SVG Import

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(Import SVG directly in Synfig Studio)
(Other options)
 
Line 15: Line 15:
 
* In sistemul de operare Ubuntu, versiunea 0.62.02 lucreaza mai bine comparativ cu versiunea 0.63.00.
 
* In sistemul de operare Ubuntu, versiunea 0.62.02 lucreaza mai bine comparativ cu versiunea 0.63.00.
  
=Other options=
+
=Alte optiuni=
The following are outdated options or special options for experts.
+
Optiunile descrise mai jos sunt pentru versiunile mai vechi sau optiuni speciale pentru experti.
== Option 1 ==
+
== Optiunea 1 ==
This uses an XSLT 2.0 stylesheet to transform SVG XML to Synfig XML.
+
Foloseste un stylesheet XSLT 2.0 pentru a transforma SVG XML in Synfig XML.
=== Objective ===
+
=== Obiective ===
Turn an SVG image into a Synfig file for import. First posted in the forums: http://synfig.org/forums/viewtopic.php?t=30
+
Transforma o imagine SVG intr-un fisier Synfig in vederea importarii acestuia. Prima data postat in forum: http://synfig.org/forums/viewtopic.php?t=30
=== Prerequisites ===
+
=== Cerinte preliminare ===
# Make sure a Java runtime environment is installed.
+
# Asigurati-va ca este instalat Java runtime environment.
# Get a recent version of the SAXON XSLT processor for Java from http://saxon.sourceforge.net/. Recommended version: Saxon-SA 9.0 (saxonsa9-0-0-2j.zip).
+
# Obtineti o versiune recenta a procesorului SAXON XSLT pentru Java de pe site-ul http://saxon.sourceforge.net/. Versiunea recomandata: Saxon-SA 9.0 (saxonsa9-0-0-2j.zip).
# Extract the SAXON package to a folder of your choice. As an example we're going to use d:\saxon in the following. The folder will contain several JAR files.
+
# Extrageti pachetul SAXON intr-un folder la alegere. Ca exemplu, vom folosi d:\saxon in cele ce urmeaza. Folderul va contine cateva fisiere cu extensia JAR.
# Create the file d:\saxon\svg2synfig.xsl with the content provided at the bottom of this document ({{l|#svg2synfig.xsl}}).
+
# Creati fisierul d:\saxon\svg2synfig.xsl care sa contina codul de mai jos ({{l|#svg2synfig.xsl}}).
==== Optional Prerequites for Windows ====
+
==== Cerinte optionale pentru sistemul de operare Windows ====
If you don't want to use the command line, create a batch file d:\saxon\svg2synfig.bat with this content:
+
Daca nu doriti sa folositi linia de comanda, creati un fisier batch d:\saxon\svg2synfig.bat cu acest continut:
 
  @java -jar %0\..\saxon9.jar -xsl:%0\..\svg2synfig.xsl %1 > %0\..\synfig.sif
 
  @java -jar %0\..\saxon9.jar -xsl:%0\..\svg2synfig.xsl %1 > %0\..\synfig.sif
 
  @pause
 
  @pause
=== Transforming an SVG into a Synfig File ===
+
=== Transformarea unui fisier SVG in fisier Synfig ===
==== Windows Batch File ====
+
==== Fisierul batch pentru Windows ====
# Just drop the SVG file onto svg2synfig.bat.
+
# Trageti fisierul SVG peste svg2synfig.bat.
==== Command line ====
+
==== Linie de comanda ====
# Change directory to d:\saxon.
+
# Schimbati directorul la d:\saxon.
# Enter the following command (replace your_input.svg by the path of the SVG file):
+
# Tastati comanda urmatoare (inlocuiti '''your_input.svg''' cu calea la fisierul SVG):
 
  java -jar saxon9.jar -xsl:svg2synfig.xsl your_input.svg > synfig.sif
 
  java -jar saxon9.jar -xsl:svg2synfig.xsl your_input.svg > synfig.sif
=== Result ===
+
=== Rezultat ===
If the conversion has been successful, the result will be written to the file d:\saxon\synfig.sif.
+
In cazul in care conversia s-a realizat cu succes, rezultatul va fi scris in fisierul d:\saxon\synfig.sif.
You can open this file in Synfig.
+
Putei deschide acest fisier in Synfig.
=== Limitations ===
+
=== Limitari ===
* Doesn't seem to work with SaxonB (FOSS version)
+
* E posibil sa nu mearga cu SaxonB (versiunea FOSS)
* Compressed SVG (svgz) must be uncompressed first.
+
* Fisierele SVG comprimate (svgz) trebuie mai intai decomprimate.
* Only SVG path objects are supported. Try converting all objects to paths.
+
* Doar obiecte de tip cale SVG sunt suportate. Incercati sa convertiti toate obiectele in obiecte de tip cale (path).
* Only a subset of path elements is supported. Try to modify all path nodes to have split tangents, and all path segments to be curves.
+
* Este suporta doar un subset de elemente-cale. Toate nodurile din cale trebuie sa aiba "split tangents", iar segmentele de cale trebuie sa fie curbe.
* Sophisticated coloring (e. g. gradients) is not supported.
+
* Trecerea de culoare (gradient) nu este suportata.
* Only basic transformations are supported.
+
* Sunt suportate doar transformarile de baza.
* Fill and outline on the same object is not supported.
+
* Umplerea de culoare si conturul pe acelasi obiect nu sunt suportate.
 
=== svg2synfig.xsl ===
 
=== svg2synfig.xsl ===
 
<pre><nowiki>
 
<pre><nowiki>
Line 324: Line 324:
 
</nowiki></pre>
 
</nowiki></pre>
  
== Option 2 ==
+
== Optiunea 2 ==
  
This is a C program by akagogo that uses libxml to convert SVG to Synfig format.
+
Este un program in C realizat de akagogo care foloseste libxml pentru a converti SVG in format Synfig.
  
 
http://none.carlos.googlepages.com/svgtosif.zip
 
http://none.carlos.googlepages.com/svgtosif.zip
  
=== Installation ===
+
=== Instalare ===
  
Just make the usual '''./configure && make && sudo make install'''
+
Se ruleaza obisnuitul '''./configure && make && sudo make install''' - sistem de operare Linux
  
=== Usage ===
+
=== Folosire ===
  
The SVG files needs to be inside a folder called '''data'''. You have to run the command from the parent directory, but just using the name file as the command argument. So if:
+
Fisierele SVG trebuie sa se afle intr-un folder numit '''data'''. Daca doriti sa rulati comanda din directorul parinte, folosind doar numele fisieruluica argument in comanda. Deci daca:
  
* You are in folder "/example" you have to create a folder called "/example/data" and put the file "file.svg" there.
+
* Sunteti in folderul "/example", va trebui sa creati un folder numit "/example/data" in care sa puneti fisierul  "file.svg".
* Now you execute '''svgtosif file.svg''' when you got "/example" as your current working directory.
+
* Apoi rulati comanda '''svgtosif file.svg''' unde "/example" este folderul curent de lucru.
  
As you can see, this is really not to friendly. To quickly fix the problem, use the following bash script:
+
Dupa cum se vede, nu e o metoda prea prietenoasa. Pentru a rezolva aceasta problema, folositi urmatorul bash script:
  
 
  #!/bin/bash
 
  #!/bin/bash
Line 353: Line 353:
 
  echo "Conversion complete!"
 
  echo "Conversion complete!"
  
Put those lines in a file named "svg2sif" (name it as you want, but avoid using "svgtosif") and put it in a PATH directory (suggest /usr/bin). Then:
+
Puneti aceste linii intr-un fisier numit "svg2sif" (sau oricare alt nume, dar diferit de "svgtosif") - fisierul trebuie sa se afle intr-un director PATH (sugeram /usr/bin). Apoi:
 
  chmod +x /usr/bin/svg2sif  
 
  chmod +x /usr/bin/svg2sif  
  
Thats all. Now use:
+
Asta e tot. Acum folositi:
 
  svg2sif <file.svg>
 
  svg2sif <file.svg>
  
and you will get a .sif file in the same folder you are working in.
+
si veti obtine fisierul a .sif in acelasi folder de lucru.

Latest revision as of 12:33, 28 March 2012

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Extensia pentru export Inkscape SIF

Extensia pentru Inkscape converteste fisierele SVG in fisiere Synfig Studio (.sif), fiind metoda cea mai recomandata. Aceasta extensie poate fi gasita in sectiunea de descarcare Scripts & Tools.

Importare SVG direct in Synfig Studio

In ultimele versiuni Synfig (incepand cu 0.62.02) exista o optiune de importare fisiere SVG, in meniul File -> Import. Functioneaza mai bine folosind optiunile de mai jos, dar exista probleme la importarea corecta a unor elemente SVG. Vedeti acest articol in forum pentru unele sfaturi.

  • Mai intai importul poate esua, incercati sa importati acelasi fisier de doua ori.
  • In sistemul de operare Ubuntu, versiunea 0.62.02 lucreaza mai bine comparativ cu versiunea 0.63.00.

Alte optiuni

Optiunile descrise mai jos sunt pentru versiunile mai vechi sau optiuni speciale pentru experti.

Optiunea 1

Foloseste un stylesheet XSLT 2.0 pentru a transforma SVG XML in Synfig XML.

Obiective

Transforma o imagine SVG intr-un fisier Synfig in vederea importarii acestuia. Prima data postat in forum: http://synfig.org/forums/viewtopic.php?t=30

Cerinte preliminare

  1. Asigurati-va ca este instalat Java runtime environment.
  2. Obtineti o versiune recenta a procesorului SAXON XSLT pentru Java de pe site-ul http://saxon.sourceforge.net/. Versiunea recomandata: Saxon-SA 9.0 (saxonsa9-0-0-2j.zip).
  3. Extrageti pachetul SAXON intr-un folder la alegere. Ca exemplu, vom folosi d:\saxon in cele ce urmeaza. Folderul va contine cateva fisiere cu extensia JAR.
  4. Creati fisierul d:\saxon\svg2synfig.xsl care sa contina codul de mai jos ([[#svg2synfig.xsl|]]).

Cerinte optionale pentru sistemul de operare Windows

Daca nu doriti sa folositi linia de comanda, creati un fisier batch d:\saxon\svg2synfig.bat cu acest continut:

@java -jar %0\..\saxon9.jar -xsl:%0\..\svg2synfig.xsl %1 > %0\..\synfig.sif
@pause

Transformarea unui fisier SVG in fisier Synfig

Fisierul batch pentru Windows

  1. Trageti fisierul SVG peste svg2synfig.bat.

Linie de comanda

  1. Schimbati directorul la d:\saxon.
  2. Tastati comanda urmatoare (inlocuiti your_input.svg cu calea la fisierul SVG):
java -jar saxon9.jar -xsl:svg2synfig.xsl your_input.svg > synfig.sif

Rezultat

In cazul in care conversia s-a realizat cu succes, rezultatul va fi scris in fisierul d:\saxon\synfig.sif. Putei deschide acest fisier in Synfig.

Limitari

  • E posibil sa nu mearga cu SaxonB (versiunea FOSS)
  • Fisierele SVG comprimate (svgz) trebuie mai intai decomprimate.
  • Doar obiecte de tip cale SVG sunt suportate. Incercati sa convertiti toate obiectele in obiecte de tip cale (path).
  • Este suporta doar un subset de elemente-cale. Toate nodurile din cale trebuie sa aiba "split tangents", iar segmentele de cale trebuie sa fie curbe.
  • Trecerea de culoare (gradient) nu este suportata.
  • Sunt suportate doar transformarile de baza.
  • Umplerea de culoare si conturul pe acelasi obiect nu sunt suportate.

svg2synfig.xsl

<xsl:stylesheet version="2.0" exclude-result-prefixes="#all"
		xmlns:xsl="http://www.w3.org/1999/XSL/Transform"
		xmlns:svg="http://www.w3.org/2000/svg"
		xmlns:xs="http://www.w3.org/2001/XMLSchema"
		xmlns:math="http://exslt.org/math">
	<xsl:output method="xml" indent="yes" encoding="UTF-8"/>

	<xsl:template match="/">
		<xsl:apply-templates/>
	</xsl:template>

	<xsl:template match="svg:svg">
		<xsl:variable name="width" select="math:units_to_px(@width)"/>
		<xsl:variable name="height" select="math:units_to_px(@height)"/>
		<xsl:variable name="has_view_box" select="matches(@viewBox, '(\d+\s){3}\d+')"/>
		<canvas version="0.2" id="{@id}"
				width="{if ($has_view_box) then replace(@viewBox, '(\d+)\s(\d+)\s(\d+)\s(\d+)', '$3') else $width}"
				height="{if ($has_view_box) then replace(@viewBox, '(\d+)\s(\d+)\s(\d+)\s(\d+)', '$4') else $height}"
				view-box="{if ($has_view_box) then @viewBox else concat('0 0 ', $width, ' ', $height)}">
			<xsl:apply-templates select="svg:g|svg:svg|svg:path"/>
		</canvas>
	</xsl:template>

	<xsl:template match="svg:g">
		<layer type="PasteCanvas" active="true" version="0.1" desc="{@id}">
			<param name="canvas">
				<canvas>
					<xsl:apply-templates/>
				</canvas>
			</param>
		</layer>
	</xsl:template>

	<xsl:template match="svg:path">
		<xsl:variable name="style">
			<xsl:for-each select="ancestor-or-self::*">
				<xsl:sort select="position()" data-type="number" order="descending"/>
				<xsl:value-of select="concat(@style, ';fill:', @fill, ';stroke:', @stroke, ';stroke-width:', @stroke-width, ';')"/>
			</xsl:for-each>
		</xsl:variable>
		<xsl:variable name="self" select="."/>
		<xsl:variable name="is_fill" select="not(matches(replace($style, 'fill:[^n;][^o].*', ''), 'fill:none'))"/>
		<xsl:analyze-string select="@d" regex="m[^z]+(z|$)" flags="i">
			<xsl:matching-substring>
				<layer type="{if ($is_fill) then 'region' else 'outline'}" version="0.1" desc="{$self/@id}">
					<xsl:call-template name="style-to-color">
						<xsl:with-param name="style" select="replace(replace($style, ':none.*', ''), if ($is_fill) then '.*fill:([^;]+).*' else '.*stroke:([^;]+).*', '$1')"/>
					</xsl:call-template>
					<xsl:if test="not ($is_fill)">
						<xsl:call-template name="style-to-width">
							<xsl:with-param name="style" select="replace($style, '.*stroke-width:([^;]+).*', '$1')"/>
						</xsl:call-template>
					</xsl:if>
					<param name="bline">
						<bline type="bline_point" loop="{matches(., 'z', 'i')}">
							<xsl:call-template name="path-to-bline">
								<xsl:with-param name="path" select="."/>
								<xsl:with-param name="node" select="$self" tunnel="yes"/>
							</xsl:call-template>
						</bline>
					</param>
				</layer>
			</xsl:matching-substring>
		</xsl:analyze-string>
	</xsl:template>

	<xsl:template name="path-to-bline">
		<xsl:param name="path"/>
		<xsl:variable name="stripped" select="replace(replace(translate($path, ',', ' '), '(\d)-', '$1 -'), '\s*([a-z]+)\s*', '$1', 'i')"/>
		<xsl:variable name="closed" select="if (matches($stripped, 'z', 'i')) then $stripped else replace($stripped, 'm([-\d.]+\s[-\d.]+).*$', '$0l$1z', 'i')"/>
		<xsl:variable name="tmp" select="replace($closed, '([-\d.]+\s[-\d.]+)l([-\d.]+\s[-\d.]+)', '$1c$1 $2 $2', 'i')"/>
		<xsl:variable name="curve" select="replace($tmp, '([-\d.]+\s[-\d.]+)l([-\d.]+\s[-\d.]+)', '$1c$1 $2 $2', 'i')"/>
		<xsl:analyze-string select="$curve" regex="\s([-\d.]+\s[-\d.]+)\s[-\d.]+\s[-\d.]+z" flags="i">
			<xsl:matching-substring>
				<xsl:analyze-string select="concat(regex-group(1), $curve)" regex="([-\d.]+)\s([-\d.]+)[m\s]([-\d.]+)\s([-\d.]+)c([-\d.]+)\s([-\d.]+)" flags="i">
					<xsl:matching-substring>
						<xsl:call-template name="node-to-bline-point">
							<xsl:with-param name="c1_x" select="regex-group(1)"/>
							<xsl:with-param name="c1_y" select="regex-group(2)"/>
							<xsl:with-param name="x" select="regex-group(3)"/>
							<xsl:with-param name="y" select="regex-group(4)"/>
							<xsl:with-param name="c2_x" select="regex-group(5)"/>
							<xsl:with-param name="c2_y" select="regex-group(6)"/>
						</xsl:call-template>
					</xsl:matching-substring>
				</xsl:analyze-string>
			</xsl:matching-substring>
		</xsl:analyze-string>
	</xsl:template>

	<xsl:template name="node-to-bline-point">
		<xsl:param name="x"/>
		<xsl:param name="y"/>
		<xsl:param name="c1_x"/>
		<xsl:param name="c1_y"/>
		<xsl:param name="c2_x"/>
		<xsl:param name="c2_y"/>
		<xsl:param name="node" tunnel="yes"/>
		<xsl:variable name="transform">
			<xsl:for-each select="$node/ancestor-or-self::*/@transform">
				<xsl:value-of select="."/>
			</xsl:for-each>
		</xsl:variable>
		<xsl:variable name="t" select="math:resolve_transform($transform)"/>
		<xsl:variable name="transformed_x" select="$t[5] + $t[1] * xs:float($x) + $t[3] * xs:float($y)"/>
		<xsl:variable name="transformed_y" select="$t[6] + $t[2] * xs:float($x) + $t[4] * xs:float($y)"/>
		<xsl:variable name="transformed_c1_x" select="$t[5] + $t[1] * xs:float($c1_x) + $t[3] * xs:float($c1_y)"/>
		<xsl:variable name="transformed_c1_y" select="$t[6]+ $t[2] * xs:float($c1_x) + $t[4] * xs:float($c1_y)"/>
		<xsl:variable name="transformed_c2_x" select="$t[5] + $t[1] * xs:float($c2_x) + $t[3] * xs:float($c2_y)"/>
		<xsl:variable name="transformed_c2_y" select="$t[6]+ $t[2] * xs:float($c2_x) + $t[4] * xs:float($c2_y)"/>
		<entry>
			<composite type="bline_point">
				<point>
					<vector>
						<x><xsl:value-of select="$transformed_x"/></x>
						<y><xsl:value-of select="$transformed_y"/></y>
					</vector>
				</point>
				<width>
					<real value="1"/>
				</width>
				<origin>
					<real value="0.5"/>
				</origin>
				<split>
					<bool value="true"/>
				</split>
				<t1>
					<xsl:call-template name="vector-pair-to-radial">
						<xsl:with-param name="origin-x" select="$transformed_c1_x"/>
						<xsl:with-param name="origin-y" select="$transformed_c1_y"/>
						<xsl:with-param name="x" select="$transformed_x"/>
						<xsl:with-param name="y" select="$transformed_y"/>
					</xsl:call-template>
				</t1>
				<t2>
					<xsl:call-template name="vector-pair-to-radial">
						<xsl:with-param name="origin-x" select="$transformed_x"/>
						<xsl:with-param name="origin-y" select="$transformed_y"/>
						<xsl:with-param name="x" select="$transformed_c2_x"/>
						<xsl:with-param name="y" select="$transformed_c2_y"/>
					</xsl:call-template>
				</t2>
			</composite>
		</entry>
	</xsl:template>

	<xsl:template name="vector-pair-to-radial">
		<xsl:param name="x"/>
		<xsl:param name="y"/>
		<xsl:param name="origin-x"/>
		<xsl:param name="origin-y"/>
		<xsl:variable name="dx" select="xs:float($x) - xs:float($origin-x)"/>
		<xsl:variable name="dy" select="xs:float($y) - xs:float($origin-y)"/>
		<xsl:variable name="d" select="math:sqrt($dx * $dx + $dy * $dy)"/>
		<xsl:variable name="angle" select="math:atan2($dy, $dx)"/>
		<radial_composite type="vector">
			<radius>
				<real value="{$d * 3}"/>
			</radius>
			<theta>
				<angle value="{$angle * 57.295779513082320876798154814105}"/>
			</theta>
		</radial_composite>
	</xsl:template>

	<xsl:template name="style-to-width">
		<xsl:param name="style"/>
		<xsl:if test="matches($style, '^\d')">
			<param name="width">
				<real value="{math:units_to_px($style)}"/>
			 </param>
		</xsl:if>
	</xsl:template>

	<xsl:template name="style-to-color">
		<xsl:param name="style"/>
		<xsl:if test="matches($style, '#')">
			<xsl:analyze-string select="concat($style, ';')" regex="#([\da-f]{{2}})([\da-f]{{2}})([\da-f]{{2}});">
				<xsl:matching-substring>
					<param name="color">
						<color>
							<r><xsl:value-of select="math:hex_to_color(regex-group(1))"/></r>
							<g><xsl:value-of select="math:hex_to_color(regex-group(2))"/></g>
							<b><xsl:value-of select="math:hex_to_color(regex-group(3))"/></b>
							<a><xsl:value-of select="if (matches($style, 'fill-opacity:')) then math:power(xs:float(replace($style, '.*fill-opacity:([-\d.]+).*', '$1')), 1 div 2.2) else 1"/></a>
						</color>
					</param>
				</xsl:matching-substring>
			</xsl:analyze-string>
		</xsl:if>
		<xsl:if test="matches($style, 'rgb')">
			<xsl:analyze-string select="concat($style, ';')" regex="rgb[(\s]+([-\d.]+)[,\s]+([-\d.]+)[,\s]+([-\d.]+)[\s)]+;">
				<xsl:matching-substring>
					<param name="color">
						<color>
							<r><xsl:value-of select="math:power(xs:float(regex-group(1)) div 255, 2.2)"/></r>
							<g><xsl:value-of select="math:power(xs:float(regex-group(2)) div 255, 2.2)"/></g>
							<b><xsl:value-of select="math:power(xs:float(regex-group(3)) div 255, 2.2)"/></b>
							<a>1</a>
						</color>
					</param>
				</xsl:matching-substring>
			</xsl:analyze-string>
		</xsl:if>
		<xsl:if test="matches($style, 'url')">
			<param name="color">
				<color><r>0.5</r><g>0.5</g><b>0.5</b><a>0.5</a>	</color>
			</param>
		</xsl:if>
	</xsl:template>

	<xsl:function name="math:resolve_transform">
		<xsl:param name="transform"/>
			<xsl:variable name="stripped" select="replace(replace($transform, 'translate\(', 'X(1,0,0,1,'), 'matrix', 'X')"/>
			<xsl:analyze-string select="concat('X(1,0,0,1,0,0)', $stripped)" regex="(.*)X\((-?[\d.]+),(-?[\d.]+),(-?[\d.]+),(-?[\d.]+),(-?[\d.]+),(-?[\d.]+)\)[^X]*X\((-?[\d.]+),(-?[\d.]+),(-?[\d.]+),(-?[\d.]+),(-?[\d.]+),(-?[\d.]+)\).*">
				<xsl:non-matching-substring>
					<xsl:sequence select="(1,0,0,1,0,0)"/>
				</xsl:non-matching-substring>
				<xsl:matching-substring>
					<xsl:variable name="a2" select="xs:float(regex-group(8))"/>
					<xsl:variable name="b2" select="xs:float(regex-group(9))"/>
					<xsl:variable name="c2" select="xs:float(regex-group(10))"/>
					<xsl:variable name="d2" select="xs:float(regex-group(11))"/>
					<xsl:variable name="e2" select="xs:float(regex-group(12))"/>
					<xsl:variable name="f2" select="xs:float(regex-group(13))"/>
					<xsl:variable name="a1" select="xs:float(regex-group(2))"/>
					<xsl:variable name="b1" select="xs:float(regex-group(3))"/>
					<xsl:variable name="c1" select="xs:float(regex-group(4))"/>
					<xsl:variable name="d1" select="xs:float(regex-group(5))"/>
					<xsl:variable name="e1" select="xs:float(regex-group(6))"/>
					<xsl:variable name="f1" select="xs:float(regex-group(7))"/>
					<xsl:variable name="p" select="($a1*$a2+$c1*$b2,$b1*$a2+$d1*$b2,$a1*$c2+$c1*$d2,$b1*$c2+$d1*$d2,$a1*$e2+$c1*$f2+$e1,$b1*$e2+$d1*$f2+$f1)"/>
					<xsl:variable name="remainder" select="replace(regex-group(1), 'X\(1,0,0,1,0,0\)', '')"/>
					<xsl:choose>
						<xsl:when test="matches($remainder, 'X')">
							<xsl:variable name="recursion" select="concat($remainder, 'X(', $p[1], ',', $p[2], ',', $p[3], ',', $p[4], ',', $p[5], ',', $p[6], ')')"/>
							<xsl:sequence select="math:resolve_transform($recursion)"/>
						</xsl:when>
						<xsl:otherwise>
							<xsl:sequence select="$p"/>
						</xsl:otherwise>
					</xsl:choose>
				</xsl:matching-substring>
			</xsl:analyze-string>
	</xsl:function>

	<xsl:function name="math:hex_to_color" as="xs:float">
		<xsl:param name="hex"/>
		<xsl:value-of select="math:power(xs:float(string-length(substring-before('0123456789abcdef', substring($hex,1,1))) * 16 + string-length(substring-before('0123456789abcdef', substring($hex,2,1)))) div 255, 2.2)"/>
	</xsl:function>

	<xsl:function name="math:units_to_px" as="xs:float">
		<xsl:param name="size"/>
		<xsl:analyze-string select="$size" regex="^([-\d.]+)([a-z%]*)$">
			<xsl:matching-substring>
				<xsl:variable name="factor">
					<xsl:choose>
						<xsl:when test="regex-group(2) = 'pt'">1.25</xsl:when>
						<xsl:when test="regex-group(2) = 'em'">16</xsl:when>
						<xsl:when test="regex-group(2) = 'mm'">3.54</xsl:when>
						<xsl:when test="regex-group(2) = 'pc'">15</xsl:when>
						<xsl:when test="regex-group(2) = 'cm'">35.43</xsl:when>
						<xsl:when test="regex-group(2) = 'in'">90</xsl:when>
						<xsl:otherwise>1</xsl:otherwise>
					</xsl:choose>
				</xsl:variable>
				<xsl:value-of select="xs:float($factor) * xs:float(regex-group(1))"/>
			</xsl:matching-substring>
		</xsl:analyze-string>
	</xsl:function>
</xsl:stylesheet>

Optiunea 2

Este un program in C realizat de akagogo care foloseste libxml pentru a converti SVG in format Synfig.

http://none.carlos.googlepages.com/svgtosif.zip

Instalare

Se ruleaza obisnuitul ./configure && make && sudo make install - sistem de operare Linux

Folosire

Fisierele SVG trebuie sa se afle intr-un folder numit data. Daca doriti sa rulati comanda din directorul parinte, folosind doar numele fisieruluica argument in comanda. Deci daca:

  • Sunteti in folderul "/example", va trebui sa creati un folder numit "/example/data" in care sa puneti fisierul "file.svg".
  • Apoi rulati comanda svgtosif file.svg unde "/example" este folderul curent de lucru.

Dupa cum se vede, nu e o metoda prea prietenoasa. Pentru a rezolva aceasta problema, folositi urmatorul bash script:

#!/bin/bash
mkdir data
cp "$1" data/
/usr/local/bin/svgtosif "$1"
NAME=`echo "$1" | cut -d "." -f 1`
cp "data/$NAME.sif" .
rm data/*
rmdir data
echo "Conversion complete!"

Puneti aceste linii intr-un fisier numit "svg2sif" (sau oricare alt nume, dar diferit de "svgtosif") - fisierul trebuie sa se afle intr-un director PATH (sugeram /usr/bin). Apoi:

chmod +x /usr/bin/svg2sif 

Asta e tot. Acum folositi:

svg2sif <file.svg>

si veti obtine fisierul a .sif in acelasi folder de lucru.


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