add copy+increment option to scale to size extension

extensions/fablabchemnitz/scale_to_size/meta.json

@@ -1,10 +1,10 @@
 [
   {
-    "name": "Scale To Size (Replaced by default transform scale)",
+    "name": "Scale To Size",
     "id": "fablabchemnitz.de.scale_to_size",
     "path": "scale_to_size",
     "dependent_extensions": null,
-    "original_name": "Scale To Size (Replaced by default transform scale)",
+    "original_name": "Scale To Size",
     "original_id": "fablabchemnitz.de.scale_to_size",
     "license": "GNU GPL v3",
     "license_url": "https://gitea.fablabchemnitz.de/FabLab_Chemnitz/mightyscape-1.X/src/branch/master/LICENSE",

extensions/fablabchemnitz/scale_to_size/scale_to_size.inx

@@ -1,6 +1,6 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <inkscape-extension xmlns="http://www.inkscape.org/namespace/inkscape/extension">
-    <name>Scale To Size (Replaced by default transform scale)</name>
+    <name>Scale To Size</name>
     <id>fablabchemnitz.de.scale_to_size</id>
     <param name="unit" gui-text="Unit" type="optiongroup" appearance="combo">
         <option value="mm">mm</option>
@@ -9,7 +9,9 @@
         <option value="pt">pt</option>
         <option value="px">px</option>
     </param>
-    <param name="expected_size" type="float" min="0.001" max="10000.0" gui-text="Expected size: ">10.0</param>
+    <param name="expected_size" type="float" precision="3" min="0.001" max="10000.000" gui-text="Expected size: ">100.000</param>
+    <param name="copies" type="int" min="0" max="99999" gui-text="Count of copies" gui-description="0 means just the original element is transformed.">0</param>
+    <param name="scale_increment" type="float" precision="3" min="-10000.000" max="10000.000" gui-text="Scale increment (in selected units): ">0.000</param>
     <param name="scale_type" type="optiongroup" appearance="combo" gui-text="Scaling type:">
         <option value="Horizontal">Horizontal</option>
         <option value="Vertical">Vertical</option>

extensions/fablabchemnitz/scale_to_size/scale_to_size.py

@@ -10,6 +10,7 @@ from inkex.paths import CubicSuperPath, Path
 from inkex import Transform
 from lxml import etree
 from inkex.styles import Style
+import copy
 
 # This extension can scale any object or path on X, Y or both axes. This addon is kind of obsolete because you can do the same from transforms menu
 
@@ -18,75 +19,90 @@ class ScaleToSize(inkex.EffectExtension):
     def add_arguments(self, pars):
         pars.add_argument('--unit')
         pars.add_argument("--keep_aspect", type=inkex.Boolean, default=True, help="Does not apply for uniform scaling")
-        pars.add_argument("--expected_size", type=float, default=1.0, help="The expected size of the object")
+        pars.add_argument("--expected_size", type=float, default=100.000, help="The expected size of the object")
+        pars.add_argument("--copies", type=int, default=1, help="Count of copies")
+        pars.add_argument("--scale_increment", type=float, default=0.000, help="Scale increment")
         pars.add_argument("--scale_type", default="Horizontal", help="Scale type (Uniform, Horizontal, Vertical)")
         pars.add_argument("--description")
 
     def effect(self):
         unit_factor = 1.0 / self.svg.uutounit(1.0,self.options.unit)
+        so = self.options
         scale_factor = self.svg.unittouu("1px")
-
         #get recent XY coordinates (top left corner of the bounding box)
         for element in self.svg.selected.values():
-            if isinstance (element, inkex.Rectangle) or \
-               isinstance (element, inkex.Circle) or \
-               isinstance (element, inkex.Ellipse):
-                bbox = element.bounding_box() * unit_factor
-                new_horiz_scale = self.options.expected_size * unit_factor / bbox.width / scale_factor
-                new_vert_scale = self.options.expected_size * unit_factor / bbox.height / scale_factor
-            else:
-                bbox = element.bounding_box()
-                new_horiz_scale = self.options.expected_size * unit_factor / bbox.width
-                new_vert_scale = self.options.expected_size * unit_factor / bbox.height
-            if self.options.scale_type == "Horizontal":
-                if self.options.keep_aspect is False:
-                    translation_matrix = [[new_horiz_scale, 0.0, 0.0], [0.0, 1.0, 0.0]]
-                else:
-                    translation_matrix = [[new_horiz_scale, 0.0, 0.0], [0.0, new_horiz_scale, 0.0]]
-            elif self.options.scale_type == "Vertical":
-                if self.options.keep_aspect is False:
-                    translation_matrix = [[1.0, 0.0, 0.0], [0.0, new_vert_scale, 0.0]]
-                else:
-                    translation_matrix = [[new_vert_scale, 0.0, 0.0], [0.0, new_vert_scale, 0.0]]
-            else: #Uniform
-                translation_matrix = [[new_horiz_scale, 0.0, 0.0], [0.0, new_vert_scale, 0.0]]			
-            element.transform = Transform(translation_matrix) * element.composed_transform()
-			
-            # now that the element moved we need to get the elements XY coordinates again to fix them
-            bbox_new = element.bounding_box()
+            allCopies = []
+            allCopies.append(element)
+            for aCopy in range(so.copies):
+                newElem = copy.copy(element)
+                oldId = element.get('id')
+                newElem.set('id', "{}_scalecopy_{}".format(oldId, aCopy))
+                parent = element.getparent()
+                parent.insert(parent.index(element) + 1 + aCopy, newElem)
+                allCopies.append(newElem)
 
-            #inkex.utils.debug(cx)
-            #inkex.utils.debug(cy)
-            #inkex.utils.debug(cx_new)
-            #inkex.utils.debug(cy_new)
-		
-            # We remove the transformation attribute from SVG XML tree in case it's regular path. In case the element is an object like arc,circle, ellipse or star we have the attribute "sodipodi:type". Then we do not play with it's path because the size transformation will not apply (this code block is ugly)
-            if element.get ('sodipodi:type') is None and 'd' in element.attrib:
-                #inkex.utils.debug("it's a path!")
-                d = element.get('d')
-                p = CubicSuperPath(d)
-                transf = Transform(element.get("transform", None))
-                if 'transform' in element.attrib:
-                    del element.attrib['transform']
-                p = Path(p).to_absolute().transform(transf, True)
-                element.set('d', Path(CubicSuperPath(p).to_path()))
-            #else:
-                #inkex.utils.debug("it's an object!")
-		
-            #we perform second translation to reset the center of the path	
-            if isinstance (element, inkex.Rectangle) or \
-               isinstance (element, inkex.Circle) or \
-               isinstance (element, inkex.Ellipse):
-                translation_matrix = [
-                                [1.0, 0.0, scale_factor * (bbox.left - bbox_new.left + (bbox.width - bbox_new.width)/2)], 
-                                [0.0, 1.0, scale_factor * (bbox.top - bbox_new.top + (bbox.height - bbox_new.height)/2)]
-                            ]            
-            else:	
-                translation_matrix = [
-                                [1.0, 0.0, bbox.left - bbox_new.left + (bbox.width - bbox_new.width)/2], 
-                                [0.0, 1.0, bbox.top - bbox_new.top + (bbox.height - bbox_new.height)/2]
-                            ]			
-            element.transform = Transform(translation_matrix) * element.composed_transform()	
+            i = 1
+            for element in allCopies:
+                i += 1
+                if isinstance (element, inkex.Rectangle) or \
+                   isinstance (element, inkex.Circle) or \
+                   isinstance (element, inkex.Ellipse):
+                    bbox = element.bounding_box() * unit_factor
+                    new_horiz_scale = (so.expected_size + so.scale_increment * i) * unit_factor / bbox.width / scale_factor
+                    new_vert_scale = (so.expected_size + so.scale_increment * i) * unit_factor / bbox.height / scale_factor
+                else:
+                    bbox = element.bounding_box()
+                    new_horiz_scale = (so.expected_size + so.scale_increment * i) * unit_factor / bbox.width
+                    new_vert_scale = (so.expected_size + so.scale_increment * i) * unit_factor / bbox.height
+                if self.options.scale_type == "Horizontal":
+                    if self.options.keep_aspect is False:
+                        translation_matrix = [[new_horiz_scale, 0.0, 0.0], [0.0, 1.0, 0.0]]
+                    else:
+                        translation_matrix = [[new_horiz_scale, 0.0, 0.0], [0.0, new_horiz_scale, 0.0]]
+                elif self.options.scale_type == "Vertical":
+                    if self.options.keep_aspect is False:
+                        translation_matrix = [[1.0, 0.0, 0.0], [0.0, new_vert_scale, 0.0]]
+                    else:
+                        translation_matrix = [[new_vert_scale, 0.0, 0.0], [0.0, new_vert_scale, 0.0]]
+                else: #Uniform
+                    translation_matrix = [[new_horiz_scale, 0.0, 0.0], [0.0, new_vert_scale, 0.0]]			
+                element.transform = Transform(translation_matrix) * element.composed_transform()
+    			
+                # now that the element moved we need to get the elements XY coordinates again to fix them
+                bbox_new = element.bounding_box()
+    
+                #inkex.utils.debug(cx)
+                #inkex.utils.debug(cy)
+                #inkex.utils.debug(cx_new)
+                #inkex.utils.debug(cy_new)
+    		
+                # We remove the transformation attribute from SVG XML tree in case it's regular path. In case the element is an object like arc,circle, ellipse or star we have the attribute "sodipodi:type". Then we do not play with it's path because the size transformation will not apply (this code block is ugly)
+                if element.get ('sodipodi:type') is None and 'd' in element.attrib:
+                    #inkex.utils.debug("it's a path!")
+                    d = element.get('d')
+                    p = CubicSuperPath(d)
+                    transf = Transform(element.get("transform", None))
+                    if 'transform' in element.attrib:
+                        del element.attrib['transform']
+                    p = Path(p).to_absolute().transform(transf, True)
+                    element.set('d', Path(CubicSuperPath(p).to_path()))
+                #else:
+                    #inkex.utils.debug("it's an object!")
+    		
+                #we perform second translation to reset the center of the path	
+                if isinstance (element, inkex.Rectangle) or \
+                   isinstance (element, inkex.Circle) or \
+                   isinstance (element, inkex.Ellipse):
+                    translation_matrix = [
+                                    [1.0, 0.0, scale_factor * (bbox.left - bbox_new.left + (bbox.width - bbox_new.width)/2)], 
+                                    [0.0, 1.0, scale_factor * (bbox.top - bbox_new.top + (bbox.height - bbox_new.height)/2)]
+                                ]            
+                else:	
+                    translation_matrix = [
+                                    [1.0, 0.0, bbox.left - bbox_new.left + (bbox.width - bbox_new.width)/2], 
+                                    [0.0, 1.0, bbox.top - bbox_new.top + (bbox.height - bbox_new.height)/2]
+                                ]			
+                element.transform = Transform(translation_matrix) * element.composed_transform()	
 		
 if __name__ == '__main__':
     ScaleToSize().run()