SVG Import
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− | == Objective == | + | <!-- Page info --> |
+ | {{Title|SVG Import}} | ||
+ | {{Navigation|Category:Manual|Doc:ListImporter}} | ||
+ | {{Category|Manual}} | ||
+ | {{Category|ImportArt}} | ||
+ | {{TOCright}} | ||
+ | {{NewTerminology}} | ||
+ | <!-- Page info end --> | ||
+ | =Inkscape SIF exporter extension= | ||
+ | |||
+ | The [https://inkscape.org Inkscape] extension converts SVG files to Synfig Studio (.sif) format and it is a recommended way. | ||
+ | |||
+ | Since '''Inkscape 0.91''' the extension is shipped with the official Inkscape installation and can be found from - {{c|<File>|<Save as>|Animation synfig (.sif)}}. | ||
+ | |||
+ | If you want to manually install it, you can found it at [http://www.synfig.org/cms/en/download/tools/ Scripts & Tools] download section. | ||
+ | |||
+ | ==Usage== | ||
+ | '''svg2sif''' adds a {{Literal|Synfig Animation (*.sif)}} option to Inkscape's {{Literal|Save As}} dialog. | ||
+ | |||
+ | I you want to group objects, put all the objects to group on their own layer in inkscape. This way, they end up in a {{l|Group Layer}} once in the sif format. | ||
+ | |||
+ | If your SVG document contains clones or non-paths (text, rectangles, etc.) the extension will quickly open another Inkscape window to convert these elements to paths. This may take a while. The file is not saved until the status bar reads {{Literal|Document Saved.}} | ||
+ | |||
+ | If you save frequently, you can speed up the process by selecting {{c|<Extensions>|Synfig|Prepare for Export}} from the Inkscape menu. This will convert everything in the current document to paths (but may make it harder to edit). | ||
+ | |||
+ | Source : [https://github.com/nikitakit/svg2sif/blob/master/README.md github/svg2sif/README.md] | ||
+ | |||
+ | =Import SVG directly in Synfig Studio= | ||
+ | '''Since version 0.91 of Inkscape (linux and windows) it is unnecessary to use additional extension, Inkscape [https://inkscape.org/en/learn/animation/#standalone-programs includes] the registration under the extension SIF .''' | ||
+ | |||
+ | From previous Synfig versions there is an option to import SVG from {{c|<File>|Import}} menu. This seems to work better than the options described below, however there may be problems importing some SVG elements correctly. See [http://synfig.org/forums/viewtopic.php?f=12&t=2728 this topic] in forums for some hints. | ||
+ | |||
+ | * First import may fail, try to import same file for two times. | ||
+ | * 0.62.02 is reported to work better in Ubuntu than version 0.63.00. | ||
+ | |||
+ | =Other options= | ||
+ | The following are outdated options or special options for experts. | ||
+ | == Option 1 == | ||
+ | This uses an XSLT 2.0 stylesheet to transform SVG XML to Synfig XML. | ||
+ | === Objective === | ||
Turn an SVG image into a Synfig file for import. First posted in the forums: http://synfig.org/forums/viewtopic.php?t=30 | Turn an SVG image into a Synfig file for import. First posted in the forums: http://synfig.org/forums/viewtopic.php?t=30 | ||
− | == Prerequisites == | + | === Prerequisites === |
# Make sure a Java runtime environment is installed. | # Make sure a Java runtime environment is installed. | ||
# 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). | # 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). | ||
# 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. | # 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. | ||
− | # Create the file d:\saxon\svg2synfig.xsl with the content provided at the bottom of this document ( | + | # Create the file d:\saxon\svg2synfig.xsl with the content provided at the bottom of this document ({{l|#svg2synfig.xsl}}). |
− | === Optional Prerequites for Windows === | + | ==== Optional Prerequites for Windows ==== |
If you don't want to use the command line, create a batch file d:\saxon\svg2synfig.bat with this content: | If you don't want to use the command line, create a batch file d:\saxon\svg2synfig.bat with this content: | ||
@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 == | + | === Transforming an SVG into a Synfig File === |
− | === Windows Batch File === | + | ==== Windows Batch File ==== |
# Just drop the SVG file onto svg2synfig.bat. | # Just drop the SVG file onto svg2synfig.bat. | ||
− | === Command line === | + | ==== Command line ==== |
# Change directory to d:\saxon. | # Change directory to d:\saxon. | ||
# Enter the following command (replace your_input.svg by the path of the SVG file): | # Enter the following command (replace your_input.svg by the path of the SVG file): | ||
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 == | + | === Result === |
If the conversion has been successful, the result will be written to the file d:\saxon\synfig.sif. | If the conversion has been successful, the result will be written to the file d:\saxon\synfig.sif. | ||
You can open this file in Synfig. | You can open this file in Synfig. | ||
− | == Limitations == | + | === Limitations === |
* Doesn't seem to work with SaxonB (FOSS version) | * Doesn't seem to work with SaxonB (FOSS version) | ||
* Compressed SVG (svgz) must be uncompressed first. | * Compressed SVG (svgz) must be uncompressed first. | ||
Line 28: | Line 67: | ||
* Only basic transformations are supported. | * Only basic transformations are supported. | ||
* Fill and outline on the same object is not supported. | * Fill and outline on the same object is not supported. | ||
− | == svg2synfig.xsl == | + | === svg2synfig.xsl === |
<pre><nowiki> | <pre><nowiki> | ||
<xsl:stylesheet version="2.0" exclude-result-prefixes="#all" | <xsl:stylesheet version="2.0" exclude-result-prefixes="#all" | ||
Line 303: | Line 342: | ||
</xsl:stylesheet> | </xsl:stylesheet> | ||
</nowiki></pre> | </nowiki></pre> | ||
+ | |||
+ | == Option 2 == | ||
+ | |||
+ | This is a C program by akagogo that uses libxml to convert SVG to Synfig format. | ||
+ | |||
+ | http://none.carlos.googlepages.com/svgtosif.zip | ||
+ | |||
+ | === Installation === | ||
+ | |||
+ | Just make the usual '''./configure && make && sudo make install''' | ||
+ | |||
+ | === Usage === | ||
+ | |||
+ | 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: | ||
+ | |||
+ | * You are in folder "/example" you have to create a folder called "/example/data" and put the file "file.svg" there. | ||
+ | * Now you execute '''svgtosif file.svg''' when you got "/example" as your current working directory. | ||
+ | |||
+ | As you can see, this is really not to friendly. To quickly fix the problem, use the following 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!" | ||
+ | |||
+ | 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: | ||
+ | chmod +x /usr/bin/svg2sif | ||
+ | |||
+ | Thats all. Now use: | ||
+ | svg2sif <file.svg> | ||
+ | |||
+ | and you will get a .sif file in the same folder you are working in. |
Latest revision as of 12:44, 6 September 2016
Inkscape SIF exporter extension
The Inkscape extension converts SVG files to Synfig Studio (.sif) format and it is a recommended way.
Since Inkscape 0.91 the extension is shipped with the official Inkscape installation and can be found from - "<File> → <Save as> → Animation synfig (.sif)".
If you want to manually install it, you can found it at Scripts & Tools download section.
Usage
svg2sif adds a "Synfig Animation (*.sif)" option to Inkscape's "Save As" dialog.
I you want to group objects, put all the objects to group on their own layer in inkscape. This way, they end up in a Group Layer once in the sif format.
If your SVG document contains clones or non-paths (text, rectangles, etc.) the extension will quickly open another Inkscape window to convert these elements to paths. This may take a while. The file is not saved until the status bar reads "Document Saved."
If you save frequently, you can speed up the process by selecting "<Extensions> → Synfig → Prepare for Export" from the Inkscape menu. This will convert everything in the current document to paths (but may make it harder to edit).
Source : github/svg2sif/README.md
Import SVG directly in Synfig Studio
Since version 0.91 of Inkscape (linux and windows) it is unnecessary to use additional extension, Inkscape includes the registration under the extension SIF .
From previous Synfig versions there is an option to import SVG from "<File> → Import" menu. This seems to work better than the options described below, however there may be problems importing some SVG elements correctly. See this topic in forums for some hints.
- First import may fail, try to import same file for two times.
- 0.62.02 is reported to work better in Ubuntu than version 0.63.00.
Other options
The following are outdated options or special options for experts.
Option 1
This uses an XSLT 2.0 stylesheet to transform SVG XML to Synfig XML.
Objective
Turn an SVG image into a Synfig file for import. First posted in the forums: http://synfig.org/forums/viewtopic.php?t=30
Prerequisites
- Make sure a Java runtime environment is installed.
- 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).
- 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.
- Create the file d:\saxon\svg2synfig.xsl with the content provided at the bottom of this document ([[#svg2synfig.xsl|]]).
Optional Prerequites for Windows
If you don't want to use the command line, create a batch file d:\saxon\svg2synfig.bat with this content:
@java -jar %0\..\saxon9.jar -xsl:%0\..\svg2synfig.xsl %1 > %0\..\synfig.sif @pause
Transforming an SVG into a Synfig File
Windows Batch File
- Just drop the SVG file onto svg2synfig.bat.
Command line
- Change directory to d:\saxon.
- Enter the following command (replace your_input.svg by the path of the SVG file):
java -jar saxon9.jar -xsl:svg2synfig.xsl your_input.svg > synfig.sif
Result
If the conversion has been successful, the result will be written to the file d:\saxon\synfig.sif. You can open this file in Synfig.
Limitations
- Doesn't seem to work with SaxonB (FOSS version)
- Compressed SVG (svgz) must be uncompressed first.
- Only SVG path objects are supported. Try converting all objects to paths.
- 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.
- Sophisticated coloring (e. g. gradients) is not supported.
- Only basic transformations are supported.
- Fill and outline on the same object is not supported.
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>
Option 2
This is a C program by akagogo that uses libxml to convert SVG to Synfig format.
http://none.carlos.googlepages.com/svgtosif.zip
Installation
Just make the usual ./configure && make && sudo make install
Usage
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:
- You are in folder "/example" you have to create a folder called "/example/data" and put the file "file.svg" there.
- Now you execute svgtosif file.svg when you got "/example" as your current working directory.
As you can see, this is really not to friendly. To quickly fix the problem, use the following 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!"
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:
chmod +x /usr/bin/svg2sif
Thats all. Now use:
svg2sif <file.svg>
and you will get a .sif file in the same folder you are working in.