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mightyscape-1.1-deprecated/extensions/fablabchemnitz/fablabchemnitz_fret_ruler.py
2020-08-30 12:36:33 +02:00

505 lines
25 KiB
Python

#!/usr/bin/env python3
# Distributed under the terms of the GNU Lesser General Public License v3.0
### Author: Neon22 - github 2016
###
import inkex
import fablabchemnitz_fret_scale as fs
import os # for scala file filtering
from math import radians, cos, sin, pi
from lxml import etree
###----------------------------------------------------------------------------
### Styles - color and size settings
Black = "#000000"
Font_height = 5
# factor used for marker radius
marker_rad_factor = 4
Line_style = { 'stroke' : Black,
'stroke-width' : '0.2px',
'fill' : "none" }
Dash_style = { 'stroke' : Black,
'stroke-width' : '0.1px',
'stroke-dasharray' : '0.9,0.9',
'fill' : "none" }
Label_style = { 'font-size' : str(int(Font_height))+'px',
'font-family' : 'arial',
'text-anchor' : 'end', # middle
'fill' : Black }
Centerline_style = { 'stroke' : Black,
'stroke-width' : '0.1px',
'stroke-dasharray' : '1.2,0.7,0.3,0.7',
'fill' : "none" }
# Helper functions
def build_line(x1, y1, x2, y2, unitFactor):
path = 'M %s,%s L %s,%s' % (x1*unitFactor, y1*unitFactor, x2*unitFactor, y2*unitFactor)
return path
def build_notch(x,y, notch_width, unitFactor, dir=1):
""" draw a notch around the x value
- dir=-1 means notch is on other side
"""
w_2 = notch_width/2
x1 = x - w_2
x2 = x + w_2
y2 = y + notch_width*dir
path = 'L %s,%s L %s,%s' % (x1*unitFactor, y*unitFactor, x1*unitFactor, y2*unitFactor)
path += 'L %s,%s L %s,%s' % (x2*unitFactor, y2*unitFactor, x2*unitFactor, y*unitFactor)
return path
def draw_center_cross(x,y, parent, length=2, style=Line_style):
" center cross for holes "
d = 'M {0},{1} l {2},0 M {3},{4} l 0,{2}'.format(x-length,y, length*2, x,y-length)
cross_attribs = { inkex.addNS('label','inkscape'): 'Center cross',
'style': str(inkex.Style(style)), 'd': d }
etree.SubElement(parent, inkex.addNS('path','svg'), cross_attribs )
def draw_SVG_circle(cx, cy, radius, parent, name='circle', style=Line_style):
" structure an SVG circle entity under parent "
circ_attribs = {'style': str(inkex.Style(style)),
'cx': str(cx), 'cy': str(cy),
'r': str(radius),
inkex.addNS('label','inkscape'): name}
circle = etree.SubElement(parent, inkex.addNS('circle','svg'), circ_attribs )
def draw_circle_marker(x,y, radius, parent):
" circle with cross at center "
draw_center_cross(x, y, parent, radius/5.0)
draw_SVG_circle(x, y, radius, parent)
###
class Fret_ruler(inkex.Effect):
def __init__(self):
inkex.Effect.__init__(self)
# main tab
self.arg_parser.add_argument('--method', default='12th Root of 2', help="Method to calculate scale")
self.arg_parser.add_argument('--draw_style', default='Ruler', help="How to draw the Ruler/NEck")
self.arg_parser.add_argument("--nth", type=int,default=12, help="For different number of notes in a scale")
self.arg_parser.add_argument('--scala_filename', default='12tet', help="Name of file in scales directory")
self.arg_parser.add_argument("--units", default="in", help="The units of entered dimensions")
self.arg_parser.add_argument("--length", type=float, default=25.5, help="Length of the Scale (and Ruler)")
self.arg_parser.add_argument("--width", type=float, default=1.5, help="Width of the Ruler (= Nut if drawing a neck)")
self.arg_parser.add_argument("--frets", type=int, default=18, help="number of frets on the scale")
#
self.arg_parser.add_argument("--fanned", type=inkex.Boolean, default=False, help="Two scales on either side of the Neck")
self.arg_parser.add_argument("--basslength", type=float, default=25.5, help="Length of the Bass side Scale")
self.arg_parser.add_argument("--perpendicular", type=int, default=7, help="Fret number which is perpendicular to the Neck")
#
self.arg_parser.add_argument("--linewidth", type=float, default=0.1, help="Width of drawn lines")
self.arg_parser.add_argument("--notch_width", type=float, default=0.125, help="Width of Fret notches on Router template")
self.arg_parser.add_argument("--annotate", type=inkex.Boolean, default=True, help="Annotate with Markers etc")
self.arg_parser.add_argument("--centerline", type=inkex.Boolean, default=True, help="Draw a centerline")
# Neck
self.arg_parser.add_argument("--constant_width", type=inkex.Boolean, default=True, help="Use Bridge width as well to make Neck")
self.arg_parser.add_argument("--width_bridge", type=float, default=2.0, help="Width at the Bridge (drawing Neck not Ruler)")
self.arg_parser.add_argument("--show_markers", type=inkex.Boolean, default=False, help="Show Neck Marker Positions")
self.arg_parser.add_argument('--markers', default='3,5,7,10,12,12,15', help="List of frets to draw markers on")
#
self.arg_parser.add_argument("--nutcomp", type=inkex.Boolean, default=False, help="Modify Nut position")
self.arg_parser.add_argument("--nutcomp_value", default="0.012in (0.30mm)", help="Preset (usual) Nut compensation values")
self.arg_parser.add_argument("--nutcomp_manual", type=float, default=0.014, help="Manual distance to move Nut closer to Bridge")
#
self.arg_parser.add_argument("--show_curves", type=inkex.Boolean, default=False, help="Show a neck curvature ruler")
self.arg_parser.add_argument("--neck_radius", type=float, default=2.0, help="Radius of Neck curvature")
self.arg_parser.add_argument("--arc_length", type=float, default=2.0, help="Length of Arc")
self.arg_parser.add_argument("--block_mode", type=inkex.Boolean, default=False, help="Draw block or finger style")
self.arg_parser.add_argument("--arc_height", type=float, default=2.0, help="height of Arc")
self.arg_parser.add_argument("--string_spacing", type=float, default=2.0, help="Spacing between strings")
#
self.arg_parser.add_argument("--filter_tones", type=inkex.Boolean, default=True, help="Only show Scala files with this many notes in a scale.")
self.arg_parser.add_argument("--scale", type=int, default=12, help="number of Notes in the scale")
self.arg_parser.add_argument("--filter_label", type=inkex.Boolean, default=True, help="Only show Scala files with this keyword in them.")
self.arg_parser.add_argument("--keywords", default="diatonic", help="Keywords to search for")
# here so we can have tabs
self.arg_parser.add_argument("-t", "--active-tab", default='ruler', help="Active tab.")
def filter_scala_files(self, parent):
""" Look in the scale directory for files.
- show only files matching the filters
"""
filter_tones = self.options.filter_tones
filter_names = self.options.filter_label
numtones = self.options.scale
keywords = self.options.keywords
keywords = keywords.strip().split(',')
keywords = [k.lower() for k in keywords]
#
probable_dir = os.getcwd()+'/scales/'
files = os.listdir(probable_dir)
# inkex.utils.debug("%s"%([os.getcwd(),len(files)]))
# Display filenames in document
filenames = [["Searched %d files"%(len(files)), "Found no matches", 0]]
for f in files:
fname = probable_dir+f
data = fs.read_scala(fname, False)
# filter out files that don't match
if filter_tones and filter_names:
if numtones == data[1]:
if filter_names:
for k in keywords:
if data[0].find(k) > -1 or f.find(k) > -1:
filenames.append([f, data[0], data[1]])
elif filter_tones:
if numtones == data[1]:
filenames.append([f, data[0], data[1]])
elif filter_names:
for k in keywords:
if data[0].find(k) > -1 or f.find(k) > -1:
filenames.append([f, data[0], data[1]])
# inkex.utils.debug("%s"%(filenames))
# gathered them all - display them
if len(filenames) != 0:
filenames[0][1] = "Found %d matches"%(len(filenames)-1)
x = 0
y = 0
Label_style['text-anchor'] = 'start'
for f in filenames:
label = f[0]
if f[2] != 0:
label += " - (%d tones)"%(f[2])
self.draw_label(x, y, label, parent)
self.draw_label(x+Font_height*2, y+Font_height*1.2, f[1], parent)
if y ==0: y += Font_height
y += Font_height*2.8
Label_style['text-anchor'] = 'end'
###
def draw_label(self, x,y, label, parent, transform=False, style=Label_style):
" add a text entity "
text_atts = {'style':str(inkex.Style(style)),
'x': str(x), 'y': str(y) }
if transform: text_atts['transform'] = transform
text = etree.SubElement(parent, 'text', text_atts)
text.text = "%s" %(label)
###
def draw_ruler(self, neck, parent, show_numbers=False):
" draw the ruler with the centre of nut at 0,0 (unless fanned)"
# fanned frets have a bass side as well as the normal(treble) side scale length
# assume fanned
treble_length = neck.length
bass_length = treble_length if not neck.fanned else neck.bass_scale
y1 = neck.nut_width/2
y2 = neck.bridge_width/2
startx = 0
endx = 0
# if neck is fanned - adjust start, end
if neck.fanned:
if neck.fan_offset > 0:
startx = neck.fan_offset
else:
endx = -neck.fan_offset
pts = [[treble_length+startx,-y2], [bass_length+endx,y2], [endx,y1]]
# Create the boundary(neck) paths
path = 'M %s,%s ' % (startx*self.convFactor, -y1*self.convFactor)
for i in range(3):
path += " L %s,%s "%(pts[i][0]*self.convFactor, pts[i][1]*self.convFactor)
path += "Z"
line_attribs = {'style' : str(inkex.Style(Line_style)),
inkex.addNS('label','inkscape') : 'Outline' }
line_attribs['d'] = path
ell = etree.SubElement(parent, inkex.addNS('path','svg'), line_attribs )
# Draw the fret lines
distances = neck.frets # do the zeroth value as well
for count, xt in enumerate(distances): # seq of x offsets for each fret
xb = xt if not neck.fanned else neck.bass_frets[count]
# if neck is not straight, calc the extra bit to draw in Y
yt = yb = y1
if y1 != y2: # neck not straight
yt = y1 + ((xt-startx)/float(treble_length) * (y2-y1))
yb = y1 + ((xb-endx)/float(bass_length) * (y2-y1))
path = build_line(xt, -yt, xb, yb, self.convFactor)
line_attribs['d'] = path
ell = etree.SubElement(parent, inkex.addNS('path','svg'), line_attribs)
# Fret Numbers on odd frets(+octave)
if show_numbers and (count%2 == 0 or count == neck.notes_in_scale-1):
# try to push the lower fret numbers to the right a little
Label_style['text-anchor'] = 'start' if count < 9 else 'middle'
label_pos = neck.find_mid_point(count, -neck.nut_width/3)
self.draw_label(label_pos[0]*self.convFactor, label_pos[1]*self.convFactor, count+1, parent)
Label_style['text-anchor'] = 'end'
def draw_router_template(self, neck, parent, notch_width, show_numbers=False):
" draw the ruler as a notched router template "
length = neck.length
y = neck.nut_width/2
startx = notch_width*6
pts = [[length,-y], [length,y], [-startx,y]]
path = 'M %s,%s ' % (-startx*self.convFactor, -y*self.convFactor) # start
distances = [0]
distances.extend(neck.frets)
# style
line_attribs = {'style' : str(inkex.Style(Line_style)),
inkex.addNS('label','inkscape') : 'Outline' }
# draw the fret notches, lines, labels
for count, x in enumerate(distances):
path += build_notch(x,-y, notch_width, self.convFactor)
if show_numbers and (count%2 == 1 or count == 0 or count == neck.notes_in_scale):
Label_style['text-anchor'] = 'start' if count < 9 else 'middle'
self.draw_label(x*self.convFactor-Font_height, -y*self.convFactor+Font_height*2.2, count, parent)
Label_style['text-anchor'] = 'end'
# other side markers
path2 = build_line(x, y, x, notch_width*2-y, self.convFactor)
line_attribs['d'] = path2
ell = etree.SubElement(parent, inkex.addNS('path','svg'), line_attribs)
# close other side of template
for i in range(3):
path += " L %s,%s "%(pts[i][0]*self.convFactor, pts[i][1]*self.convFactor)
path += "Z"
# Draw
line_attribs['d'] = path
etree.SubElement(parent, inkex.addNS('path','svg'), line_attribs )
def draw_neck_curve_ruler(self, neck, radius, arc_length, arc_height, string_spacing, parent):
" draw arcs for curved fretboards "
# perfect world draw ruler and lines to curved ruler.
# mode = 'block1'
block_mode = self.options.block_mode
tab_length = arc_height*3 * self.convFactor
diam_in = radius * 2 * self.convFactor
angle_d = 180*arc_length / (2*pi*radius)
angle = radians(angle_d)
dist = arc_height*self.convFactor
path = "M%s %s L%s %s" %(diam_in + dist,0, diam_in,0)
x_a = diam_in * cos(angle)
y_a = diam_in * sin(angle)
x_b = (diam_in + dist) * cos(angle)
y_b = (diam_in + dist) * sin(angle)
path += " A %s,%s 0 0 1 %s %s" % (diam_in, diam_in, x_a, y_a)
path += " L%s %s" %(x_b, y_b)
if block_mode:
# use a solid block style
# add a midpoint for users to play with
path += " L%s %s" % (diam_in+dist+(x_b-diam_in-dist)/2, y_b/2)
tab_length = 0
else: # tab mode
# need another arc with tab sections
small_angle = radians(90*string_spacing / (2*pi*radius))
angle2 = angle/2 + small_angle
angle3 = angle/2 - small_angle
x_c = (diam_in + dist) * cos(angle2)
y_c = (diam_in + dist) * sin(angle2)
x_d = (diam_in + dist + tab_length) * cos(angle2)
y_d = (diam_in + dist + tab_length) * sin(angle2)
x_e = (diam_in + dist + tab_length) * cos(angle3)
y_e = (diam_in + dist + tab_length) * sin(angle3)
x_f = (diam_in + dist) * cos(angle3)
y_f = (diam_in + dist) * sin(angle3)
path += " A %s,%s 0 0 0 %s %s" % (diam_in, diam_in, x_c, y_c)
path += " L%s %s" %(x_d, y_d)
path += " L%s %s" %(x_e, y_e)
path += " L%s %s" %(x_f, y_f)
path += " A %s,%s 0 0 0 %s %s" % (diam_in, diam_in, diam_in + dist, 0)
# close path
path += 'z'
ypos = diam_in + dist + tab_length + self.options.width*self.convFactor
line_attribs = {'style' : str(inkex.Style(Line_style)), inkex.addNS('label','inkscape') : 'Neck Curve',
'transform': 'rotate(%f) translate(%s,%s)' % (-angle_d/2 -90, -ypos,-dist)}
line_attribs['d'] = path
etree.SubElement(parent, inkex.addNS('path','svg'), line_attribs )
# label
size = "%d"%radius if radius-int(radius) == 0 else "%4.2f"%(radius)
Label_style['text-anchor'] = 'start'
self.draw_label(0, 0, "Radius: %s%s"% (size, neck.units), parent,
transform='translate(%s,%s)'%(0,ypos-diam_in-dist/2))
Label_style['text-anchor'] = 'end'
def draw_title(self, neck, parent, initial="Fret Ruler:"):
" Draw list of labels far right of ruler/Neck "
labels = [initial]
length = "%d"%neck.length if neck.length-int(neck.length) == 0 else "%4.2f"%(neck.length)
if neck.fanned:
basslength = "%d"%neck.bass_scale if neck.bass_scale-int(neck.bass_scale) == 0 else "%4.2f"%(neck.bass_scale)
labels.append("Scale(Fanned): %s%s - %s%s" %(length, neck.units, basslength, neck.units))
else: # not fanned
labels.append("Scale: %s%s, %d frets" %(length, neck.units, len(neck.frets)))
#
label2 = "Method: %s" % (neck.method.title())
if neck.method == 'scala':
label2 += " (%s) %d tones" %(neck.scala.split('/')[-1], len(neck.scala_notes))
labels.append(label2)
labels.append('"%s"' %(neck.description))
else:
labels.append(label2)
# unit formatting
units = self.options.units
precision = 1 if units=='mm' else 2
widthN = self.options.width
widthB = self.options.width_bridge
label_w = "{:4.{prec}f}{}".format(widthN, units, prec=precision)
if not self.options.constant_width:
label_w += "(Nut) - {:4.{prec}f}{}(Bridge)".format(widthB, units, prec=precision)
labels.append("Width: %s"%(label_w))
if not self.options.constant_width and len(neck.frets)>11:
distance12 = neck.frets[11]
# inkex.utils.debug("%s"%([distance12/float(neck.length)]))
width12 = widthN + (distance12/float(neck.length) * (widthB-widthN))
labels.append("(at 12th fret: {:4.{prec}f}{})".format(width12, units, prec=precision))
# where to draw
starty = widthN if self.options.constant_width else widthB
y = -starty/2*self.convFactor + Font_height*1.2
x_offset = 0
if neck.fanned and self.options.draw_style != 'template':
x_offset = neck.fan_offset
x = neck.length*self.convFactor - Font_height*1.5 + x_offset*self.convFactor
# Draw
for label in labels:
self.draw_label(x,y, label, parent)
y += Font_height*1.2
def draw_nut_compensation(self, neck, distance, parent):
" "
# inkex.utils.debug("%s"%([distance]))
startx = 0
endx = 0
if neck.fanned:
if neck.fan_offset > 0:
startx = neck.fan_offset
else:
endx = -neck.fan_offset
y = self.options.width/2
path = build_line(startx+distance, -y, endx+distance, y, self.convFactor)
line_attribs = {'style' : str(inkex.Style(Dash_style)), 'd':path,
inkex.addNS('label','inkscape') : 'Nut Compensation' }
etree.SubElement(parent, inkex.addNS('path','svg'), line_attribs)
def draw_neck_markers(self, neck, parent):
" draw symbol at fret pos. N possible "
# list may contain several occurences of a fret - meaning draw dots equidistant
positions = neck.frets
try: # user input weirdness
locations = self.options.markers.strip().split(",")
counts = [[int(i),locations.count(i)] for i in locations if i]
fret_counts = []
for f in counts:
if f not in fret_counts: fret_counts.append(f)
except:
inkex.errormsg("Could not parse list of fret numbers. E.g. 3,5,7,7")
fret_counts = [[3,1]]
# marker radius based on thinnest of the (to be marked) fret spacings
spacings = [neck.frets[f-1] - neck.frets[max(0,f-2)] for f,c in fret_counts if f < len(neck.frets)+1]
thinnest = min(spacings)
marker_radius = thinnest/marker_rad_factor*self.convFactor
for fret, count in fret_counts:
if fret <= len(positions): # ignore if > #frets on this neck
# inkex.utils.debug("%s"%([fret,count,positions[fret]]))
fret = fret-1
if count == 1: # if odd, draw in center
markerpos = neck.find_mid_point(fret, 0)
draw_circle_marker(markerpos[0]*self.convFactor, markerpos[1]*self.convFactor, marker_radius, parent)
else: # draw several at that fret
sep = neck.nut_width/float(count+2)
for i in range(count):
markerpos = neck.find_mid_point(fret, sep*i*2 - sep*(count-1))
draw_circle_marker(markerpos[0]*self.convFactor, markerpos[1]*self.convFactor, marker_radius, parent)
###
def effect(self):
# calc units conversion
self.convFactor = self.svg.unittouu("1" + self.options.units)
# fix line width
Line_style['stroke-width'] = self.svg.unittouu(str(self.options.linewidth) + "mm")
# Usually we want 12 tone octaves
numtones = 12
if self.options.method == 'Nroot2':
numtones = int(self.options.nth)
self.options.method = '%droot2'%(numtones)
# Usually we don't want a scala file
scala_filename=False
if self.options.method == 'scala':
scala_filename = "scales/"+self.options.scala_filename
if scala_filename[-4:] != ".scl":
scala_filename += ".scl"
# Create group center of view
t = 'translate(%s,%s)' % (self.svg.namedview.center[0]-self.options.length*self.convFactor/2, self.svg.namedview.center[1])
grp_attribs = {inkex.addNS('label','inkscape'):'Fret Ruler', 'transform':t}
grp = etree.SubElement(self.svg.get_current_layer(), 'g', grp_attribs)
page = self.options.active_tab[1:-1]
draw_style = self.options.draw_style
# check if on Scala filters page
if page == 'filters':
# display filtered scala files
self.filter_scala_files(grp)
else: # Regular action of drawing a Ruler...
# select which style to draw based on user choice and what page they're on...
# if on Ruler page then use draw_style
title = "Fret Ruler:"
if page == 'neck': draw_style = 'neck'
if page == 'ruler' and draw_style=='ruler' or draw_style=='template':
# override constant width if on Ruler page
self.options.constant_width = True
# calc fret widths
fret_width = self.options.width
if (page == 'neck' or draw_style=='neck'):
title = "Neck Ruler:"
if not self.options.constant_width:
fret_width = [self.options.width, self.options.width_bridge]
# Make the Neck
neck = fs.Neck(self.options.length, units=self.options.units, fret_width=fret_width)
neck.calc_fret_offsets(self.options.length, self.options.frets, self.options.method,
numtones=numtones, scala_filename=scala_filename)
if self.options.fanned:
# fanned frets so calc bass scale and adjust
perpendicular = min(self.options.perpendicular, len(neck.frets))
off = neck.set_fanned(self.options.basslength, perpendicular)
if draw_style=='template':
notch = self.options.notch_width
title = "Router Template:"
self.draw_router_template(neck, grp, notch, self.options.annotate)
else:
self.draw_ruler(neck, grp, self.options.annotate)
self.draw_title(neck, grp, title)
if self.options.centerline and self.options.draw_style != 'template':
path = build_line(-0.5,0, max(neck.length, neck.bass_scale)+0.5, 0, self.convFactor)
line_attribs = {'style' : str(inkex.Style(Centerline_style)), 'd':path,
inkex.addNS('label','inkscape') : 'Centerline' }
etree.SubElement(grp, inkex.addNS('path','svg'), line_attribs)
# Neck specials
if page == 'neck' or draw_style=='neck':
# Nut compensation
if self.options.nutcomp:
value = self.options.nutcomp_value
try:
compensation = float(value) if value != 'manual' else float(self.options.nutcomp_manual)
self.draw_nut_compensation(neck, compensation, grp)
except:
inkex.errormsg("Could not determine Nut compensation. Use a number.")
# Markers
if self.options.show_markers:
self.draw_neck_markers(neck, grp)
# inkex.utils.debug("#%s#"%(ordered_chords))
if self.options.show_curves:
# position below max height of title text
self.draw_neck_curve_ruler(neck, self.options.neck_radius, self.options.arc_length, self.options.arc_height, self.options.string_spacing, grp)
# Create effect instance and apply it.
if __name__ == '__main__':
Fret_ruler().run()
### TODO:
# - draw option for fret0 hole to hang ruler from
# - draw strings
# - how many strings
# - separation distance
# - work out interval offsets
# - calc bridge compensation
# - calc stretch compensation
# - draw side view with bridge, relief distances
#BUGS:
#
# Links:
# Nut compensation: http://www.lmii.com/scale-length-intonation