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     effect.affect()
     effect.affect()
</pre>
</pre>
== Extension ==
Inkscape Isometric Projection 2.1 :
* https://inkscape.org/~jdhoek/%E2%98%85inkscape-isometric-projection-21
* https://github.com/jdhoek/inkscape-isometric-projection
** https://github.com/jdhoek/inkscape-isometric-projection/releases
Inkporter : pour l'export en formats divers (SVG, JPG, PDF, Multiple PDF Page, WEBP, and EPS) :
* https://inkscape.org/~raniaamina/%E2%98%85inkporter
Svg2ico :
* https://inkscape.org/~ginopc/%E2%98%85svg2ico
* https://github.com/ginopc/svg2ico
Inkscape - Save As :
* https://inkscape.org/~Phoca/%E2%98%85inkscape-save-as-save-as-jpg-save-as-webp-save-as-png


== Voir aussi ==
== Voir aussi ==

Version du 6 avril 2021 à 12:44

Inkscape est un logiciel de dessin vectoriel.

Il est possible de créer ses propres extension, notamment avec Python et ImageMagic.

Exemple de génération PDF et quadricouleur CMJN

Exporter en PDF et quadricouleur CMJN (CMYK) :

L'utilisation de cette extension de fait par l'option d'enregistrement : menu Fichier > Enregistrer sous... et type de fichier PDF CMYK (*.pdf)

Descriptif du fichier descriptif

Fichier : export-pdf-cmyk.inx

<?xml version="1.0" encoding="UTF-8"?>
<inkscape-extension xmlns="http://www.inkscape.org/namespace/inkscape/extension">>
    <_name>Export PDF CMYK</_name>
    <id>jonata.export-pdf-cmyk</id>
    <dependency type="executable" location="extensions">export-pdf-cmyk.py</dependency>
    <dependency type="executable" >inkscape</dependency>
    <param name="specialeffects" type="boolean" _gui-text="Rasterize filter effects">true</param>
    <param name="specialeffects_exclusively" type="boolean" _gui-text="Hide all except selected">true</param>
    <param name="resolution" type="int" min="1" max="3600" _gui-text="Resolution for rasterization (dpi)">300</param>
    <param name="set_overprint_black" type="boolean" _gui-text="Preserve black">true</param>
    <param name="icc_profile" type="boolean" _gui-text="ICC Profile">true</param>
    <output>
                <extension>.pdf</extension>
                <mimetype>application/x-pdf</mimetype>
                <_filetypename>PDF CMYK (*.pdf)</_filetypename>
                <_filetypetooltip>PDF CMYK (*.pdf)</_filetypetooltip>
                <dataloss>true</dataloss>
    </output>
    <script>
        <command reldir="extensions" interpreter="python">export-pdf-cmyk.py</command>
    </script>
</inkscape-extension>

Descriptif du programme

Fichier : export-pdf-cmyk.py

# -*- coding: utf-8 -*-
#!/usr/bin/env python

#  Copyright (C) 2010, 2011 Jonatã Bolzan <jonata@jonata.org>
#  Copyright (C) 2011  Anton Katsarov <anton@katsarov.org>
#
#  This file is part of Export-PDF-CMYK.
#
#  Export-PDF-CMYK is free software: you
#  can redistribute it and/or modify it under the terms of the GNU
#  General Public License (GNU GPL) as published by the Free Software
#  Foundation, either version 3 of the License, or (at your option)
#  any later version.  The code is distributed WITHOUT ANY WARRANTY
#  without even the implied warranty of MERCHANTABILITY or FITNESS
#  FOR A PARTICULAR PURPOSE.  See the GNU GPL for more details.
#
#  As additional permission under GNU GPL version 3 section 7, you
#  may distribute non-source (e.g., minimized or compacted) forms of
#  that code without the copy of the GNU GPL normally required by
#  section 4, provided you include this license notice and a URL
#  through which recipients can access the Corresponding Source.
#
#  END OF LICENSE HEADER

# These two lines are only needed if you don't put the script directly into
# the installation directory
import sys
reload(sys)
sys.setdefaultencoding("utf-8")
sys.path.append('/usr/share/inkscape/extensions')

import inkex, simplestyle, tempfile, os, re, subprocess

from lxml import etree

class ExportTIFF(inkex.Effect):
    def __init__(self):
        inkex.Effect.__init__(self)
        self.OptionParser.add_option("-c", "--specialeffects", action="store", type="inkbool", dest="specialeffects", default=True, help="Rasterize filter effects")
        self.OptionParser.add_option("-e", "--specialeffects_exclusively", action="store", type="inkbool", dest="specialeffects_exclusively", default=True, help="Hide all except selected")
        self.OptionParser.add_option("-r", "--resolution", action="store", type="int", dest="resolution", default=300, help="Resolution for rasterization (dpi)")
        self.OptionParser.add_option("-k", "--set_overprint_black", action="store", type="inkbool", dest="set_overprint_black", default=True, help="Preserve black")
        self.OptionParser.add_option("-i", "--icc_profile", action="store", type="inkbool", dest="icc_profile", default=True, help="ICC Profile")

    def output(self):
        out = open(tempfile.gettempdir() + os.sep + 'final.pdf','rb')
        if os.name == 'nt':
            try:
                import msvcrt
                msvcrt.setmode(1, os.O_BINARY)
            except:
                pass
        sys.stdout.write(out.read())
        out.close()

    def effect(self):
        svg = open(self.svg_file, 'r').read()

        def rename_svg_colors():
            #colortypes = ['fill', 'stop-color', 'flood-color', 'lighting-color', 'stroke']
            #for i in range(len(colortypes)):
            origin = svg
            for i in range(len(simplestyle.svgcolors.keys())):
                origin = str(origin).replace(':' + simplestyle.svgcolors.keys()[i] + ';', ':' + simplestyle.svgcolors[simplestyle.svgcolors.keys()[i]] + ';')
            return origin

        def what_export():
            doc = etree.parse(tempfile.gettempdir() + os.sep + 'final.svg')
            export_area = []
            list_of_effects = ["opacity:0", "filter", "Gradient", "image"]
            for i in range(len(list_of_effects)):
                for node in doc.getroot():
                    if not "<defs" in etree.tostring(node):
                        for child in node:
                            #open("/tmp/teste.txt", "w+").write(etree.tostring(child))
                            if list_of_effects[i] in etree.tostring(child):
                            #if 'style' in child.attrib and list_of_effects[i] in child.attrib['style']:
                                export_area.append(child.attrib['id'])
            return list(set(export_area))

        def calculateCMYK(red, green, blue):
            C = float()
            M = float()
            Y = float()
            K = float()

            if 1.00 - red < 1.00 - green:
                K = 1.00 - red
            else:
                K = 1.00 - green

            if 1.00 - blue < K:
                K = 1.00 - blue

            if K != 1.00:
                C = ( 1.00 - red   - K ) / ( 1.00 - K )
                M = ( 1.00 - green - K ) / ( 1.00 - K )
                Y = ( 1.00 - blue  - K ) / ( 1.00 - K )

            return [C, M, Y, K]

        def convert_elements_to_images():
            areas_to_export = what_export()

            file_svg_C = rename_svg_colors()
            file_svg_M = rename_svg_colors()
            file_svg_Y = rename_svg_colors()
            file_svg_K = rename_svg_colors()

            def removeK(origem):
                def zerar_opacidade(valor):
                    return str(valor.group()).split('opacity:')[0] + "opacity:0;"
                return re.sub("#000000;fill-opacity:[0-9.]+;", zerar_opacidade, re.sub("#000000;stop-opacity:[0-9.]+;", zerar_opacidade, re.sub("#000000;stroke-opacity:[0-9.]+;", zerar_opacidade, re.sub("#000000;flood-opacity:[0-9.]+;", zerar_opacidade, re.sub("#000000;lighting-opacity:[0-9.]+;", zerar_opacidade, origem)))))

            def representC(value):
                # returns CMS color if available
                if ( re.search("icc-color", value.group()) ):
                    return simplestyle.formatColor3f(float(1.00 - float(re.split('[,\)\s]+',value.group())[2])), float(1.00), float(1.00))

                red =   float(simplestyle.parseColor(str(value.group()))[0]/255.00)
                green = float(simplestyle.parseColor(str(value.group()))[1]/255.00)
                blue =  float(simplestyle.parseColor(str(value.group()))[2]/255.00)
                return simplestyle.formatColor3f(float(1.00 - calculateCMYK(red, green, blue)[0]), float(1.00), float(1.00))

            def representM(value):
        # returns CMS color if available
                if ( re.search("icc-color", value.group()) ):
                    return simplestyle.formatColor3f(float(1.00), float(1.00 - float(re.split('[,\)\s]+',value.group())[3])), float(1.00))

                red =   float(simplestyle.parseColor(str(value.group()))[0]/255.00)
                green = float(simplestyle.parseColor(str(value.group()))[1]/255.00)
                blue =  float(simplestyle.parseColor(str(value.group()))[2]/255.00)
                return simplestyle.formatColor3f(float(1.00), float(1.00 - calculateCMYK(red, green, blue)[1]), float(1.00))

            def representY(value):
        # returns CMS color if available
                if ( re.search("icc-color", value.group()) ):
                    return simplestyle.formatColor3f(float(1.00), float(1.00), float(1.00 - float(re.split('[,\)\s]+',value.group())[4])))

                red =   float(simplestyle.parseColor(str(value.group()))[0]/255.00)
                green = float(simplestyle.parseColor(str(value.group()))[1]/255.00)
                blue =  float(simplestyle.parseColor(str(value.group()))[2]/255.00)
                return simplestyle.formatColor3f(float(1.00), float(1.00), float(1.00 - calculateCMYK(red, green, blue)[2]))

            def representK(value):
        # returns CMS color if available
                if ( re.search("icc-color", value.group()) ):
                    return simplestyle.formatColor3f(float(1.00 - float(re.split('[,\)\s]+',value.group())[5])), float(1.00 - float(re.split('[,\)\s]+',value.group())[5])), float(1.00 - float(re.split('[,\)\s]+',value.group())[5])))
  
                red =   float(simplestyle.parseColor(str(value.group()))[0]/255.00)
                green = float(simplestyle.parseColor(str(value.group()))[1]/255.00)
                blue =  float(simplestyle.parseColor(str(value.group()))[2]/255.00)
                return simplestyle.formatColor3f(float(1.00 - calculateCMYK(red, green, blue)[3]), float(1.00 - calculateCMYK(red, green, blue)[3]), float(1.00 - calculateCMYK(red, green, blue)[3]))

            if (self.options.set_overprint_black):
                open(tempfile.gettempdir() + os.sep + "separationC.svg","w").write(re.sub("#[a-fA-F0-9]{6}( icc-color\(.*?\))?", representC, removeK(file_svg_C)))
                open(tempfile.gettempdir() + os.sep + "separationM.svg","w").write(re.sub("#[a-fA-F0-9]{6}( icc-color\(.*?\))?", representM, removeK(file_svg_M)))
                open(tempfile.gettempdir() + os.sep + "separationY.svg","w").write(re.sub("#[a-fA-F0-9]{6}( icc-color\(.*?\))?", representY, removeK(file_svg_Y)))
                open(tempfile.gettempdir() + os.sep + "separationK.svg","w").write(re.sub("#[a-fA-F0-9]{6}( icc-color\(.*?\))?", representK, file_svg_K))
            else:
                open(tempfile.gettempdir() + os.sep + "separationC.svg","w").write(re.sub("#[a-fA-F0-9]{6}( icc-color\(.*?\))?", representC, file_svg_C))
                open(tempfile.gettempdir() + os.sep + "separationM.svg","w").write(re.sub("#[a-fA-F0-9]{6}( icc-color\(.*?\))?", representM, file_svg_M))
                open(tempfile.gettempdir() + os.sep + "separationY.svg","w").write(re.sub("#[a-fA-F0-9]{6}( icc-color\(.*?\))?", representY, file_svg_Y))
                open(tempfile.gettempdir() + os.sep + "separationK.svg","w").write(re.sub("#[a-fA-F0-9]{6}( icc-color\(.*?\))?", representK, file_svg_K))

            resolution = str(int(self.options.resolution))

            #if self.options.specialeffects_exclusively:
            #    areas_to_export_only = '--export-id-only'
            #else:
            areas_to_export_only = ''

            alpha = " --export-background=white "
            color_space = "CMYK"
            #area_a_exportar_tamanho = " -C "
            area_a_exportar_tamanho = " "

            def generate_pngs():
                string_inkscape_exec = ''
                for i in range(len(areas_to_export)):
                    string_inkscape_exec = string_inkscape_exec + tempfile.gettempdir() + os.sep + "separationC.svg" + " " + "--export-id=" + areas_to_export[i] + " " + areas_to_export_only + area_a_exportar_tamanho + alpha + " " + '--export-png=' + tempfile.gettempdir() + os.sep + "separated" + areas_to_export[i] + "C.png" + ' --export-dpi=' + resolution + "\n"
                    string_inkscape_exec = string_inkscape_exec + tempfile.gettempdir() + os.sep + "separationM.svg" + " " + "--export-id=" + areas_to_export[i] + " " + areas_to_export_only + area_a_exportar_tamanho + alpha + " " + '--export-png=' + tempfile.gettempdir() + os.sep + "separated" + areas_to_export[i] + "M.png" + ' --export-dpi=' + resolution + "\n"
                    string_inkscape_exec = string_inkscape_exec + tempfile.gettempdir() + os.sep + "separationY.svg" + " " + "--export-id=" + areas_to_export[i] + " " + areas_to_export_only + area_a_exportar_tamanho + alpha + " " + '--export-png=' + tempfile.gettempdir() + os.sep + "separated" + areas_to_export[i] + "Y.png" + ' --export-dpi=' + resolution + "\n"
                    string_inkscape_exec = string_inkscape_exec + tempfile.gettempdir() + os.sep + "separationK.svg" + " " + "--export-id=" + areas_to_export[i] + " " + areas_to_export_only + area_a_exportar_tamanho + alpha + " " + '--export-png=' + tempfile.gettempdir() + os.sep + "separated" + areas_to_export[i] + "K.png" + ' --export-dpi=' + resolution + "\n"
                return string_inkscape_exec

            inkscape_exec = subprocess.Popen(['inkscape -z --shell'], shell=True, stdout=open('/dev/null', 'w'), stderr=open('/dev/null', 'w'), stdin=subprocess.PIPE)# + ['>', '/dev/null'])
            inkscape_exec.communicate(input=generate_pngs())

            for i in range(len(areas_to_export)):
                subprocess.Popen(['convert', tempfile.gettempdir() + os.sep + "separated" + areas_to_export[i] + "C.png", '-colorspace', 'CMYK', '-channel', 'C', '-separate', tempfile.gettempdir() + os.sep + "separated" + areas_to_export[i] + "C.png"]).wait()
                subprocess.Popen(['convert', tempfile.gettempdir() + os.sep + "separated" + areas_to_export[i] + "M.png", '-colorspace', 'CMYK', '-channel', 'M', '-separate', tempfile.gettempdir() + os.sep + "separated" + areas_to_export[i] + "M.png"]).wait()
                subprocess.Popen(['convert', tempfile.gettempdir() + os.sep + "separated" + areas_to_export[i] + "Y.png", '-colorspace', 'CMYK', '-channel', 'Y', '-separate', tempfile.gettempdir() + os.sep + "separated" + areas_to_export[i] + "Y.png"]).wait()
                subprocess.Popen(['convert', tempfile.gettempdir() + os.sep + "separated" + areas_to_export[i] + "K.png", '-colorspace', 'CMYK', '-channel', 'K', '-separate', tempfile.gettempdir() + os.sep + "separated" + areas_to_export[i] + "K.png"]).wait()
                subprocess.Popen(['convert', tempfile.gettempdir() + os.sep + "separated" + areas_to_export[i] + "C.png", tempfile.gettempdir() + os.sep + "separated" + areas_to_export[i] + "M.png", tempfile.gettempdir() + os.sep + "separated" + areas_to_export[i] + "Y.png", tempfile.gettempdir() + os.sep + "separated" + areas_to_export[i] + "K.png", '-set', 'colorspace', 'CMYK', '-combine', tempfile.gettempdir() + os.sep + areas_to_export[i] + ".jpg"]).wait()
                if (self.options.icc_profile):
                    cmyk_profile = open(os.getenv("HOME") + '/.config/inkscape/preferences.xml', 'r').read().split('id="softproof"')[1].split('uri="')[1].split('" />')[0]
                    subprocess.Popen(['convert',  tempfile.gettempdir() + os.sep + areas_to_export[i] + ".jpg", '-profile', cmyk_profile, tempfile.gettempdir() + os.sep + areas_to_export[i] + ".jpg"]).wait()

        def prepare_svg_to_pdf():
            def replace_for_device():
                origem = rename_svg_colors()
                def represent(value):
                    red =   float(simplestyle.parseColor(str(value.group()))[0]/255.00)
                    green = float(simplestyle.parseColor(str(value.group()))[1]/255.00)
                    blue =  float(simplestyle.parseColor(str(value.group()))[2]/255.00)
                    return str(str(simplestyle.formatColor3f(red,green,blue)) + ' device-cmyk(' + str(calculateCMYK(red, green, blue)[0]) + ' ' + str(calculateCMYK(red, green, blue)[1]) + ' ' + str(calculateCMYK(red, green, blue)[2]) + ' ' + str(calculateCMYK(red, green, blue)[3]) + ')')

                return re.sub("#[a-fA-F0-9]{6}", represent, origem)

            final = replace_for_device()

            if self.options.specialeffects:
                open(tempfile.gettempdir() + os.sep + 'final.svg', 'w').write(final)
                doc = etree.parse(tempfile.gettempdir() + os.sep + 'final.svg')
                areas_de_bitmaps = what_export()
                if len(areas_de_bitmaps) > 0:
                    convert_elements_to_images()
                objects_info = os.popen('inkscape -S "' + tempfile.gettempdir() + os.sep + 'final.svg' + '"')
                objects_info_list = objects_info.read().split("\n")


                for node in doc.getroot():
                    for child in node:
                        for j in range(len(areas_de_bitmaps)):
                            if 'id' in child.attrib and areas_de_bitmaps[j] in child.attrib['id']:
                                newNode=etree.Element('image')
                                for i in range(len(objects_info_list)):
                                    if child.attrib['id'] in objects_info_list[i].split(',')[0]:
                                        newNode.set('x', objects_info_list[i].split(',')[1])
                                        newNode.set('y', objects_info_list[i].split(',')[2])
                                        newNode.set('id', "image" + child.attrib['id'])
                                        newNode.set('width' , objects_info_list[i].split(',')[3])
                                        newNode.set('height' , objects_info_list[i].split(',')[4])
                                newNode.set('xlink_href', "file:///tmp/" + child.attrib['id'] + '.jpg')
                                node.replace(child, newNode)

                parsed = open(tempfile.gettempdir() + os.sep + 'finalPDF.svg', 'w')
                origem = doc.write(parsed)
            else:
                open(tempfile.gettempdir() + os.sep + 'finalPDF.svg', 'w').write(final)

        prepare_svg_to_pdf()

        replace_xlink = open(tempfile.gettempdir() + os.sep + 'finalPDF.svg', 'r').read()
        replace_xlink = replace_xlink.replace('xlink_href', 'xlink:href')

        if "<text " in replace_xlink:
            replace_xlink = ''
            subprocess.Popen(['inkscape', '--verb=EditSelectAllInAllLayers','--verb=ObjectToPath','--verb=FileSave','--verb=FileClose', tempfile.gettempdir() + os.sep + 'finalPDF.svg']).wait()
            replace_xlink = open(tempfile.gettempdir() + os.sep + 'finalPDF.svg', 'r').read()

        replace_xlink = replace_xlink.replace('medium;', '12;')
        replace_spot = ''
        for i in range(len(replace_xlink.split('\n'))): #eu seu que essa solução é "feia", mas por enquanto é a que soube fazer. Pelo menos está funcionando :)
            if 'id="crop' in replace_xlink.split('\n')[i] or 'id="bleed' in replace_xlink.split('\n')[i]:
                replace_spot = replace_spot + replace_xlink.split('\n')[i].replace('device-cmyk(0.0 0.0 0.0 1.0);', 'device-cmyk(1.0 1.0 1.0 1.0);') + '\n'
            else:
                replace_spot = replace_spot + replace_xlink.split('\n')[i] + '\n'

        open(tempfile.gettempdir() + os.sep + 'finalPDF.svg', 'w').write(replace_spot)

        subprocess.Popen(['uniconvertor', tempfile.gettempdir() + os.sep + 'finalPDF.svg', tempfile.gettempdir() + os.sep + 'final.pdf']).wait()


if __name__ == '__main__':
    effect = ExportTIFF()
    effect.affect()

Extension

Inkscape Isometric Projection 2.1 :

Inkporter : pour l'export en formats divers (SVG, JPG, PDF, Multiple PDF Page, WEBP, and EPS) :

Svg2ico :

Inkscape - Save As :

Voir aussi