# Grouping nodes based on a rule set

I have:

``````<node handle="full"/>
<node handle="full"/>
<node handle="left"/>
<node handle="right"/>
<node handle="top-left"/>
<node handle="top-right"/>
<node handle="bottom"/>
<node handle="full"/>
<node handle="full"/>
``````

I need to group these nodes based on the following logic:

• `full` should be on its own.
• `left` should group with a minimum of 1 and a maximum 2 extra nodes of type `right`, `top-right`, `bottom-right`.
• `right` should group with a minimum of 1 and a maximum 2 extra nodes of type `left`, `top-left`, `bottom-left`.
• `top-left` should group with a minimum of 2 and a maximum of 3 nodes of type `bottom-right`, `top-right`, `bottom-right`, `bottom`.

Obviously if I start from `left` and the `following-sibling` is `right`, the process should reset and continue with the next element.

So the output should look like:

``````<group>
<node handle="full"/>
</group>
<group>
<node handle="full"/>
</group>
<group>
<node handle="left"/>
<node handle="right"/>
</group>
<group>
<node handle="top-left"/>
<node handle="top-right"/>
<node handle="bottom"/>
</group>
<group>
<node handle="full"/>
</group>
<group>
<node handle="full"/>
</group>
``````

Is there an efficient (for both humans and machines) way to handle this or should it be managed case-by-case in code?

## EDIT 1:

I think I could define my rule-set like this, and then compare against it on a case-by-case:

``````<xsl:variable name="layouts">
<opt start="left" min="1" max="2">
<allow pos="right"          value="2"/>
<allow pos="top-right"      value="1"/>
<allow pos="bottom-right"   value="1"/>
</opt>
<opt start="right" min="1" max="2">
<allow pos="left"           value="2"/>
<allow pos="top-left"       value="1"/>
<allow pos="bottom-left"    value="1"/>
</opt>
</xsl:variable>
``````

I would be using a `max` score from which I would subtract the `value` of each element added. How's that look?

## EDIT 2:

The solution I've found to work moments before Tim C posted his answer.
The first difference I see between the two is that my version limits the acceptable start elements for a sequence (left, top-left). I don't know anymore if this is a good thing or a limitation I introduced to avoid matching nodes which are already made part of a sequence.
Whichever the case, Tim's aswer is way more elegant than mine.

``````<!--
For each /item:

- see it it's one of the starting points of a sequence:
- Not "full"
- Left, Top-Left

- if full, just return the element
- if not full and not a starting point, skip it, since it means it being added by the previous item.
- if not full and either of the starting points, kick into a recursion loop in a separate template:

- store the item's current "score" (2 or 1 for single-quadrant images)
- recur through the following-siblings with a counter for position(), checking if they are in the allowed list, and decreasing the "score" counter.
- every time a match is found:
- recreate the "allow" list, minus the current match, and pass the updated list to the next iteration
- decrease the counter
- if the iteration completes, reaching zero, return the position() of the last matched item
- if during the iteration, while the score is still >0, a match is not found, return false(). Our sequence is broken, we have a user error.

- the calling template (the one matching *every* item) checks whether the returned result is >0 or false()
- if >0 returns a copy of every node up the number specified by >0
- if false() print out and error, suggesting possible sequences.
-->

<xsl:variable name="layouts">
<start handle="left"            score="2">      <!-- The starting score which we'll subtract from on every iteration -->
<allow handle="right"           value="2"/> <!-- the acceptable position which we'll check against on every iteration -->
<allow handle="top-right"       value="1"/> <!-- the value for each position which we'll subtract from the <start> score -->
<allow handle="bottom-right"    value="1"/>
</start>
<start handle="top-left"        score="3">
<allow handle="right"           value="2"/>
<allow handle="bottom-left"     value="1"/>
<allow handle="top-right"       value="1"/>
<allow handle="bottom-right"    value="1"/>
</start>
<start handle="full"            score="0"/> <!-- Position which are not acceptable as the start of a sequence are scored 0 -->
<start handle="right"           score="0"/>
<start handle="top-right"       score="0"/>
<start handle="bottom-right"    score="0"/>
<start handle="bottom-left"     score="0"/>
</xsl:variable>

<!-- Applied to every /item -->
<xsl:template mode="imagewraps" match="item">
<xsl:param name="i" select="position()"/>
<xsl:variable name="nodeName"   select="name(.)"/>
<xsl:variable name="layout"     select="exsl:node-set(\$layouts)"/>
<xsl:variable name="position"   select="position/item/@handle"/>
<xsl:variable name="score"      select="\$layout/start[@handle = \$position]/@score"/>
<xsl:variable name="allowList"  select="\$layout/start[@handle = \$position]"/>

<!-- This variable will store the final result of the recursion lanunched from within.
The returned value will be a number, indication the position of the last node that is part of the sequence -->
<xsl:variable name="sequenceFound">
<xsl:if test="\$score > 0">
<xsl:apply-templates mode="test" select="parent::node()/*[name() = \$nodeName][\$i +1]">
<xsl:with-param name="i" select="\$i +1"/>
<xsl:with-param name="score"        select="\$score"/>
<xsl:with-param name="allowList"    select="\$allowList"/>
</xsl:apply-templates>
</xsl:if>
</xsl:variable>

<div style="border: 1px solid red">
<xsl:choose>
<!-- If the \$score is 0 and the position is 'full' just return a copy if the current node -->
<xsl:when test="\$score = 0 and \$position = 'full'">
<xsl:copy-of select="."/>
</xsl:when>
<!-- if the \$score is greater than 0, return a copy of the current node
and the siblings the follow, up to the value stored in \$sequenceFound -->
<xsl:when test="\$score > 0">
<xsl:choose>
<!-- Actually do the above only if \$sequenceFound didn't end up being 0
(it currently never does, but good to have as an option to handle errors in here) -->
<xsl:when test="\$sequenceFound != 0">
<xsl:copy-of select="."/>
<xsl:copy-of select="following-sibling::*[\$sequenceFound - \$i >= position()]"/>
</xsl:when>
</xsl:choose>
</xsl:when>
<!-- If the first item is wrong, let jsut say it -->
<xsl:when test="\$score = 0 and position() > 1">
<xsl:message>The first item should either be "full", "left", "top-left".</xsl:message>
</xsl:when>
</xsl:choose>
</div>
</xsl:template>

<xsl:template mode="test" match="*">
<xsl:param name="i"/>
<xsl:param name="score"/>
<xsl:param name="allowList"/>
<xsl:variable name="this" select="."/>
<xsl:variable name="nodeName"       select="name()"/>
<xsl:variable name="position"       select="position/item/@handle"/>
<xsl:variable name="isInAllowList"  select="count(\$allowList/allow[@handle = \$position]) > 0"/>
<xsl:variable name="value">
<xsl:if test="\$isInAllowList">
<xsl:value-of select="\$allowList/allow[@handle = \$position]/@value"/>
</xsl:if>
</xsl:variable>
<xsl:variable name="allowListMinusMatched">
<xsl:if test="\$isInAllowList">
<xsl:copy-of select="\$allowList/allow[@handle != \$position]"/>
</xsl:if>
</xsl:variable>

<xsl:choose>
<xsl:when test="\$isInAllowList">
<xsl:choose>
<!-- if we've not ran out of loops, continue -->
<xsl:when test="(\$score - \$value) > 0">
<xsl:apply-templates mode="test" select="parent::node()/*[name() = \$nodeName][\$i +1]">
<xsl:with-param name="i" select="\$i +1"/>
<xsl:with-param name="allowList" select="\$allowListMinusMatched"/>
<xsl:with-param name="score" select="\$score - \$value"/>
</xsl:apply-templates>
</xsl:when>
<xsl:when test="(\$score - \$value) = 0">
<xsl:value-of select="\$i"/>
</xsl:when>
</xsl:choose>
</xsl:when>
<xsl:otherwise>
<xsl:variable name="layout"     select="exsl:node-set(\$layouts)"/>
<xsl:variable name="allowed"  select="\$layout/start[@handle = \$position]"/>
<xsl:message>Bombing out. Wrong Sequence.</xsl:message>
<xsl:message>
Items allowed after "<xsl:value-of select="\$allowed/@handle"/>" are:
<xsl:for-each select="\$allowed/allow">
<xsl:value-of select="@handle"/>
<xsl:if test="count(\$allowed/allow) > position()">, </xsl:if>
<xsl:if test="count(\$allowed/allow) = position()">.</xsl:if>
</xsl:for-each>
</xsl:message>
</xsl:otherwise>
</xsl:choose>
</xsl:template>
``````
-

I have managed a solution for this, but I wasn't entirely sure about the 'minimum' requirement. However, I will post what I have done so far, should it help....

Firstly, I defined an xsl:key for each of the rules. For example, for the left rule:

``````<xsl:key name="left"
match="node[@handle='right' or @handle='top-right' or @handle='bottom-right']"
use="generate-id(preceding-sibling::node[@handle='left'][1])"/>
``````

So, in this case, it matches right, top-right and bottom-right elements, and links them to most preceding left element. Note this will pick up more elements that you need, should there be a bottom element between the left and right element. This will be handled a bit later...

Then, I created a template for matching the first node in the group. Initially, I defined a variable to contain the following nodes using the relevant xsl:key (where \$maximum is a variable containing the maximum number of nodes)

``````<xsl:variable name="followingNodes"
select="key(@handle, generate-id())[position() &lt;= \$maximum]" />
``````

However, this will pick up elements where there may be a invalid element in between. To stop this, I first calculated the position of the current node...

``````<xsl:variable name="position" select="count(preceding-sibling::node)"/>
``````

Then I could check whether the position of the node in the key equals the position relative to the current node, in which case there are no invalid elements before them.

``````<xsl:variable
name="followingNodes"
select="key(@handle, generate-id())[position() &lt;= \$maximum][count(preceding-sibling::node) - \$position &lt;= position()]"/>
``````

Here is the full XSLT...

``````<xsl:stylesheet version="1.0" xmlns:xsl="http://www.w3.org/1999/XSL/Transform">
<xsl:output method="xml" indent="yes"/>

<xsl:key name="left"
match="node[@handle='right' or @handle='top-right' or @handle='bottom-right']"
use="generate-id(preceding-sibling::node[@handle='left'][1])"/>

<xsl:key name="right"
match="node[@handle='left' or @handle='top-left' or @handle='bottom-left']"
use="generate-id(preceding-sibling::node[@handle='right'][1])"/>

<xsl:key name="top-left"
match="node[@handle='bottom-right' or @handle='top-right' or @handle='bottom-right' or @handle='bottom']"
use="generate-id(preceding-sibling::node[@handle='top-left'][1])"/>

<xsl:template match="nodes">
<xsl:apply-templates select="node[1]" mode="first"/>
</xsl:template>

<xsl:template match="node[@handle='full']" mode="first">
<group>
<xsl:copy-of select="."/>
</group>
<xsl:apply-templates select="following-sibling::node[1]" mode="first"/>
</xsl:template>

<xsl:template match="node" mode="first">
<xsl:variable name="maximum">
<xsl:choose>
<xsl:when test="@handle='top-left'">3</xsl:when>
<xsl:otherwise>2</xsl:otherwise>
</xsl:choose>
</xsl:variable>
<xsl:variable name="position" select="count(preceding-sibling::node)"/>
<xsl:variable name="followingNodes" select="key(@handle, generate-id())[position() &lt;= \$maximum][count(preceding-sibling::node) - \$position &lt;= position()]"/>
<group>
<xsl:copy-of select="."/>
<xsl:apply-templates select="\$followingNodes"/>
</group>
<xsl:apply-templates select="following-sibling::node[count(\$followingNodes) + 1]" mode="first"/>
</xsl:template>

<xsl:template match="@*|node()">
<xsl:copy>
<xsl:apply-templates select="@*|node()"/>
</xsl:copy>
</xsl:template>
</xsl:stylesheet>
``````

When this is applied to the following input XML...

``````<nodes>
<node handle="full"/>
<node handle="full"/>
<node handle="left"/>
<node handle="right"/>
<node handle="top-left"/>
<node handle="top-right"/>
<node handle="bottom"/>
<node handle="full"/>
<node handle="full"/>
</nodes>
``````

The output is as follows:

``````<group>
<node handle="full"/>
</group>
<group>
<node handle="full"/>
</group>
<group>
<node handle="left"/>
<node handle="right"/>
</group>
<group>
<node handle="top-left"/>
<node handle="top-right"/>
<node handle="bottom"/>
</group>
<group>
<node handle="full"/>
</group>
<group>
<node handle="full"/>
</group>
``````
-
That looks really smart! I found a different solution, which looks less lean and doesn't use keys. I'm appending it to my own question. I'd be curious to know what you think of it. –  tmslnz Oct 6 '11 at 19:37
The "min" requirement is useless. I thought I needed it to set a range to the recursion. But obviously we both made it without it. –  tmslnz Oct 6 '11 at 19:54