Help:Extension:Kartographer/zh

 Main help pages: 扩展允许您在 Wikimedia wiki 页面上创建交互式和静态地图. 此页面是一份关于如何使用Kartographer的参考，包括使用标签时的诸多可用选项，它可以直接将地图嵌入维基页面，以及，它可以创建指向全页交互式地图的链接，和touches on the elements of GeoJSON supported by Kartographer. 你可以在页面底部看到大量的例子.
 * 如何在可视化编辑器里用Kartographer
 * Introduction to Kartographer in wikitext
 * current: Kartographer - extensive help page

For help with Kartographer and OpenStreetMap, check out.

Show nearby articles
'' This feature is not yet available on all wikis. See this roadmap for more information. '' In full-screen mode, you can click on the button “Show nearby articles” to see up to 100 geographically close articles as markers on the map. The nearby articles are generated from the wiki you are currently in, taking into account relevance and proximity. As soon as you move the map with the mouse or zoom in and out, the map automatically updates new nearby articles. Markers for nearby articles are round. They are shown in addition to any markers that have been manually added, which have a different shape. When you click on the marker of a nearby article, a pop-up shows the title, a brief description and an image of the article. Click on the title to go to the article. If the article is linked to an entry on Wikidata, the pop-up displays a brief description from Wikidata. To hide the nearby articles on the map, click the button “Show nearby articles” again.

How to create maps using Kartographer


基本语法
为了在维基页面上将地图或地图链接直接置入，Kartographer提供了两个标签：和. 嵌入了一个行内地图，链接到一个全屏交互式地图，而‎创建了 (带有可选标记的）富文本，链接到一个全屏交互式地图.

Some wikis wrap these tags in templates, such as Mapbox and Mapframe. Consult your local wiki's Kartographer help page to see if your wiki has templates -- or use the tags directly with this document as your guide.



The tag embeds a map in a wiki page. The tag must be either empty or contain GeoJSON. See below for more resources on writing GeoJSON.

将 $mapframe 换成 $maplink，即可得到一个指向全屏地图的链接：

* = required

Self-closing tags
When not using GeoJSON, you can use and  as self-closing, standalone tags.

Self-closing:

Enclosing GeoJSON:

GeoJSON
 { "type": "FeatureCollection", "features": [ {     "type": "Feature", "properties": { "marker-symbol": "-number", "marker-color": "302060" },     "geometry": { "type": "Point", "coordinates": [ -122.41816520690917,         37.79097260220947        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-number", "marker-color": "302060" },     "geometry": { "type": "Point", "coordinates": [ -122.40786552429199,         37.799654055191525        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-number", "marker-color": "302060" },     "geometry": { "type": "Point", "coordinates": [ -122.40185737609865,         37.796262984039544        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-number", "marker-color": "302060" },     "geometry": { "type": "Point", "coordinates": [ -122.38743782043457,         37.80535070427755        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-number", "marker-color": "302060" },     "geometry": { "type": "Point", "coordinates": [ -122.38005638122557,         37.795449103799726        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-letter", "marker-color": "208020" },     "geometry": { "type": "Point", "coordinates": [ -122.40941047668457,         37.81850557172186        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-letter", "marker-color": "208020" },     "geometry": { "type": "Point", "coordinates": [ -122.40357398986815,         37.81280993744834        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-letter", "marker-color": "208020" },     "geometry": { "type": "Point", "coordinates": [ -122.39842414855956,         37.8071138637568        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-number-bar", "marker-color": "f01080" },     "geometry": { "type": "Point", "coordinates": [ -122.41181373596191,         37.78595317184089        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-number-bar", "marker-color": "f01080" },     "geometry": { "type": "Point", "coordinates": [ -122.39542007446289,         37.787674400057654        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-number-bar", "marker-color": "f01080" },     "geometry": { "type": "Point", "coordinates": [ -122.38649368286131,         37.78401144262929        ]      }    }  ] }

The and  tags can either be empty or contain valid GeoJSON, to annotate the map with markers, draw shapes, and apply a mask area.

For more detail on this broad topic, you can read this helpful introduction to GeoJSON as well as the full GeoJSON specification.

Markers
Maps that use GeoJSON may contain one or more markers to point out special locations. These markers are set using marker-specific keywords under the "properties" level in GeoJSON.

Kartographer支持 simplestyle（简单样式）规格，使用Maki图标集（按CC0释出）. Help:Extension:Kartographer/Icons包含受支持图标的完整列表.

結果：

Auto-counters
Multiple markers on a map can be grouped and named using patterns and counters. Below is a summary of styling attributes for items placed on a map using GeoJSON. For more information, see the simplestyle spec.

For a rich variety of examples, see the Examples section.

Shapes, lines and points
GeoJSON allows you to add lines, geometric areas and points as annotations to your map. You can define them inline or import them from external databases.

Inline
GeoJSON allows you to draw points (markers), simple lines and geometric areas as part of your map definition. The following examples include the "geometry" attribute of GeoJSON objects inside a object. Consult the full GeoJSON specification for more information.

External data
 { "type": "ExternalData", "service": "geoshape", "ids": "Q797" }

GeoJSON allows you to import geographical objects from external sources using the "type" attribute with the value "ExternalData".

Maps can draw from well-known geographical objects by using their Wikidata ID (also via Wikidata SPARQL queries). The source for external polygons and lines is OpenStreetMap database, and marker coordinates are retrieved directly from Wikidata.

Additionally, maps can link directly to raw GeoJSON stored on Wikimedia Commons (.map files): see for details.

Objects can be rendered using data from an external source in these different ways:


 * - Draws a marker.
 * - Draws a simple line.
 * - Draws a polygon with a shaded interior.
 * - Draws a polygon and shades everything outside the polygon.
 * - path to a .map file on Wikimedia Commons that contains valid GeoJSON.

Via Wikidata ID
Polygons and lines in OpenStreetMap (OSM) database are linked using Wikidata IDs. Wikidata IDs are relatively new to the OSM community. As of early 2022 there are roughly 1.9 million elements with Wikidata IDs. You can add your own at https://www.openstreetmap.org/ – be sure to add the  tag and the corresponding   value. Polygon or line typically becomes available to Kartographer within two days. For detailed instructions, see.

Marker is drawn if linked Wikidata item has P625 coordinate statement.  { "type": "ExternalData", "service": "geoshape", "ids": "Q34713,Q701153" }  { "type": "ExternalData", "service": "geopoint", "ids": "Q667450, Q15958518" }

Via Wikidata query
 { "type": "ExternalData", "service": "geoshape", "query": "SELECT ?id ?head (SAMPLE(?img) as ?img_) (min(?partyId) as ?party) (if(?party = '0', '#800000', if(?party = '1', '#000080', '#008000')) as ?fill) (concat(, ?headLabel, ) as ?title) (concat(?stateLabel, '\\n', '') as ?description) WHERE { ?id wdt:P31 wd:Q35657 . ?id wdt:P6 ?head . ?head wdt:P102 ?party . BIND(if(?party = wd:Q29468, '0', if(?party = wd:Q29552, '1', '2')) as ?partyId) SERVICE wikibase:label { bd:serviceParam wikibase:language 'en' . ?head rdfs:label ?headLabel . ?id rdfs:label ?stateLabel . } OPTIONAL { ?head wdt:P18 ?img . } ?link schema:about ?head . ?link schema:isPartOf  .} GROUP BY ?id ?head ?headLabel ?link ?stateLabel" }

 { "type": "ExternalData", "service": "geopoint", "query": "SELECT DISTINCT ?id ?geo (?idLabel as ?title) (if(BOUND(?image), concat(?typeLabel, '\\n', ''), ?typeLabel) as ?description) (if(?type = wd:Q860861, '#800000', if(?type = wd:Q245117, '#000080', '#008000')) as ?marker_color) WHERE { ?id wdt:P136 wd:Q557141; wdt:P625 ?geo; wdt:P276* wd:Q2103147; wdt:P31 ?type. OPTIONAL {?id wdt:P18 ?image}. SERVICE wikibase:label { bd:serviceParam wikibase:language 'en, nl'. ?id rdfs:label ?idLabel. ?type rdfs:label ?typeLabel} .} ORDER BY ?id" } Instead of a Wikidata Item ID, a map can also derive data from a Wikidata query in SPARQL. (You can create SPARQL queries using the Query Builder.)



来自共享资源的地图数据
 { "type": "ExternalData", "service": "page", "title": "Neighbourhoods/New York City.map" } Map data in GeoJSON that is stored on Commons can be drawn on the map.


 * 更多信息： 

Mask layer
 { "type": "ExternalData", "service": "geomask", "ids": "Q34713", "properties": { "fill": "#555555", "fill-opacity": 0.5, "stroke": "#000000", "stroke-width": 1, "stroke-opacity": 1 } }

A mask is just an inside-out shape, specified in the same way but with the exterior of the shape shaded.

Combining multiple data types
You can combine ExternalData, Feature, and FeatureCollection objects together in the same or  element, for example to highlight features with titles and descriptions on top of externally sourced objects.

Map data from Commons can be combined with other types of data by grouping them in parallel blocks of GeoJSON. See #Mixed types for various combinations.

Styling shapes
 { "type": "ExternalData", "service": "geoline", "ids": "Q2108", "properties": { "title": "Highway I-696", "description": "", "stroke": "#ffb100", "stroke-width": 8 } }

In addition to the marker styling above, lines and areas support these simplestyle properties:

Overlapping elements
Map elements that overlap are drawn in the order they appear in the code. If a map includes two lines that overlap, the line defined first will appear beneath the line defined next. This applies to any elements defined in the code that draw on the map.

Examples
 { "type": "FeatureCollection", "features": [ { "type": "Feature", "properties": {"fill": "#ff0000","fill-opacity": 0.7,"stroke-width": 0}, "geometry": { "type": "Polygon", "coordinates": [ [ [ 77.926025390625, -25.150257104114733 ], [ 80.14251708984374, -25.150257104114733 ], [ 80.14251708984374, -24.43714786161562 ], [ 77.926025390625, -24.43714786161562 ], [ 77.926025390625, -25.150257104114733 ] ] ] } }, { "type": "Feature", "properties": {"stroke": "#fffa00","stroke-width": 5}, "geometry": { "type": "LineString", "coordinates": [ [ 77.926025390625, -25.150257104114733 ], [ 80.14251708984374, -24.43714786161562 ] ] } }, { "type": "Feature", "properties": {"stroke": "#000000","stroke-width": 5}, "geometry": { "type": "LineString", "coordinates": [ [ 77.926025390625, -24.43714786161562 ], [ 80.14251708984374, -25.150257104114733 ] ] } } ] }

The code for the map above includes three elements, all of which use GeoJSON's "feature" functionality. The first feature is a "Polygon" - the red rectangle. This is followed by two "LineString" features. The yellow line is defined first, so it appears beneath the black line. Note that the hierarchy used to draw elements applies regardless of whether the data is raw GeoJSON or comes from a Wikidata ID or Commons data page.

The map below changes the order from that of the first example: the black line is defined first and is thus moved to the bottom of the stack:

 { "type": "FeatureCollection", "features": [ { "type": "Feature", "properties": {"stroke": "#000000","stroke-width": 5}, "geometry": { "type": "LineString", "coordinates": [ [ 77.926025390625, -24.43714786161562 ], [ 80.14251708984374, -25.150257104114733 ] ] } }, { "type": "Feature", "properties": {"fill": "#ff0000","fill-opacity": 0.7,"stroke-width": 0}, "geometry": { "type": "Polygon", "coordinates": [ [ [  77.926025390625,  -25.150257104114733  ],  [  80.14251708984374,  -25.150257104114733  ],  [  80.14251708984374,  -24.43714786161562  ],  [  77.926025390625,  -24.43714786161562  ],  [  77.926025390625,  -25.150257104114733  ]  ]  ]  } }, { "type": "Feature", "properties": {"stroke": "#fffa00","stroke-width": 5}, "geometry": { "type": "LineString", "coordinates": [ [ 77.926025390625, -25.150257104114733 ], [ 80.14251708984374, -24.43714786161562 ] ] } } ] }

Reference

 * Full GeoJSON specification (RFC7946)
 * GeoJSON on English Wikipedia
 * simplestyle spec used by Kartographer
 * Maki icon set used by Kartographer

Guides

 * HERE.com's intro to GeoJSON
 * A guide to the GeoJSON.io editor

Editors and tools

 * GeoJSON.io editor
 * Vector.rocks editor
 * GeoJSON linter to validate your GeoJSON

<span id="Groups_for_Wikivoyage">

组
The Wikivoyage project needs to display maps whose data is defined elsewhere on the page. There may be multiple points of interest (POI) defined with tags, all of which appear on a single common map on the side of the page. (See an example using the city of Salzburg.)

Grouping allows editors to share data between multiple and  tags.

Normally, the data inside a or  tag is shown only on the map created by that tag and nowhere else.

But on Wikivoyage, if a tag includes the   attribute, the data inside those tags will be placed into a named group alongside all the other data with the same group name. Tags with the same group name will display on a single map data; each tag incrementally adds data to the group.

Each tag on a Wikivoyage tag displays an embedded map displaying the groups specified in its tag.

A map may also show additional groups by specifying the  attribute. Multiple group names may be specified, separated by comma. A group name may only contain lower case Latin letters. This grid illustrates the data that will be shown for each tag.

Example:

Languages and fallbacks
Kartographer maps get their labels from the open-source mapping project OpenStreetMap (https://www.openstreetmap.org/). By default, Kartographer tries to display map labels in the language of the wiki in which the embedded map is displayed. If that language is not available, then the map will use the given wiki's configured fallback language, then the local language in the map region specified in the Kartographer map. If none of these are available, Kartographer will display no label.

You can specify the language to use for labels with the  attribute and by setting its value to the desired language code Example:   will display labels in Japanese, if available.

To use the language local to the map area, specify. For more information about using the local language in your labels, and about OpenStreetMap multilingual data in general, read this post. Kartographer maps get their data, including map label data in all available languages, from the open-source mapping project OpenStreetMap. If the map you want to display doesn't offer labels in the desired language, you can always add labels in that language by adding them yourself to OpenStreetMap. Note that country and city names are drawn from label nodes in OpenStreetMap, not from the data attached to boundary relations. To get started, see the OpenStreetMap Beginners’ Guide and these best practices in naming conventions.

Simple
<mapframe text="San Francisco museums" width="350" height="350" zoom="13" longitude="-122.3988" latitude="37.8013"> { "type": "Feature", "geometry": { "type": "Point", "coordinates": [-122.3988, 37.8013] }, "properties": { "title": "Exploratorium", "description": "", "marker-symbol": "museum", "marker-size": "large", "marker-color": "0050d0" } }

Groups of automatic counters
<mapframe text="Several groups of automatic counters" width="350" height="350" zoom="13" longitude="-122.39902496337889" latitude="37.80151060070086"> { "type": "FeatureCollection", "features": [ {     "type": "Feature", "properties": { "marker-symbol": "-number", "marker-color": "302060" },     "geometry": { "type": "Point", "coordinates": [ -122.41816520690917,         37.79097260220947        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-number", "marker-color": "302060" },     "geometry": { "type": "Point", "coordinates": [ -122.40786552429199,         37.799654055191525        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-number", "marker-color": "302060" },     "geometry": { "type": "Point", "coordinates": [ -122.40185737609865,         37.796262984039544        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-number", "marker-color": "302060" },     "geometry": { "type": "Point", "coordinates": [ -122.38743782043457,         37.80535070427755        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-number", "marker-color": "302060" },     "geometry": { "type": "Point", "coordinates": [ -122.38005638122557,         37.795449103799726        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-letter", "marker-color": "208020" },     "geometry": { "type": "Point", "coordinates": [ -122.40941047668457,         37.81850557172186        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-letter", "marker-color": "208020" },     "geometry": { "type": "Point", "coordinates": [ -122.40357398986815,         37.81280993744834        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-letter", "marker-color": "208020" },     "geometry": { "type": "Point", "coordinates": [ -122.39842414855956,         37.8071138637568        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-number-bar", "marker-color": "f01080" },     "geometry": { "type": "Point", "coordinates": [ -122.41181373596191,         37.78595317184089        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-number-bar", "marker-color": "f01080" },     "geometry": { "type": "Point", "coordinates": [ -122.39542007446289,         37.787674400057654        ]      }    },    {      "type": "Feature", "properties": { "marker-symbol": "-number-bar", "marker-color": "f01080" },     "geometry": { "type": "Point", "coordinates": [ -122.38649368286131,         37.78401144262929        ]      }    }  ] }

Wikidata query
<mapframe longitude="-110" latitude="52" zoom="3" width="500" height="500" text="Governors of US states with their party affiliation"> { "type": "ExternalData", "service": "geoshape", "query": "SELECT ?id ?head (SAMPLE(?img) as ?img_) (min(?partyId) as ?party) (if(?party = '0', '#800000', if(?party = '1', '#000080', '#008000')) as ?fill) (concat(, ?headLabel, ) as ?title) (concat(?stateLabel, '\\n', '') as ?description) WHERE { ?id wdt:P31 wd:Q35657 . ?id wdt:P6 ?head . ?head wdt:P102 ?party . BIND(if(?party = wd:Q29468, '0', if(?party = wd:Q29552, '1', '2')) as ?partyId) SERVICE wikibase:label { bd:serviceParam wikibase:language 'en' . ?head rdfs:label ?headLabel . ?id rdfs:label ?stateLabel . } OPTIONAL { ?head wdt:P18 ?img . } ?link schema:about ?head . ?link schema:isPartOf <https://en.wikipedia.org/> .} GROUP BY ?id ?head ?headLabel ?link ?stateLabel" }

Map data from Commons
<mapframe width="300" height="400"> { "type": "ExternalData", "service": "page", "title": "Neighbourhoods/New York City.map" }

Mixed types
<mapframe text="Caderousse city wall" width="300" height="300" zoom="15" longitude="4.75600" latitude="44.10200"> [ {    "type": "ExternalData", "service": "geoshape", "ids": "Q13518258", "properties": { "stroke": "#ffb100", "stroke-width": 6, } },  {    "type": "Feature", "geometry": { "type": "Point", "coordinates": [4.75566, 44.104498] }, "properties": { "title": "Porte de Castellan" } },  {    "type": "Feature", "geometry": { "type": "Point", "coordinates": [4.75829, 44.10258] }, "properties": { "title": "Porte Léon Roche" } } ]

Mixed types with markers
<mapframe width="300" height="300" zoom="12" longitude="-73.965278" latitude="40.782222"> [ {    "type": "ExternalData", "service": "page", "title": "Neighbourhoods/New York City.map" }, {    "type": "ExternalData", "service": "geoshape", "ids": "Q160409", "properties": { "fill": "#07c63e", "title": "Central Park" } },  {    "type": "Feature", "properties": {"title": "Roosevelt Island", "marker-color": "f01080"}, "geometry": { "type": "Point", "coordinates": [ -73.94511222839355,       40.76734665426719      ]    }  } ]

<span id="Rendering_options">

渲染选项
The following table shows how a map can be formatted for display on a wiki page. The table contains two columns: the first shows an interactive map via the tag, and the second shows the rendering of an example image with the same options.

Use the width value  in order to make the map take up the full width of the page. <mapframe width="full" height="200" zoom="13" longitude="-122.39953994750977" latitude="37.81032643553478"> <mapframe width="full" height="200" zoom="13" longitude="-122.39953994750977" latitude="37.81032643553478" frameless>

Styling
<mapframe text="Interstate Highway I-696" width="300" height="300" longitude="-83.2297" latitude="42.4883" zoom="9"> { "type": "ExternalData", "service": "geoline", "ids": "Q2108", "properties": { "title": "Highway I-696", "description": "", "stroke": "#ffb100", "stroke-width": 8 } }

<span id="See_also"> 參見
 * Special:MyLanguage/Help:VisualEditor/Maps - How to add and edit maps with the visual editor
 * Using Kartographer with OpenStreetMap
 * Maps project (2015-2017) - Documentation on the Wikimedia engineering activity from the Discovery team from 2015 to 2017
 * Map improvements 2018 - Documentation on the Wikimedia engineering activity from the Collaboration team in 2018
 * Kartographer Developer guide
 * Terms of Use for Maps
 * Terms of Use for Maps