mightyscape-1.1-deprecated/extensions/fablabchemnitz/reorder_sequence/simplepath.py

"""
simplepath.py
functions for digesting paths into a simple list structure

Copyright (C) 2005 Aaron Spike, aaron@ekips.org

This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA.

"""
import re, math

def lexPath(d):
    """
    returns and iterator that breaks path data 
    identifies command and parameter tokens
    """
    offset = 0
    length = len(d)
    delim = re.compile(r'[ \t\r\n,]+')
    command = re.compile(r'[MLHVCSQTAZmlhvcsqtaz]')
    parameter = re.compile(r'(([-+]?[0-9]+(\.[0-9]*)?|[-+]?\.[0-9]+)([eE][-+]?[0-9]+)?)')
    while 1:
        m = delim.match(d, offset)
        if m:
            offset = m.end()
        if offset >= length:
            break
        m = command.match(d, offset)
        if m:
            yield [d[offset:m.end()], True]
            offset = m.end()
            continue
        m = parameter.match(d, offset)
        if m:
            yield [d[offset:m.end()], False]
            offset = m.end()
            continue
        #TODO: create new exception
        raise Exception('Invalid path data!')
'''
pathdefs = {commandfamily:
    [
    implicitnext,
    #params,
    [casts,cast,cast],
    [coord type,x,y,0]
    ]}
'''
pathdefs = {
    'M':['L', 2, [float, float], ['x','y']], 
    'L':['L', 2, [float, float], ['x','y']], 
    'H':['H', 1, [float], ['x']], 
    'V':['V', 1, [float], ['y']], 
    'C':['C', 6, [float, float, float, float, float, float], ['x','y','x','y','x','y']], 
    'S':['S', 4, [float, float, float, float], ['x','y','x','y']], 
    'Q':['Q', 4, [float, float, float, float], ['x','y','x','y']], 
    'T':['T', 2, [float, float], ['x','y']], 
    'A':['A', 7, [float, float, float, int, int, float, float], ['r','r','a',0,'s','x','y']], 
    'Z':['L', 0, [], []]
    }
def parsePath(d):
    """
    Parse SVG path and return an array of segments.
    Removes all shorthand notation.
    Converts coordinates to absolute.
    """
    retval = []
    lexer = lexPath(d)

    pen = (0.0,0.0)
    subPathStart = pen
    lastControl = pen
    lastCommand = ''
    
    while 1:
        try:
            token, isCommand = next(lexer)
        except StopIteration:
            break
        params = []
        needParam = True
        if isCommand:
            if not lastCommand and token.upper() != 'M':
                raise Exception('Invalid path, must begin with moveto.')
            else:                
                command = token
        else:
            #command was omited
            #use last command's implicit next command
            needParam = False
            if lastCommand:
                if lastCommand.isupper():
                    command = pathdefs[lastCommand][0]
                else:
                    command = pathdefs[lastCommand.upper()][0].lower()
            else:
                raise Exception('Invalid path, no initial command.')
        numParams = pathdefs[command.upper()][1]
        while numParams > 0:
            if needParam:
                try: 
                    token, isCommand = next(lexer)
                    if isCommand:
                        raise Exception('Invalid number of parameters')
                except StopIteration:
                    raise Exception('Unexpected end of path')
            cast = pathdefs[command.upper()][2][-numParams]
            param = cast(token)
            if command.islower():
                if pathdefs[command.upper()][3][-numParams]=='x':
                    param += pen[0]
                elif pathdefs[command.upper()][3][-numParams]=='y':
                    param += pen[1]
            params.append(param)
            needParam = True
            numParams -= 1
        #segment is now absolute so
        outputCommand = command.upper()
    
        #Flesh out shortcut notation    
        if outputCommand in ('H','V'):
            if outputCommand == 'H':
                params.append(pen[1])
            if outputCommand == 'V':
                params.insert(0,pen[0])
            outputCommand = 'L'
        if outputCommand in ('S','T'):
            params.insert(0,pen[1]+(pen[1]-lastControl[1]))
            params.insert(0,pen[0]+(pen[0]-lastControl[0]))
            if outputCommand == 'S':
                outputCommand = 'C'
            if outputCommand == 'T':
                outputCommand = 'Q'

        #current values become "last" values
        if outputCommand == 'M':
            subPathStart = tuple(params[0:2])
            pen = subPathStart
        if outputCommand == 'Z':
            pen = subPathStart
        else:
            pen = tuple(params[-2:])

        if outputCommand in ('Q','C'):
            lastControl = tuple(params[-4:-2])
        else:
            lastControl = pen
        lastCommand = command

        retval.append([outputCommand,params])
    return retval

def formatPath(a):
    """Format SVG path data from an array"""
    return "".join([cmd + " ".join([str(p) for p in params]) for cmd, params in a])

def translatePath(p, x, y):
    for cmd,params in p:
        defs = pathdefs[cmd]
        for i in range(defs[1]):
            if defs[3][i] == 'x':
                params[i] += x
            elif defs[3][i] == 'y':
                params[i] += y

def scalePath(p, x, y):
    for cmd,params in p:
        defs = pathdefs[cmd]
        for i in range(defs[1]):
            if defs[3][i] == 'x':
                params[i] *= x
            elif defs[3][i] == 'y':
                params[i] *= y
            elif defs[3][i] == 'r':         # radius parameter
                params[i] *= x
            elif defs[3][i] == 's':         # sweep-flag parameter
                if x*y < 0:
                    params[i] = 1 - params[i]
            elif defs[3][i] == 'a':         # x-axis-rotation angle
                if y < 0:
                    params[i] = - params[i]

def rotatePath(p, a, cx = 0, cy = 0):
    if a == 0:
        return p
    for cmd,params in p:
        defs = pathdefs[cmd]
        for i in range(defs[1]):
            if defs[3][i] == 'x':
                x = params[i] - cx
                y = params[i + 1] - cy
                r = math.sqrt((x**2) + (y**2))
                if r != 0:
                    theta = math.atan2(y, x) + a
                    params[i] = (r * math.cos(theta)) + cx
                    params[i + 1] = (r * math.sin(theta)) + cy


# vim: expandtab shiftwidth=4 tabstop=8 softtabstop=4 fileencoding=utf-8 textwidth=99
Re-added Reorder Sequence from Evil Mad Scientist. Now working 2020-09-07 23:38:38 +02:00			`"""`
			`simplepath.py`
			`functions for digesting paths into a simple list structure`

			`Copyright (C) 2005 Aaron Spike, aaron@ekips.org`

			`This program is free software; you can redistribute it and/or modify`
			`it under the terms of the GNU General Public License as published by`
			`the Free Software Foundation; either version 2 of the License, or`
			`(at your option) any later version.`

			`This program is distributed in the hope that it will be useful,`
			`but WITHOUT ANY WARRANTY; without even the implied warranty of`
			`MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
			`GNU General Public License for more details.`

			`You should have received a copy of the GNU General Public License`
			`along with this program; if not, write to the Free Software`
			`Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.`

			`"""`
			`import re, math`

			`def lexPath(d):`
			`"""`
			`returns and iterator that breaks path data`
			`identifies command and parameter tokens`
			`"""`
			`offset = 0`
			`length = len(d)`
			`delim = re.compile(r'[ \t\r\n,]+')`
			`command = re.compile(r'[MLHVCSQTAZmlhvcsqtaz]')`
			`parameter = re.compile(r'(([-+]?[0-9]+(\.[0-9]*)?\|[-+]?\.[0-9]+)([eE][-+]?[0-9]+)?)')`
			`while 1:`
			`m = delim.match(d, offset)`
			`if m:`
			`offset = m.end()`
			`if offset >= length:`
			`break`
			`m = command.match(d, offset)`
			`if m:`
			`yield [d[offset:m.end()], True]`
			`offset = m.end()`
			`continue`
			`m = parameter.match(d, offset)`
			`if m:`
			`yield [d[offset:m.end()], False]`
			`offset = m.end()`
			`continue`
			`#TODO: create new exception`
			`raise Exception('Invalid path data!')`
			`'''`
			`pathdefs = {commandfamily:`
			`[`
			`implicitnext,`
			`#params,`
			`[casts,cast,cast],`
			`[coord type,x,y,0]`
			`]}`
			`'''`
			`pathdefs = {`
			`'M':['L', 2, [float, float], ['x','y']],`
			`'L':['L', 2, [float, float], ['x','y']],`
			`'H':['H', 1, [float], ['x']],`
			`'V':['V', 1, [float], ['y']],`
			`'C':['C', 6, [float, float, float, float, float, float], ['x','y','x','y','x','y']],`
			`'S':['S', 4, [float, float, float, float], ['x','y','x','y']],`
			`'Q':['Q', 4, [float, float, float, float], ['x','y','x','y']],`
			`'T':['T', 2, [float, float], ['x','y']],`
			`'A':['A', 7, [float, float, float, int, int, float, float], ['r','r','a',0,'s','x','y']],`
			`'Z':['L', 0, [], []]`
			`}`
			`def parsePath(d):`
			`"""`
			`Parse SVG path and return an array of segments.`
			`Removes all shorthand notation.`
			`Converts coordinates to absolute.`
			`"""`
			`retval = []`
			`lexer = lexPath(d)`

			`pen = (0.0,0.0)`
			`subPathStart = pen`
			`lastControl = pen`
			`lastCommand = ''`

			`while 1:`
			`try:`
			`token, isCommand = next(lexer)`
			`except StopIteration:`
			`break`
			`params = []`
			`needParam = True`
			`if isCommand:`
			`if not lastCommand and token.upper() != 'M':`
			`raise Exception('Invalid path, must begin with moveto.')`
			`else:`
			`command = token`
			`else:`
			`#command was omited`
			`#use last command's implicit next command`
			`needParam = False`
			`if lastCommand:`
			`if lastCommand.isupper():`
			`command = pathdefs[lastCommand][0]`
			`else:`
			`command = pathdefs[lastCommand.upper()][0].lower()`
			`else:`
			`raise Exception('Invalid path, no initial command.')`
			`numParams = pathdefs[command.upper()][1]`
			`while numParams > 0:`
			`if needParam:`
			`try:`
			`token, isCommand = next(lexer)`
			`if isCommand:`
			`raise Exception('Invalid number of parameters')`
			`except StopIteration:`
			`raise Exception('Unexpected end of path')`
			`cast = pathdefs[command.upper()][2][-numParams]`
			`param = cast(token)`
			`if command.islower():`
			`if pathdefs[command.upper()][3][-numParams]=='x':`
			`param += pen[0]`
			`elif pathdefs[command.upper()][3][-numParams]=='y':`
			`param += pen[1]`
			`params.append(param)`
			`needParam = True`
			`numParams -= 1`
			`#segment is now absolute so`
			`outputCommand = command.upper()`

			`#Flesh out shortcut notation`
			`if outputCommand in ('H','V'):`
			`if outputCommand == 'H':`
			`params.append(pen[1])`
			`if outputCommand == 'V':`
			`params.insert(0,pen[0])`
			`outputCommand = 'L'`
			`if outputCommand in ('S','T'):`
			`params.insert(0,pen[1]+(pen[1]-lastControl[1]))`
			`params.insert(0,pen[0]+(pen[0]-lastControl[0]))`
			`if outputCommand == 'S':`
			`outputCommand = 'C'`
			`if outputCommand == 'T':`
			`outputCommand = 'Q'`

			`#current values become "last" values`
			`if outputCommand == 'M':`
			`subPathStart = tuple(params[0:2])`
			`pen = subPathStart`
			`if outputCommand == 'Z':`
			`pen = subPathStart`
			`else:`
			`pen = tuple(params[-2:])`

			`if outputCommand in ('Q','C'):`
			`lastControl = tuple(params[-4:-2])`
			`else:`
			`lastControl = pen`
			`lastCommand = command`

			`retval.append([outputCommand,params])`
			`return retval`

			`def formatPath(a):`
			`"""Format SVG path data from an array"""`
			`return "".join([cmd + " ".join([str(p) for p in params]) for cmd, params in a])`

			`def translatePath(p, x, y):`
			`for cmd,params in p:`
			`defs = pathdefs[cmd]`
			`for i in range(defs[1]):`
			`if defs[3][i] == 'x':`
			`params[i] += x`
			`elif defs[3][i] == 'y':`
			`params[i] += y`

			`def scalePath(p, x, y):`
			`for cmd,params in p:`
			`defs = pathdefs[cmd]`
			`for i in range(defs[1]):`
			`if defs[3][i] == 'x':`
			`params[i] *= x`
			`elif defs[3][i] == 'y':`
			`params[i] *= y`
			`elif defs[3][i] == 'r': # radius parameter`
			`params[i] *= x`
			`elif defs[3][i] == 's': # sweep-flag parameter`
			`if x*y < 0:`
			`params[i] = 1 - params[i]`
			`elif defs[3][i] == 'a': # x-axis-rotation angle`
			`if y < 0:`
			`params[i] = - params[i]`

			`def rotatePath(p, a, cx = 0, cy = 0):`
			`if a == 0:`
			`return p`
			`for cmd,params in p:`
			`defs = pathdefs[cmd]`
			`for i in range(defs[1]):`
			`if defs[3][i] == 'x':`
			`x = params[i] - cx`
			`y = params[i + 1] - cy`
			`r = math.sqrt((x2) + (y2))`
			`if r != 0:`
			`theta = math.atan2(y, x) + a`
			`params[i] = (r * math.cos(theta)) + cx`
			`params[i + 1] = (r * math.sin(theta)) + cy`


			`# vim: expandtab shiftwidth=4 tabstop=8 softtabstop=4 fileencoding=utf-8 textwidth=99`