Inside the `SolrIndex->search()` function, the third-party library solr-php-client is used to send data to Solr and parse the response. Additional information can be pulled from this response and added to your results object for use in templates using the `updateSearchResults()` extension hook.
```php
use My\Namespace\Index\MyIndex;
use SilverStripe\FullTextSearch\Search\Queries\SearchQuery;
By adding facet fields into the query parameters, our response object from Solr now contains some additional information that we can add into the results sent to the page.
```php
namespace My\Namespace\Extension;
use SilverStripe\Core\Extension;
use SilverStripe\View\ArrayData;
use SilverStripe\ORM\ArrayList;
class FacetedResultsExtension extends Extension
{
/**
* Adds extra information from the solr-php-client repsonse
* into our search results.
*@param ArrayData $results The ArrayData that will be used to generate search
* results pages.
*@param stdClass $response The solr-php-client response object.
*/
public function updateSearchResults($results, $response)
{
if (!isset($response->facet_counts) || !isset($response->facet_counts->facet_fields)) {
return;
}
$facetCounts = ArrayList::create([]);
foreach($response->facet_counts->facet_fields as $name => $facets) {
$facetDetails = ArrayData::create([
'Name' => $name,
'Facets' => ArrayList::create([]),
]);
foreach($facets as $facetName => $facetCount) {
$facetDetails->Facets->push(ArrayData::create([
'Name' => $facetName,
'Count' => $facetCount,
]));
}
$facetCounts->push($facetDetails);
}
$results->setField('FacetCounts', $facetCounts);
}
}
```
And then apply the extension to your index via `yaml`:
```yaml
My\Namespace\Index\MyIndex:
extensions:
- My\Namespace\Extension\FacetedResultsExtension
```
We can now access the facet information inside our templates like so:
Solr has various spell checking strategies (see the ["SpellCheckComponent" docs](http://wiki.apache.org/solr/SpellCheckComponent)), all of which are configured through `solrconfig.xml`.
In the default config which is copied into your index, spell checking data is collected from all fulltext fields
(everything you added through `SolrIndex->addFulltextField()`). The values of these fields are collected in a special `_text` field.
```php
use My\Namespace\Index\MyIndex;
use SilverStripe\FullTextSearch\Search\Queries\SearchQuery;
Now you need to tell Solr to use our new field for gathering spelling data. In order to customise the spell checking configuration,
create your own `solrconfig.xml` (see [File-based configuration](03_configuration.md#file-based-configuration)). In there, change the following directive:
Copy the new configuration via a the [`Solr_Configure` task](03_configuration.md#solr-configure), and reindex your data before using the spell checker.
## Highlighting
Solr can highlight the searched terms in context of the matched content, to help users determine the relevancy of results (e.g. in which part of a sentence the term is used). In order to use this feature, the full content of the field to be highlighted needs to be stored in the index,
by declaring it through `addStoredField()`:
```php
use SilverStripe\FullTextSearch\Solr\SolrIndex;
class MyIndex extends SolrIndex
{
public function init()
{
$this->addClass(Page::class);
$this->addAllFulltextFields();
$this->addStoredField('Content');
}
}
```
To search with highlighting enabled, you need to pass in a custom query parameter.
There's a lot more parameters available for tweaking results detailed on the [Solr reference guide](https://archive.apache.org/dist/lucene/solr/ref-guide/apache-solr-ref-guide-4.10.pdf#page=270).
```php
use My\Namespace\Index\MyIndex;
use SilverStripe\FullTextSearch\Search\Queries\SearchQuery;
Each result will automatically contain an `Excerpt` property which you can use in your own results template. The searched term is highlighted with an `<em>` tag by default.
> Note: It is recommended to strip out all HTML tags and convert entities on the indexed content,
to avoid matching HTML attributes, and cluttering highlighted content with unparsed HTML.
Results aren't all created equal. Matches in some fields are more important than others; for example, a page `Title` might be considered more relevant to the user than terms in the `Content` field.
To account for this, a "weighting" (or "boosting") factor can be applied to each searched field. The default value is `1.0`, anything below that will decrease the relevance, anything above increases it. You can get more information on relevancy at the [Solr wiki](http://wiki.apache.org/solr/SolrRelevancyFAQ).
It's usually best to start with the existing definitions, and adjust from there. You can both add your own types and adjust the behaviour of existing definitions.
### Perform filtering on index
An example of something you can achieve with this is to move synonym filtering from performed on query, to being performed on index. To do this, you'd take
from inside the `<analyzer type="query">` block and move it to the `<analyzer type="index">` block. This can be advantageous as Solr does a better job of processing synonyms at index; however, it does mean that it requires a full Reindex to make a change, which - depending on the size of your site - could be overkill. See [this article](https://nolanlawson.com/2012/10/31/better-synonym-handling-in-solr/) for a good breakdown.
### Searching for words containing numbers
By default, the module is configured to split words containing numbers into multiple tokens. For example, the word "A1" would be interpreted as "A" "1", and since "a" is a common stopword, the term "A1" will be excluded from search.
To allow searches on words containing numeric tokens, you'll need to change the behaviour of the `WordDelimiterFilterFactory` with an overloaded template as described above. Each instance of `<filter class="solr.WordDelimiterFilterFactory">` needs to include the following attributes and values:
- add `splitOnNumerics="0"` on all `WordDelimiterFilterFactory` fields
- change `catenateNumbers="1"` to `catenateNumbers="0"` on all `WordDelimiterFilterFactory` fields
### Searching for macrons and other Unicode characters
The `ASCIIFoldingFilterFactory` filter converts alphabetic, numeric, and symbolic Unicode characters which are not in the Basic Latin Unicode block (the first 127 ASCII characters) to their ASCII equivalents, if one exists.
By default, this functionality is enabled on the `htmltext` and `text` fieldTypes. If you want it enabled for any other fieldTypes simply find the fields in your overloaded `types.ss` that you want to enable this behaviour in, for example inside the `<fieldType name="textTight">` block, add the following to both its index analyzer and query analyzer records.