_regmark()
self.reg_origin_X = self.options.regoriginx or self.doc_reg_x
self.reg_origin_Y = self.options.regoriginy or self.doc_reg_y
self.reg_width = self.options.regwidth or self.doc_reg_width or self.svg.to_dimensional(self.svg.viewport_width, "mm") - self.reg_origin_X * 2
self.reg_length = self.options.reglength or self.doc_reg_length or self.svg.to_dimensional(self.svg.viewport_height, "mm") - self.reg_origin_Y * 2
self.report(f"Using Registration Mark:: mark distance from document: Left={self.reg_origin_X}mm, Top={self.reg_origin_Y}mm; mark to mark distance: X={self.reg_width}mm, Y={self.reg_length}mm;", 'log')
@staticmethod
def is_closed_path(path) -> bool:
"""Is this path closed?"""
return dist_sq(XY_a(path[0]), XY_a(path[-1])) < 0.01
def logEnvironment(self):
"""Log the specific environment conditions"""
try: # inkex < 1.2 has no version definition and no command
# log environment information
self.report(inkex.command.inkscape('--version').rstrip(), 'log') # Inkscape version
self.report("Inkex: %s" % (inkex.__version__), 'log')
except:
pass
finally:
self.report("Inkscape-Silhouette: %s" % (__version__), 'log') # Plugin version
self.report("Path: %s" % (__file__), 'log')
self.report("Python: %s" % (sys.executable), 'log')
self.report("Version: %s" % (sys.version), 'log')
self.report("Platform: %s" % (sys.platform), 'log')
self.report("Arguments: %s" % (" ".join(sys.argv)), 'log')
def writeProgress(self, done, total, msg):
"""Show the current progress"""
if "write_start_tstamp" not in self.__dict__:
self.write_start_tstamp = time.time()
self.device_buffer_perc = 0.0
perc = 100.*done/total
if time.time() - self.write_start_tstamp < 1.0:
self.device_buffer_perc = perc
buf = ""
if self.device_buffer_perc > 1.0:
buf = " (+%d%%)" % (self.device_buffer_perc+.5)
self.report("%d%%%s %s\r" % (perc-self.device_buffer_perc+.5,
buf, msg),
'tty')
@staticmethod
def preorientPaths(paths, index, ordered) -> list:
"""Reorder paths along X or Y axis, ascending or descending"""
oldpaths = paths
paths = []
oldpaths.reverse() # Since popping from old and appending to new will
# itself reverse
while oldpaths:
curpath = oldpaths.pop()
if ordered(curpath[0][index], curpath[-1][index]):
curpath.reverse()
newpath = [curpath.pop()]
while curpath:
if ordered(newpath[-1][index],curpath[-1][index]):
newpath.append(curpath.pop())
else:
if len(newpath) == 1:
# Have to make some progress:
newpath = [curpath[-1], newpath[0]]
# Don't leave behind an orphan
if len(curpath) == 1:
curpath = []
else:
# Have to put end of newpath back onto curpath to
# keep the segment between it and rest of curpath:
curpath.append(newpath[-1])
break # stop collecting an ordered segment of curpath
if curpath: # Some of curpath is left because it was out of order
oldpaths.append(curpath)
paths.append(newpath)
return paths
def multipassOvercut(self, paths, multipass, reversetoggle, overcut):
"""Handle multipass & overcut"""
cut = []
for path in paths:
multipath = []
multipath.extend(path)
for i in range(1, multipass):
# if reverse continue path without lifting, instead turn with rotating knife
if (reversetoggle):
path = list(reversed(path))
multipath.extend(path[1:])
# if closed path (end = start) continue path without lifting
elif self.is_closed_path(path):
multipath.extend(path[1:])
# else start a new path
else:
cut.append(path)
# on a closed path some overlapping doesn't harm, limited to a maximum of one additional round
overcut = overcut
if (overcut > 0) and self.is_closed_path(path):
precut = overcut
pfrom = path[-1]
for pprev in reversed(path[:-1]):
dx = pprev[0] - pfrom[0]
dy = pprev[1] - pfrom[1]
dist = math.sqrt(dx*dx + dy*dy)
if (precut > dist): # Full segment needed
precut -= dist
multipath.insert(0, pprev)
pfrom = pprev
else: # only partial segement needed, create new endpoint
pprev = (pfrom[0]+dx*(precut/dist), pfrom[1]+dy*(precut/dist))
multipath.insert(0, pprev)
break
pfrom = path[0]
for pnext in path[1:]:
dx = pnext[0] - pfrom[0]
dy = pnext[1] - pfrom[1]
dist = math.sqrt(dx*dx + dy*dy)
if (overcut > dist): # Full segment needed
overcut -= dist
multipath.append(pnext)
pfrom = pnext
else: # only partial segement needed, create new endpoint
pnext = (pfrom[0]+dx*(overcut/dist), pfrom[1]+dy*(overcut/dist))
multipath.append(pnext)
break
cut.append(multipath)
return cut
def effect(self):
log_path = self.options.logfile or self.default_logfile_path
mode = "a" if self.options.append_logs else "w"
self.log = open(log_path, mode)
if self.tty:
self.log = teeFile(self.tty, self.log)
if self.options.cmdfile:
mode = "ab" if self.options.append_logs else "wb"
self.cmdfile = open(self.options.cmdfile, mode)
self.logEnvironment()
# Registration Mark Selection/Calcuation
self.sync_regmark_settings()
# Init docTransform
self.initDocScale()
# Build a list of paths for the document's graphical elements
if self.options.ids:
# Traverse the selected objects
for id in self.options.ids:
self.recursivelyTraverseSvg([self.svg.selected[id]])
else:
# Traverse the entire document
self.recursivelyTraverseSvg(self.document.getroot())
if self.options.toolholder is not None:
self.options.toolholder = int(self.options.toolholder)
self.pen=None
self.autoblade=False
if self.options.tool == "pen":
self.pen=True
if self.options.tool == "cut":
self.pen=False
if self.options.tool == "autoblade":
self.pen=False
self.autoblade=True
# Reorder paths (except in case of Z-order)
if self.options.orient_paths != "natural":
index = dict(x=0,y=1)[self.options.orient_paths[-1]]
ordered = dict(des=operator.gt, asc=operator.lt)[self.options.orient_paths[0:3]]
self.paths = self.preorientPaths(self.paths, index, ordered)
# Optimize paths
if self.options.strategy == "matfree":
mf = MatFree("default", scale=1.0, pen=self.pen)
mf.verbose = 0 # inkscape crashes whenever something appears in stdout.
self.paths = mf.apply(self.paths)
elif self.options.strategy == "mintravel":
self.paths = silhouette.StrategyMinTraveling.sort(self.paths)
elif self.options.strategy == "mintravelfull":
self.paths = silhouette.StrategyMinTraveling.sort(self.paths, entrycircular=True)
elif self.options.strategy == "mintravelfwd":
self.paths = silhouette.StrategyMinTraveling.sort(self.paths, entrycircular=True, reversible=False)
# Fuse paths
if self.paths and self.options.fuse_paths:
rest_paths = self.paths[1:]
self.paths = [self.paths[0]]
for path in rest_paths:
if path[0] == self.paths[-1][-1]:
self.paths[-1].extend(path[1:])
else:
self.paths.append(path)
# Handle multipass & overcut
cut = self.multipassOvercut(self.paths, self.options.multipass, self.options.reversetoggle, self.options.overcut)
if self.options.dump_paths:
pointcount = 0
for path in self.paths:
pointcount += len(path)
self.report(f"Logging {len(cut)} cut paths containing "
f"{pointcount} points:", 'log')
self.report(f"# driver version: {__version__}", 'log')
self.report(f"# docname: {self.svg.name}", 'log')
self.report(cut, 'log')
if self.options.preview:
extraText = None
if self.options.regmark:
extraText = f"Registration mark to origin distance: Left={self.reg_origin_X}mm, Top={self.reg_origin_Y}mm;\n Registration mark to mark distance: X={self.reg_width}mm, Y={self.reg_length}mm;"
if silhouette.read_dump.show_plotcuts(cut, buttons=True, extraText=extraText) > 0:
self.report("Preview aborted.", 'log')
return
if self.options.pressure == 0:
self.options.pressure = None
if self.options.speed == 0:
self.options.speed = None
if self.options.depth == -1:
self.options.depth = None
try:
dev = SilhouetteCameo(log=self.log, progress_cb=self.writeProgress,
cmdfile=self.cmdfile,
inc_queries=self.options.inc_queries,
dry_run=self.options.dry_run,
force_hardware=self.options.force_hardware)
except Exception as e:
self.report(e, 'error')
return
state = dev.status() # hint at loading paper, if not ready.
self.report("status=%s" % (state), 'log')
self.report("device version: '%s'" % dev.get_version(), 'log')
dev.setup(media=int(self.options.media, 10),
pen=self.pen,
toolholder=self.options.toolholder,
cuttingmat=self.options.cuttingmat,
sharpencorners=self.options.sharpencorners,
sharpencorners_start=self.options.sharpencorners_start,
sharpencorners_end=self.options.sharpencorners_end,
autoblade=self.autoblade,
depth=self.options.depth,
sw_clipping=self.options.sw_clipping,
bladediameter=self.options.bladediameter,
pressure=self.options.pressure,
speed=self.options.speed,
skip_init=self.options.skip_init)
if self.options.autocrop:
# this takes much longer, if we have a complext drawing
bbox = dev.plot(pathlist=cut,
mediawidth=convert_unit(self.svg.viewport_width, "mm"),
mediaheight=convert_unit(self.svg.viewport_height, "mm"),
margintop=0,
marginleft=0,
bboxonly=None, # only return the bbox, do not draw it.
endposition="start",
regmark=self.options.regmark,
regsearch=self.options.regsearch,
regwidth=self.reg_width,
reglength=self.reg_length,
regoriginx=self.reg_origin_X,
regoriginy=self.reg_origin_Y,
skip_init=self.options.skip_init,
skip_reset=self.options.skip_reset)
if len(bbox["bbox"].keys()):
self.report(
"autocrop left=%.1fmm top=%.1fmm" % (
bbox["bbox"]["llx"]*bbox["unit"],
bbox["bbox"]["ury"]*bbox["unit"]), 'log')
self.options.x_off -= bbox["bbox"]["llx"]*bbox["unit"]
self.options.y_off -= bbox["bbox"]["ury"]*bbox["unit"]
bbox = dev.plot(pathlist=cut,
mediawidth=convert_unit(self.svg.viewport_width, "mm"),
mediaheight=convert_unit(self.svg.viewport_height, "mm"),
offset=(self.options.x_off, self.options.y_off),
bboxonly=self.options.bboxonly,
endposition=self.options.endposition,
end_paper_offset=self.options.end_offset,
regmark=self.options.regmark,
regsearch=self.options.regsearch,
regwidth=self.reg_width,
reglength=self.reg_length,
regoriginx=self.reg_origin_X,
regoriginy=self.reg_origin_Y,
skip_init=self.options.skip_init,
skip_reset=self.options.skip_reset)
if len(bbox["bbox"].keys()) == 0:
self.report("empty page?", 'error')
else:
self.writeProgress(1, 1, "bbox: (%.1f, %.1f)-(%.1f, %.1f)mm, %d points" % (
bbox["bbox"]["llx"]*bbox["unit"],
bbox["bbox"]["ury"]*bbox["unit"],
bbox["bbox"]["urx"]*bbox["unit"],
bbox["bbox"]["lly"]*bbox["unit"],
bbox["bbox"]["count"]))
self.report("", 'tty')
state = dev.status()
write_duration = time.time() - self.write_start_tstamp
# we took write_duration seconds for actualy cutting
# 100-device_buffer_perc percent of all data.
# Thus we can compute the average write speed like this:
if write_duration > 1.0:
percent_per_sec = (100.0-self.device_buffer_perc) / write_duration
else:
percent_per_sec = 1000. # unreliable data
wait_sec = 1
if percent_per_sec > 1: # prevent overflow if device_buffer_perc is almost 100
while (percent_per_sec*wait_sec < 1.6): # max 60 dots
wait_sec *= 2
dots = "."
while self.options.wait_done and state == "moving":
time.sleep(wait_sec)
self.device_buffer_perc -= wait_sec * percent_per_sec
if self.device_buffer_perc < 0.0:
self.device_buffer_perc = 0.0
self.writeProgress(1, 1, dots)
dots += "."
state = dev.status()
self.device_buffer_perc = 0.0
self.writeProgress(1, 1, dots)
self.report("\nstatus=%s" % (state), 'log')
if __name__ == "__main__":
e = SendtoSilhouette()
# write a tempfile that is removed on exit
if (len(sys.argv) < 2):
tmpfile=NamedTemporaryFile(suffix=".svg", prefix="inkscape-silhouette", delete=False)
tmpfile.write(b'<svg xmlns="http://www.w3.org/2000/svg" width="100mm" height="100mm" viewBox="0 0 100 100"><path d="M 0, 0" /></svg>')
tmpfile.close()
e.run([tmpfile.name])
os.remove(tmpfile.name)
else:
start = time.time()
e.run()
ss = int(time.time()-start+.5)
mm = int(ss/60)
ss -= mm*60
e.report(" done. %d min %d sec" % (mm, ss), 'log')
sys.exit(0)