org.apache.solr.common.params.FacetParams Maven / Gradle / Ivy
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* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.solr.common.params;
import java.util.EnumSet;
import java.util.Locale;
import org.apache.solr.common.SolrException;
/**
* Facet parameters
*/
public interface FacetParams {
/**
* Should facet counts be calculated?
*/
public static final String FACET = "facet";
/**
* Numeric option indicating the maximum number of threads to be used
* in counting facet field vales
*/
public static final String FACET_THREADS = FACET + ".threads";
/** What method should be used to do the faceting */
public static final String FACET_METHOD = FACET + ".method";
/** Value for FACET_METHOD param to indicate that Solr should enumerate over terms
* in a field to calculate the facet counts.
*/
public static final String FACET_METHOD_enum = "enum";
/** Value for FACET_METHOD param to indicate that Solr should enumerate over documents
* and count up terms by consulting an uninverted representation of the field values
* (such as the FieldCache used for sorting).
*/
public static final String FACET_METHOD_fc = "fc";
/** Value for FACET_METHOD param, like FACET_METHOD_fc but counts per-segment.
*/
public static final String FACET_METHOD_fcs = "fcs";
/**
* Value for FACET_METHOD param to indicate that Solr should use an UnInvertedField
*/
public static final String FACET_METHOD_uif = "uif";
/**
* Any lucene formated queries the user would like to use for
* Facet Constraint Counts (multi-value)
*/
public static final String FACET_QUERY = FACET + ".query";
/**
* Any field whose terms the user wants to enumerate over for
* Facet Constraint Counts (multi-value)
*/
public static final String FACET_FIELD = FACET + ".field";
/**
* The offset into the list of facets.
* Can be overridden on a per field basis.
*/
public static final String FACET_OFFSET = FACET + ".offset";
/**
* Numeric option indicating the maximum number of facet field counts
* be included in the response for each field - in descending order of count.
* Can be overridden on a per field basis.
*/
public static final String FACET_LIMIT = FACET + ".limit";
/**
* Numeric option indicating the minimum number of hits before a facet should
* be included in the response. Can be overridden on a per field basis.
*/
public static final String FACET_MINCOUNT = FACET + ".mincount";
/**
* Boolean option indicating whether facet field counts of "0" should
* be included in the response. Can be overridden on a per field basis.
*/
public static final String FACET_ZEROS = FACET + ".zeros";
/**
* Boolean option indicating whether the response should include a
* facet field count for all records which have no value for the
* facet field. Can be overridden on a per field basis.
*/
public static final String FACET_MISSING = FACET + ".missing";
static final String FACET_OVERREQUEST = FACET + ".overrequest";
/**
* The percentage to over-request by when performing initial distributed requests.
*
* default value is 1.5
*/
public static final String FACET_OVERREQUEST_RATIO = FACET_OVERREQUEST + ".ratio";
/**
* An additional amount to over-request by when performing initial distributed requests. This
* value will be added after accounting for the over-request ratio.
*
* default value is 10
*/
public static final String FACET_OVERREQUEST_COUNT = FACET_OVERREQUEST + ".count";
public static final String FACET_DISTRIB = FACET + ".distrib";
/**
* If we are returning facet field counts, are sorting those facets by their count, and the minimum count to return is > 0,
* then allow the use of facet.mincount = 1 in cloud mode. To enable this use facet.distrib.mco=true.
*
* i.e. If the following three conditions are met in cloud mode: facet.sort=count, facet.limit > 0, facet.mincount > 0.
* Then use facet.mincount=1.
*
* Previously and by default facet.mincount will be explicitly set to 0 when in cloud mode for this condition.
* In SOLR-8599 and SOLR-8988, significant performance increase has been seen when enabling this optimization.
*
* Note: enabling this flag has no effect when the conditions above are not met. For those other cases the default behavior is sufficient.
*/
public static final String FACET_DISTRIB_MCO = FACET_DISTRIB + ".mco";
/**
* Comma separated list of fields to pivot
*
* example: author,type (for types by author / types within author)
*/
public static final String FACET_PIVOT = FACET + ".pivot";
/**
* Minimum number of docs that need to match to be included in the sublist
*
* default value is 1
*/
public static final String FACET_PIVOT_MINCOUNT = FACET_PIVOT + ".mincount";
/**
* String option: "count" causes facets to be sorted
* by the count, "index" results in index order.
*/
public static final String FACET_SORT = FACET + ".sort";
public static final String FACET_SORT_COUNT = "count";
public static final String FACET_SORT_COUNT_LEGACY = "true";
public static final String FACET_SORT_INDEX = "index";
public static final String FACET_SORT_INDEX_LEGACY = "false";
/**
* Only return constraints of a facet field with the given prefix.
*/
public static final String FACET_PREFIX = FACET + ".prefix";
/**
* Only return constraints of a facet field containing the given string.
*/
public static final String FACET_CONTAINS = FACET + ".contains";
/**
* If using facet contains, ignore case when comparing values.
*/
public static final String FACET_CONTAINS_IGNORE_CASE = FACET_CONTAINS + ".ignoreCase";
/**
* When faceting by enumerating the terms in a field,
* only use the filterCache for terms with a df >= to this parameter.
*/
public static final String FACET_ENUM_CACHE_MINDF = FACET + ".enum.cache.minDf";
/**
* Any field whose terms the user wants to enumerate over for
* Facet Contraint Counts (multi-value)
*/
public static final String FACET_DATE = FACET + ".date";
/**
* Date string indicating the starting point for a date facet range.
* Can be overriden on a per field basis.
*/
public static final String FACET_DATE_START = FACET_DATE + ".start";
/**
* Date string indicating the ending point for a date facet range.
* Can be overriden on a per field basis.
*/
public static final String FACET_DATE_END = FACET_DATE + ".end";
/**
* Date Math string indicating the interval of sub-ranges for a date
* facet range.
* Can be overriden on a per field basis.
*/
public static final String FACET_DATE_GAP = FACET_DATE + ".gap";
/**
* Boolean indicating how counts should be computed if the range
* between 'start' and 'end' is not evenly divisible by 'gap'. If
* this value is true, then all counts of ranges involving the 'end'
* point will use the exact endpoint specified -- this includes the
* 'between' and 'after' counts as well as the last range computed
* using the 'gap'. If the value is false, then 'gap' is used to
* compute the effective endpoint closest to the 'end' param which
* results in the range between 'start' and 'end' being evenly
* divisible by 'gap'.
* The default is false.
* Can be overriden on a per field basis.
*/
public static final String FACET_DATE_HARD_END = FACET_DATE + ".hardend";
/**
* String indicating what "other" ranges should be computed for a
* date facet range (multi-value).
* Can be overriden on a per field basis.
* @see FacetRangeOther
*/
public static final String FACET_DATE_OTHER = FACET_DATE + ".other";
/**
*
* Multivalued string indicating what rules should be applied to determine
* when the the ranges generated for date faceting should be inclusive or
* exclusive of their end points.
*
*
* The default value if none are specified is: [lower,upper,edge] (NOTE: This is different then FACET_RANGE_INCLUDE)
*
*
* Can be overriden on a per field basis.
*
* @see FacetRangeInclude
* @see #FACET_RANGE_INCLUDE
*/
public static final String FACET_DATE_INCLUDE = FACET_DATE + ".include";
/**
* Any numerical field whose terms the user wants to enumerate over
* Facet Contraint Counts for selected ranges.
*/
public static final String FACET_RANGE = FACET + ".range";
/**
* Number indicating the starting point for a numerical range facet.
* Can be overriden on a per field basis.
*/
public static final String FACET_RANGE_START = FACET_RANGE + ".start";
/**
* Number indicating the ending point for a numerical range facet.
* Can be overriden on a per field basis.
*/
public static final String FACET_RANGE_END = FACET_RANGE + ".end";
/**
* Number indicating the interval of sub-ranges for a numerical
* facet range.
* Can be overriden on a per field basis.
*/
public static final String FACET_RANGE_GAP = FACET_RANGE + ".gap";
/**
* Boolean indicating how counts should be computed if the range
* between 'start' and 'end' is not evenly divisible by 'gap'. If
* this value is true, then all counts of ranges involving the 'end'
* point will use the exact endpoint specified -- this includes the
* 'between' and 'after' counts as well as the last range computed
* using the 'gap'. If the value is false, then 'gap' is used to
* compute the effective endpoint closest to the 'end' param which
* results in the range between 'start' and 'end' being evenly
* divisible by 'gap'.
* The default is false.
* Can be overriden on a per field basis.
*/
public static final String FACET_RANGE_HARD_END = FACET_RANGE + ".hardend";
/**
* String indicating what "other" ranges should be computed for a
* numerical range facet (multi-value).
* Can be overriden on a per field basis.
*/
public static final String FACET_RANGE_OTHER = FACET_RANGE + ".other";
/**
*
* Multivalued string indicating what rules should be applied to determine
* when the the ranges generated for numeric faceting should be inclusive or
* exclusive of their end points.
*
*
* The default value if none are specified is: lower
*
*
* Can be overriden on a per field basis.
*
* @see FacetRangeInclude
*/
public static final String FACET_RANGE_INCLUDE = FACET_RANGE + ".include";
/**
* String indicating the method to use to resolve range facets.
*
* Can be overriden on a per field basis.
* @see FacetRangeMethod
*/
public static final String FACET_RANGE_METHOD = FACET_RANGE + ".method";
/**
* Any field whose values the user wants to enumerate as explicit intervals of terms.
*/
public static final String FACET_INTERVAL = FACET + ".interval";
/**
* Set of terms for a single interval to facet on.
*/
public static final String FACET_INTERVAL_SET = FACET_INTERVAL + ".set";
/** A spatial RPT field to generate a 2D "heatmap" (grid of facet counts) on. Just like the other faceting types,
* this may include a 'key' or local-params to facet multiple times. All parameters with this suffix can be
* overridden on a per-field basis. */
public static final String FACET_HEATMAP = "facet.heatmap";
/** The format of the heatmap: either png or ints2D (default). */
public static final String FACET_HEATMAP_FORMAT = FACET_HEATMAP + ".format";
/** The region the heatmap should minimally enclose. It defaults to the world if not set. The format can either be
* a minimum to maximum point range format:
["-150 10" TO "-100 30"]
(the first is bottom-left and second
* is bottom-right, both of which are parsed as points are parsed). OR, any WKT can be provided and it's bounding
* box will be taken. */
public static final String FACET_HEATMAP_GEOM = FACET_HEATMAP + ".geom";
/** Specify the heatmap grid level explicitly, instead of deriving it via distErr or distErrPct. */
public static final String FACET_HEATMAP_LEVEL = FACET_HEATMAP + ".gridLevel";
/** Used to determine the heatmap grid level to compute, defaulting to 0.15. It has the same interpretation of
* distErrPct when searching on RPT, but relative to the shape in 'bbox'. It's a fraction (not a %) of the radius of
* the shape that grid squares must fit into without exceeding. > 0 and <= 0.5.
* Mutually exclusive with distErr & gridLevel. */
public static final String FACET_HEATMAP_DIST_ERR_PCT = FACET_HEATMAP + ".distErrPct";
/** Used to determine the heatmap grid level to compute (optional). It has the same interpretation of maxDistErr or
* distErr with RPT. It's an absolute distance (in units of what's specified on the field type) that a grid square
* must maximally fit into (width & height). It can be used to to more explicitly specify the maximum grid square
* size without knowledge of what particular grid levels translate to. This can in turn be used with
* knowledge of the size of 'bbox' to get a target minimum number of grid cells.
* Mutually exclusive with distErrPct & gridLevel. */
public static final String FACET_HEATMAP_DIST_ERR = FACET_HEATMAP + ".distErr";
/** The maximum number of cells (grid squares) the client is willing to handle. If this limit would be exceeded, we
* throw an error instead. Defaults to 100k. */
public static final String FACET_HEATMAP_MAX_CELLS = FACET_HEATMAP + ".maxCells";
/**
* An enumeration of the legal values for {@link #FACET_RANGE_OTHER} and {@link #FACET_DATE_OTHER} ...
*
* - before = the count of matches before the start
* - after = the count of matches after the end
* - between = the count of all matches between start and end
* - all = all of the above (default value)
* - none = no additional info requested
*
* @see #FACET_RANGE_OTHER
* @see #FACET_DATE_OTHER
*/
public enum FacetRangeOther {
BEFORE, AFTER, BETWEEN, ALL, NONE;
@Override
public String toString() { return super.toString().toLowerCase(Locale.ROOT); }
public static FacetRangeOther get(String label) {
try {
return valueOf(label.toUpperCase(Locale.ROOT));
} catch (IllegalArgumentException e) {
throw new SolrException
(SolrException.ErrorCode.BAD_REQUEST,
label+" is not a valid type of 'other' range facet information",e);
}
}
}
/**
* An enumeration of the legal values for {@link #FACET_DATE_INCLUDE} and {@link #FACET_RANGE_INCLUDE}
*
*
* - lower = all gap based ranges include their lower bound
* - upper = all gap based ranges include their upper bound
* - edge = the first and last gap ranges include their edge bounds (ie: lower
* for the first one, upper for the last one) even if the corresponding
* upper/lower option is not specified
*
* - outer = the BEFORE and AFTER ranges
* should be inclusive of their bounds, even if the first or last ranges
* already include those boundaries.
*
* - all = shorthand for lower, upper, edge, and outer
*
* @see #FACET_DATE_INCLUDE
* @see #FACET_RANGE_INCLUDE
*/
public enum FacetRangeInclude {
ALL, LOWER, UPPER, EDGE, OUTER;
@Override
public String toString() { return super.toString().toLowerCase(Locale.ROOT); }
public static FacetRangeInclude get(String label) {
try {
return valueOf(label.toUpperCase(Locale.ROOT));
} catch (IllegalArgumentException e) {
throw new SolrException
(SolrException.ErrorCode.BAD_REQUEST,
label+" is not a valid type of for range 'include' information",e);
}
}
/**
* Convinience method for parsing the param value according to the
* correct semantics and applying the default of "LOWER"
*/
public static EnumSet parseParam(final String[] param) {
// short circut for default behavior
if (null == param || 0 == param.length )
return EnumSet.of(LOWER);
// build up set containing whatever is specified
final EnumSet include
= EnumSet.noneOf(FacetRangeInclude.class);
for (final String o : param) {
include.add(FacetRangeInclude.get(o));
}
// if set contains all, then we're back to short circuting
if (include.contains(FacetRangeInclude.ALL))
return EnumSet.allOf(FacetRangeInclude.class);
// use whatever we've got.
return include;
}
}
/**
* An enumeration of the legal values for {@link #FACET_RANGE_METHOD}
*
* - filter =
* - dv =
*
* @see #FACET_RANGE_METHOD
*/
public enum FacetRangeMethod {
FILTER, DV;
@Override
public String toString() { return super.toString().toLowerCase(Locale.ROOT); }
public static FacetRangeMethod get(String label) {
try {
return valueOf(label.toUpperCase(Locale.ROOT));
} catch (IllegalArgumentException e) {
throw new SolrException
(SolrException.ErrorCode.BAD_REQUEST,
label+" is not a valid method for range faceting",e);
}
}
public static FacetRangeMethod getDefault() {
return FILTER;
}
}
}