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route.json
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route.json
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{
"swagger": "2.0",
"info": {
"title": "Azure Maps Route Service",
"version": "1.0",
"description": "Azure Maps Route REST APIs"
},
"host": "atlas.microsoft.com",
"schemes": [
"https"
],
"consumes": [],
"produces": [
"application/json",
"application/xml"
],
"securityDefinitions": {
"AADToken": {
"type": "oauth2",
"authorizationUrl": "https://login.microsoftonline.com/common/oauth2/authorize",
"flow": "implicit",
"description": "These are the [Microsoft Entra OAuth 2.0](https://docs.microsoft.com/azure/active-directory/develop/v1-overview) Flows. When paired with [Azure role-based access](https://docs.microsoft.com/azure/role-based-access-control/overview) control it can be used to control access to Azure Maps REST APIs. Azure role-based access controls are used to designate access to one or more Azure Maps resource account or sub-resources. Any user, group, or service principal can be granted access via a built-in role or a custom role composed of one or more permissions to Azure Maps REST APIs.\n\nTo implement scenarios, we recommend viewing [authentication concepts](https://aka.ms/amauth). In summary, this security definition provides a solution for modeling application(s) via objects capable of access control on specific APIs and scopes.\n\n#### Notes\n* This security definition **requires** the use of the `x-ms-client-id` header to indicate which Azure Maps resource the application is requesting access to. This can be acquired from the [Maps management API](https://aka.ms/amauthdetails).\n* \nThe `Authorization URL` is specific to the Azure public cloud instance. Sovereign clouds have unique Authorization URLs and Microsoft Entra ID configurations. \n* \nThe Azure role-based access control is configured from the [Azure management plane](https://aka.ms/amrbac) via Azure portal, PowerShell, CLI, Azure SDKs, or REST APIs.\n* \nUsage of the [Azure Maps Web SDK](https://aka.ms/amaadmc) allows for configuration based setup of an application for multiple use cases.\n* For more information on Microsoft identity platform, see [Microsoft identity platform overview](https://learn.microsoft.com/entra/identity-platform/v2-overview).",
"scopes": {
"https://atlas.microsoft.com/.default": "https://atlas.microsoft.com/.default"
}
},
"SharedKey": {
"type": "apiKey",
"description": "This is a shared key that is provisioned when you [Create an Azure Maps account](https://docs.microsoft.com/azure/azure-maps/quick-demo-map-app#create-an-azure-maps-account) in the Azure portal or using PowerShell, CLI, Azure SDKs, or REST API.\n\n With this key, any application can access all REST API. In other words, this key can be used as a master key in the account that they are issued in.\n\n For publicly exposed applications, our recommendation is to use the [confidential client applications](https://docs.microsoft.com/azure/azure-maps/authentication-best-practices#confidential-client-applications) approach to access Azure Maps REST APIs so your key can be securely stored.",
"name": "subscription-key",
"in": "query"
},
"SasToken": {
"type": "apiKey",
"description": "This is a shared access signature token is created from the List SAS operation on the [Azure Maps resource](https://aka.ms/amauth) through the Azure management plane via Azure portal, PowerShell, CLI, Azure SDKs, or REST APIs.\n\n With this token, any application is authorized to access with Azure role-based access controls and fine-grain control to the expiration, rate, and region(s) of use for the particular token. In other words, the SAS Token can be used to allow applications to control access in a more secured way than the shared key.\n\n For publicly exposed applications, our recommendation is to configure a specific list of allowed origins on the [Map account resource](https://aka.ms/amauth) to limit rendering abuse and regularly renew the SAS Token.",
"name": "SAS Token",
"in": "header"
}
},
"security": [
{
"AADToken": [
"https://atlas.microsoft.com/.default"
]
},
{
"SharedKey": []
},
{
"SasToken": []
}
],
"responses": {
"202": {
"description": "Request Accepted: The request has been accepted for processing. Please use the URL in the Location Header to retry or access the results.",
"headers": {
"Location": {
"type": "string",
"description": "New URL to check for the results of the long-running operation."
}
}
},
"400": {
"description": "Bad request: one or more parameters were incorrectly specified or are mutually exclusive.",
"schema": {
"$ref": "#/definitions/ODataErrorResponse"
}
},
"401": {
"description": "Access denied due to invalid subscription key or invalid Microsoft Entra ID bearer token. Make sure to provide a valid key for an active Azure subscription and Maps resource. Otherwise, verify the [WWW-Authenticate](https://tools.ietf.org/html/rfc6750#section-3.1) header for error code and description of the provided Microsoft Entra ID bearer token.",
"schema": {
"$ref": "#/definitions/ODataErrorResponse"
},
"headers": {
"WWW-Authenticate": {
"type": "string",
"description": "Bearer realm=\"https://atlas.microsoft.com/\", error=\"invalid_token\", error_description=\"The access token expired\""
}
}
},
"403": {
"description": "Permission, capacity, or authentication issues.",
"schema": {
"$ref": "#/definitions/ODataErrorResponse"
}
},
"404": {
"description": "Not Found: the requested resource could not be found, but it may be available again in the future.",
"schema": {
"$ref": "#/definitions/ODataErrorResponse"
}
},
"500": {
"description": "An error occurred while processing the request. Please try again later.",
"schema": {
"$ref": "#/definitions/ODataErrorResponse"
}
},
"202Async": {
"description": "**Supported only for async request.**\nRequest Accepted: The request has been accepted for processing. Please use the URL in the Location Header to retry or access the results.",
"headers": {
"Location": {
"type": "string",
"description": "New URL to check for the results of the long-running operation."
}
}
}
},
"parameters": {
"ClientId": {
"name": "x-ms-client-id",
"description": "Specifies which account is intended for usage in conjunction with the Microsoft Entra ID security model. It represents a unique ID for the Azure Maps account and can be retrieved from the Azure Maps management plane Account API. To use Microsoft Entra ID security in Azure Maps see the following [articles](https://aka.ms/amauthdetails) for guidance.",
"type": "string",
"in": "header",
"required": false,
"x-ms-parameter-location": "client"
},
"SubscriptionKey": {
"name": "subscription-key",
"description": "One of the Azure Maps keys provided from an Azure Map Account. Please refer to this [article](https://docs.microsoft.com/azure/azure-maps/how-to-manage-authentication) for details on how to manage authentication.",
"type": "string",
"in": "query",
"required": false,
"x-ms-parameter-location": "client"
},
"ApiVersion": {
"name": "api-version",
"description": "Version number of Azure Maps API. Current version is 1.0",
"type": "string",
"in": "query",
"required": true,
"default": "1.0",
"x-ms-parameter-location": "client"
},
"JsonFormat": {
"name": "format",
"description": "Desired format of the response. Only `json` format is supported.",
"type": "string",
"in": "path",
"required": true,
"enum": [
"json"
],
"x-ms-enum": {
"name": "JsonFormat",
"modelAsString": true,
"values": [
{
"value": "json",
"description": "[The JavaScript Object Notation Data Interchange Format](https://tools.ietf.org/html/rfc8259)"
}
]
},
"x-ms-parameter-location": "method"
},
"TextFormat": {
"name": "format",
"description": "Desired format of the response. Value can be either _json_ or _xml_.",
"type": "string",
"in": "path",
"required": true,
"enum": [
"json",
"xml"
],
"x-ms-enum": {
"name": "TextFormat",
"modelAsString": true,
"values": [
{
"value": "json",
"description": "[The JavaScript Object Notation Data Interchange Format](https://tools.ietf.org/html/rfc8259)"
},
{
"value": "xml",
"description": "[The Extensible Markup Language](https://www.w3.org/TR/xml/)"
}
]
},
"x-ms-parameter-location": "method"
},
"VehicleLoadType": {
"name": "vehicleLoadType",
"in": "query",
"description": "Types of cargo that may be classified as hazardous materials and restricted from some roads. Available vehicleLoadType values are US Hazmat classes 1 through 9, plus generic classifications for use in other countries/regions. Values beginning with USHazmat are for US routing while otherHazmat should be used for all other countries/regions. vehicleLoadType can be specified multiple times. This parameter is currently only considered for travelMode=truck.",
"required": false,
"type": "string",
"enum": [
"USHazmatClass1",
"USHazmatClass2",
"USHazmatClass3",
"USHazmatClass4",
"USHazmatClass5",
"USHazmatClass6",
"USHazmatClass7",
"USHazmatClass8",
"USHazmatClass9",
"otherHazmatExplosive",
"otherHazmatGeneral",
"otherHazmatHarmfulToWater"
],
"x-ms-enum": {
"name": "VehicleLoadType",
"modelAsString": true,
"values": [
{
"value": "USHazmatClass1",
"description": "Explosives"
},
{
"value": "USHazmatClass2",
"description": "Compressed gas"
},
{
"value": "USHazmatClass3",
"description": "Flammable liquids"
},
{
"value": "USHazmatClass4",
"description": "Flammable solids"
},
{
"value": "USHazmatClass5",
"description": "Oxidizers"
},
{
"value": "USHazmatClass6",
"description": "Poisons"
},
{
"value": "USHazmatClass7",
"description": "Radioactive"
},
{
"value": "USHazmatClass8",
"description": "Corrosives"
},
{
"value": "USHazmatClass9",
"description": "Miscellaneous"
},
{
"value": "otherHazmatExplosive",
"description": "Explosives"
},
{
"value": "otherHazmatGeneral",
"description": "Miscellaneous"
},
{
"value": "otherHazmatHarmfulToWater",
"description": "Harmful to water"
}
]
},
"x-ms-parameter-location": "method"
},
"RouteType": {
"name": "routeType",
"in": "query",
"description": "The type of route requested.",
"required": false,
"type": "string",
"default": "fastest",
"enum": [
"fastest",
"shortest",
"eco",
"thrilling"
],
"x-ms-enum": {
"name": "RouteType",
"modelAsString": true,
"values": [
{
"value": "fastest",
"description": "The fastest route."
},
{
"value": "shortest",
"description": "The shortest route by distance."
},
{
"value": "eco",
"description": "A route balanced by economy and speed."
},
{
"value": "thrilling",
"description": "Includes interesting or challenging roads and uses as few motorways as possible. You can choose the level of turns included and also the degree of hilliness. See the hilliness and windingness parameters for how to set this. There is a limit of 900 km on routes planned with `routeType`=thrilling"
}
]
},
"x-ms-parameter-location": "method"
},
"Windingness": {
"name": "windingness",
"in": "query",
"description": "Level of turns for thrilling route. This parameter can only be used in conjunction with `routeType`=thrilling.",
"required": false,
"type": "string",
"default": "normal",
"enum": [
"low",
"normal",
"high"
],
"x-ms-enum": {
"name": "Windingness",
"modelAsString": true,
"values": [
{
"value": "low",
"description": "low"
},
{
"value": "normal",
"description": "normal"
},
{
"value": "high",
"description": "high"
}
]
},
"x-ms-parameter-location": "method"
},
"Hilliness": {
"name": "hilliness",
"in": "query",
"description": "Degree of hilliness for thrilling route. This parameter can only be used in conjunction with `routeType`=thrilling.",
"required": false,
"type": "string",
"default": "normal",
"enum": [
"low",
"normal",
"high"
],
"x-ms-enum": {
"name": "Hilliness",
"modelAsString": true,
"values": [
{
"value": "low",
"description": "low"
},
{
"value": "normal",
"description": "normal"
},
{
"value": "high",
"description": "high"
}
]
},
"x-ms-parameter-location": "method"
},
"TravelMode": {
"name": "travelMode",
"in": "query",
"description": "The mode of travel for the requested route. If not defined, default is 'car'. Note that the requested travelMode may not be available for the entire route. Where the requested travelMode is not available for a particular section, the travelMode element of the response for that section will be \"other\". Note that travel modes bus, motorcycle, taxi and van are BETA functionality. Full restriction data is not available in all areas. In **calculateReachableRange** requests, the values bicycle and pedestrian must not be used.",
"required": false,
"type": "string",
"default": "car",
"enum": [
"car",
"truck",
"taxi",
"bus",
"van",
"motorcycle",
"bicycle",
"pedestrian"
],
"x-ms-enum": {
"name": "TravelMode",
"modelAsString": true,
"values": [
{
"value": "car",
"description": "The returned routes are optimized for cars."
},
{
"value": "truck",
"description": "The returned routes are optimized for commercial vehicles, like for trucks."
},
{
"value": "taxi",
"description": "The returned routes are optimized for taxis. BETA functionality."
},
{
"value": "bus",
"description": "The returned routes are optimized for buses, including the use of bus only lanes. BETA functionality."
},
{
"value": "van",
"description": "The returned routes are optimized for vans. BETA functionality."
},
{
"value": "motorcycle",
"description": "The returned routes are optimized for motorcycles. BETA functionality."
},
{
"value": "bicycle",
"description": "The returned routes are optimized for bicycles, including use of bicycle lanes."
},
{
"value": "pedestrian",
"description": "The returned routes are optimized for pedestrians, including the use of sidewalks."
}
]
},
"x-ms-parameter-location": "method"
},
"Avoid": {
"name": "avoid",
"in": "query",
"description": "Specifies something that the route calculation should try to avoid when determining the route. Can be specified multiple times in one request, for example, '&avoid=motorways&avoid=tollRoads&avoid=ferries'. In calculateReachableRange requests, the value alreadyUsedRoads must not be used.",
"required": false,
"type": "string",
"enum": [
"tollRoads",
"motorways",
"ferries",
"unpavedRoads",
"carpools",
"alreadyUsedRoads",
"borderCrossings"
],
"x-ms-enum": {
"name": "Avoid",
"modelAsString": true,
"values": [
{
"value": "tollRoads",
"description": "Avoids toll roads."
},
{
"value": "motorways",
"description": "Avoids motorways"
},
{
"value": "ferries",
"description": "Avoids ferries"
},
{
"value": "unpavedRoads",
"description": "Avoids unpaved roads"
},
{
"value": "carpools",
"description": "Avoids routes that require the use of carpool (HOV/High Occupancy Vehicle) lanes."
},
{
"value": "alreadyUsedRoads",
"description": "Avoids using the same road multiple times. Most useful in conjunction with `routeType`=thrilling."
},
{
"value": "borderCrossings",
"description": "Avoids border crossings in route calculation."
}
]
},
"x-ms-parameter-location": "method"
},
"VehicleEngineType": {
"name": "vehicleEngineType",
"in": "query",
"description": "Engine type of the vehicle. When a detailed Consumption Model is specified, it must be consistent with the value of **vehicleEngineType**.",
"required": false,
"type": "string",
"enum": [
"combustion",
"electric"
],
"default": "combustion",
"x-ms-enum": {
"name": "VehicleEngineType",
"modelAsString": true,
"values": [
{
"value": "combustion",
"description": "Internal combustion engine."
},
{
"value": "electric",
"description": "Electric engine."
}
]
},
"x-ms-parameter-location": "method"
},
"ConstantSpeedConsumptionInLitersPerHundredkm": {
"name": "constantSpeedConsumptionInLitersPerHundredkm",
"in": "query",
"description": "\n\nSpecifies the speed-dependent component of consumption.\n\nProvided as an unordered list of colon-delimited speed & consumption-rate pairs. The list defines points on a consumption curve. Consumption rates for speeds not in the list are found as follows:\n\n * by linear interpolation, if the given speed lies in between two speeds in the list\n\n * by linear extrapolation otherwise, assuming a constant (ΔConsumption/ΔSpeed) determined by the nearest two points in the list\n\nThe list must contain between 1 and 25 points (inclusive), and may not contain duplicate points for the same speed. If it only contains a single point, then the consumption rate of that point is used without further processing.\n\nConsumption specified for the largest speed must be greater than or equal to that of the penultimate largest speed. This ensures that extrapolation does not lead to negative consumption rates.\n\nSimilarly, consumption values specified for the two smallest speeds in the list cannot lead to a negative consumption rate for any smaller speed.\n\nThe valid range for the consumption values(expressed in l/100km) is between 0.01 and 100000.0.\n\nSensible Values : 50,6.3:130,11.5\n\n**Note** : This parameter is required for **The Combustion Consumption Model**.",
"required": false,
"type": "number",
"format": "float",
"x-ms-parameter-location": "method"
},
"CurrentFuelInLiters": {
"name": "currentFuelInLiters",
"in": "query",
"description": "Specifies the current supply of fuel in liters.\n\nSensible Values : 55",
"required": false,
"type": "number",
"format": "float",
"x-ms-parameter-location": "method"
},
"AuxiliaryPowerInLitersPerHour": {
"name": "auxiliaryPowerInLitersPerHour",
"in": "query",
"description": "Specifies the amount of fuel consumed for sustaining auxiliary systems of the vehicle, in liters per hour.\n\nIt can be used to specify consumption due to devices and systems such as AC systems, radio, heating, etc.\n\nSensible Values : 0.2",
"required": false,
"type": "number",
"format": "float",
"x-ms-parameter-location": "method"
},
"FuelEnergyDensityInMJoulesPerLiter": {
"name": "fuelEnergyDensityInMJoulesPerLiter",
"in": "query",
"description": "Specifies the amount of chemical energy stored in one liter of fuel in megajoules (MJ). It is used in conjunction with the ***Efficiency** parameters for conversions between saved or consumed energy and fuel. For example, energy density is 34.2 MJ/l for gasoline, and 35.8 MJ/l for Diesel fuel.\n\nThis parameter is required if any ***Efficiency** parameter is set.\n\nSensible Values : 34.2",
"required": false,
"type": "number",
"format": "float",
"x-ms-parameter-location": "method"
},
"AccelerationEfficiency": {
"name": "accelerationEfficiency",
"in": "query",
"description": "Specifies the efficiency of converting chemical energy stored in fuel to kinetic energy when the vehicle accelerates _(i.e. KineticEnergyGained/ChemicalEnergyConsumed). ChemicalEnergyConsumed_ is obtained by converting consumed fuel to chemical energy using **fuelEnergyDensityInMJoulesPerLiter**.\n\nMust be paired with **decelerationEfficiency**.\n\nThe range of values allowed are 0.0 to 1/**decelerationEfficiency**.\n\nSensible Values : for **Combustion Model** : 0.33, for **Electric Model** : 0.66",
"required": false,
"type": "number",
"format": "float",
"x-ms-parameter-location": "method"
},
"DecelerationEfficiency": {
"name": "decelerationEfficiency",
"in": "query",
"description": "Specifies the efficiency of converting kinetic energy to saved (not consumed) fuel when the vehicle decelerates _(i.e. ChemicalEnergySaved/KineticEnergyLost). ChemicalEnergySaved_ is obtained by converting saved (not consumed) fuel to energy using **fuelEnergyDensityInMJoulesPerLiter**.\n\nMust be paired with **accelerationEfficiency**.\n\nThe range of values allowed are 0.0 to 1/**accelerationEfficiency**.\n\nSensible Values : for **Combustion Model** : 0.83, for **Electric Model** : 0.91",
"required": false,
"type": "number",
"format": "float",
"x-ms-parameter-location": "method"
},
"UphillEfficiency": {
"name": "uphillEfficiency",
"in": "query",
"description": "Specifies the efficiency of converting chemical energy stored in fuel to potential energy when the vehicle gains elevation _(i.e. PotentialEnergyGained/ChemicalEnergyConsumed). ChemicalEnergyConsumed_ is obtained by converting consumed fuel to chemical energy using **fuelEnergyDensityInMJoulesPerLiter**.\n\nMust be paired with **downhillEfficiency**.\n\nThe range of values allowed are 0.0 to 1/**downhillEfficiency**.\n\nSensible Values : for **Combustion Model** : 0.27, for **Electric Model** : 0.74",
"required": false,
"type": "number",
"format": "float",
"x-ms-parameter-location": "method"
},
"DownhillEfficiency": {
"name": "downhillEfficiency",
"in": "query",
"description": "Specifies the efficiency of converting potential energy to saved (not consumed) fuel when the vehicle loses elevation _(i.e. ChemicalEnergySaved/PotentialEnergyLost). ChemicalEnergySaved_ is obtained by converting saved (not consumed) fuel to energy using **fuelEnergyDensityInMJoulesPerLiter**.\n\nMust be paired with **uphillEfficiency**.\n\nThe range of values allowed are 0.0 to 1/**uphillEfficiency**.\n\nSensible Values : for **Combustion Model** : 0.51, for **Electric Model** : 0.73",
"required": false,
"type": "number",
"format": "float",
"x-ms-parameter-location": "method"
},
"ConstantSpeedConsumptionInkWhPerHundredkm": {
"name": "constantSpeedConsumptionInkWhPerHundredkm",
"in": "query",
"description": "Specifies the speed-dependent component of consumption.\n\nProvided as an unordered list of speed/consumption-rate pairs. The list defines points on a consumption curve. Consumption rates for speeds not in the list are found as follows:\n\n* by linear interpolation, if the given speed lies in between two speeds in the list\n\n* by linear extrapolation otherwise, assuming a constant (ΔConsumption/ΔSpeed) determined by the nearest two points in the list\n\nThe list must contain between 1 and 25 points (inclusive), and may not contain duplicate points for the same speed. If it only contains a single point, then the consumption rate of that point is used without further processing.\n\nConsumption specified for the largest speed must be greater than or equal to that of the penultimate largest speed. This ensures that extrapolation does not lead to negative consumption rates.\n\nSimilarly, consumption values specified for the two smallest speeds in the list cannot lead to a negative consumption rate for any smaller speed.\n\nThe valid range for the consumption values(expressed in kWh/100km) is between 0.01 and 100000.0.\n\nSensible Values : 50,8.2:130,21.3\n\nThis parameter is required for **Electric consumption model**.",
"required": false,
"type": "string",
"x-ms-parameter-location": "method"
},
"CurrentChargeInkWh": {
"name": "currentChargeInkWh",
"in": "query",
"description": "Specifies the current electric energy supply in kilowatt hours (kWh).\n\nThis parameter co-exists with **maxChargeInkWh** parameter.\n\nThe range of values allowed are 0.0 to **maxChargeInkWh**.\n\nSensible Values : 43",
"required": false,
"type": "string",
"x-ms-parameter-location": "method"
},
"MaxChargeInkWh": {
"name": "maxChargeInkWh",
"in": "query",
"description": "Specifies the maximum electric energy supply in kilowatt hours (kWh) that may be stored in the vehicle's battery.\n\nThis parameter co-exists with **currentChargeInkWh** parameter.\n\nMinimum value has to be greater than or equal to **currentChargeInkWh**.\n\nSensible Values : 85",
"required": false,
"type": "string",
"x-ms-parameter-location": "method"
},
"AuxiliaryPowerInkW": {
"name": "auxiliaryPowerInkW",
"in": "query",
"description": "Specifies the amount of power consumed for sustaining auxiliary systems, in kilowatts (kW).\n\nIt can be used to specify consumption due to devices and systems such as AC systems, radio, heating, etc.\n\nSensible Values : 1.7",
"required": false,
"type": "string",
"x-ms-parameter-location": "method"
},
"VehicleWeightMatrix": {
"name": "vehicleWeight",
"in": "query",
"description": "Weight of the vehicle in kilograms.",
"required": false,
"type": "integer",
"default": 0,
"x-ms-parameter-location": "method"
},
"VehicleWeight": {
"name": "vehicleWeight",
"in": "query",
"description": "Weight of the vehicle in kilograms.\n\n* It is mandatory if any of the *Efficiency parameters are set.\n\n* It must be strictly positive when used in the context of the Consumption Model. Weight restrictions are considered.\n\n* If no detailed **Consumption Model** is specified and the value of **vehicleWeight** is non-zero, then weight restrictions are considered.\n\n* In all other cases, this parameter is ignored.\n\nSensible Values : for **Combustion Model** : 1600, for **Electric Model** : 1900",
"required": false,
"type": "integer",
"default": 0,
"x-ms-parameter-location": "method"
},
"VehicleMaxSpeed": {
"name": "vehicleMaxSpeed",
"in": "query",
"description": "Maximum speed of the vehicle in km/hour. The max speed in the vehicle profile is used to check whether a vehicle is allowed on motorways. \n\n* A value of 0 means that an appropriate value for the vehicle will be determined and applied during route planning.\n\n* A non-zero value may be overridden during route planning. For example, the current traffic flow is 60 km/hour. If the vehicle maximum speed is set to 50 km/hour, the routing engine will consider 60 km/hour as this is the current situation. If the maximum speed of the vehicle is provided as 80 km/hour but the current traffic flow is 60 km/hour, then routing engine will again use 60 km/hour.",
"required": false,
"type": "integer",
"default": 0,
"x-ms-parameter-location": "method"
},
"VehicleLength": {
"name": "vehicleLength",
"in": "query",
"description": "Length of the vehicle in meters. A value of 0 means that length restrictions are not considered.",
"required": false,
"type": "number",
"format": "float",
"default": 0,
"x-ms-parameter-location": "method"
},
"VehicleHeight": {
"name": "vehicleHeight",
"in": "query",
"description": "Height of the vehicle in meters. A value of 0 means that height restrictions are not considered.",
"required": false,
"type": "number",
"format": "float",
"default": 0,
"x-ms-parameter-location": "method"
},
"VehicleWidth": {
"name": "vehicleWidth",
"in": "query",
"description": "Width of the vehicle in meters. A value of 0 means that width restrictions are not considered.",
"required": false,
"type": "number",
"format": "float",
"default": 0,
"x-ms-parameter-location": "method"
},
"VehicleAxleWeight": {
"name": "vehicleAxleWeight",
"in": "query",
"description": "Weight per axle of the vehicle in kg. A value of 0 means that weight restrictions per axle are not considered.",
"required": false,
"type": "integer",
"default": 0,
"x-ms-parameter-location": "method"
},
"VehicleCommercial": {
"name": "vehicleCommercial",
"in": "query",
"description": "Vehicle is used for commercial purposes and thus may not be allowed to drive on some roads.",
"required": false,
"type": "boolean",
"default": false,
"x-ms-parameter-location": "method"
},
"DepartAt": {
"name": "departAt",
"in": "query",
"description": "The date and time of departure from the origin point. Departure times apart from now must be specified as a dateTime. When a time zone offset is not specified, it will be assumed to be that of the origin point. The departAt value must be in the future in the date-time format (1996-12-19T16:39:57-08:00).",
"type": "string",
"format": "date-time",
"required": false,
"x-ms-parameter-location": "method"
},
"ArriveAt": {
"name": "arriveAt",
"in": "query",
"description": "The date and time of arrival at the destination point. It must be specified as a dateTime. When a time zone offset is not specified it will be assumed to be that of the destination point. The arriveAt value must be in the future. The arriveAt parameter cannot be used in conjunction with departAt, minDeviationDistance or minDeviationTime.",
"type": "string",
"format": "date-time",
"required": false,
"x-ms-parameter-location": "method"
},
"SectionType": {
"name": "sectionType",
"in": "query",
"description": "Specifies which of the section types is reported in the route response. <br><br>For example if sectionType = pedestrian the sections which are suited for pedestrians only are returned. Multiple types can be used. The default sectionType refers to the travelMode input. By default travelMode is set to car",
"required": false,
"type": "string",
"default": "travelMode",
"enum": [
"carTrain",
"country",
"ferry",
"motorway",
"pedestrian",
"tollRoad",
"tollVignette",
"traffic",
"travelMode",
"tunnel"
],
"x-ms-enum": {
"name": "SectionType",
"modelAsString": true,
"values": [
{
"value": "carTrain",
"description": "Get sections if the route includes car trains."
},
{
"value": "country",
"description": "countries/regions the route has parts in."
},
{
"value": "ferry",
"description": "Get sections if the route includes ferries."
},
{
"value": "motorway",
"description": "Get sections if the route includes motorways."
},
{
"value": "pedestrian",
"description": "Get sections which are suited for pedestrians."
},
{
"value": "tollRoad",
"description": "Get sections which require a toll to be payed."
},
{
"value": "tollVignette",
"description": "Get sections which require a toll vignette to be present."
},
{
"value": "traffic",
"description": "Get sections which contain traffic information."
},
{
"value": "travelMode",
"description": "Get sections in relation to the request parameter `travelMode`."
},
{
"value": "tunnel",
"description": "Get sections if the route includes tunnels."
}
]
},
"x-ms-parameter-location": "method"
},
"ComputeBestOrder": {
"name": "computeBestOrder",
"in": "query",
"description": "Re-order the route waypoints using a fast heuristic algorithm to reduce the route length. Yields best results when used in conjunction with routeType _shortest_. Notice that origin and destination are excluded from the optimized waypoint indices. To include origin and destination in the response, please increase all the indices by 1 to account for the origin, and then add the destination as the final index. Possible values are true or false. True computes a better order if possible, but is not allowed to be used in conjunction with maxAlternatives value greater than 0 or in conjunction with circle waypoints. False will use the locations in the given order and not allowed to be used in conjunction with routeRepresentation _none_.",
"required": false,
"type": "boolean",
"default": false,
"x-ms-parameter-location": "method"
},
"RouteRepresentation": {
"name": "routeRepresentation",
"in": "query",
"description": "Specifies the representation of the set of routes provided as response. This parameter value can only be used in conjunction with computeBestOrder=true.",
"required": false,
"type": "string",
"default": "polyline",
"enum": [
"polyline",
"summaryOnly",
"none"
],
"x-ms-enum": {
"name": "RouteRepresentation",
"modelAsString": true,
"values": [
{
"value": "polyline",
"description": "Includes route geometry in the response."
},
{
"value": "summaryOnly",
"description": "Summary as per polyline but excluding the point geometry elements for the routes in the response."
},
{
"value": "none",
"description": "Includes only the optimized waypoint indices but does not include the route geometry in the response."
}
]
},
"x-ms-parameter-location": "method"
},
"ComputeTravelTimeFor": {
"name": "computeTravelTimeFor",
"in": "query",
"description": "Specifies whether to return additional travel times using different types of traffic information (none, historic, live) as well as the default best-estimate travel time.",
"required": false,
"type": "string",
"default": "none",
"enum": [
"none",
"all"
],
"x-ms-enum": {
"name": "ComputeTravelTimeFor",
"modelAsString": true,
"values": [
{
"value": "none",
"description": "Does not compute additional travel times."
},
{
"value": "all",
"description": "Computes travel times for all types of traffic information and specifies all results in the fields noTrafficTravelTimeInSeconds, historicTrafficTravelTimeInSeconds and liveTrafficIncidentsTravelTimeInSeconds being included in the summaries in the route response."
}
]
},
"x-ms-parameter-location": "method"
},
"VehicleHeading": {
"name": "vehicleHeading",
"in": "query",
"description": "The directional heading of the vehicle in degrees starting at true North and continuing in clockwise direction. North is 0 degrees, east is 90 degrees, south is 180 degrees, west is 270 degrees. Possible values 0-359",
"required": false,
"type": "integer",
"minimum": 0,
"maximum": 359,
"x-ms-parameter-location": "method"
},
"Report": {
"name": "report",
"in": "query",
"description": "Specifies which data should be reported for diagnosis purposes. The only possible value is _effectiveSettings_. Reports the effective parameters or data used when calling the API. In the case of defaulted parameters the default will be reflected where the parameter was not specified by the caller.",
"required": false,
"type": "string",
"x-ms-parameter-location": "method"
},
"Traffic": {
"name": "traffic",
"in": "query",
"description": "Possible values: \n * true - Do consider all available traffic information during routing\n * false - Ignore current traffic data during routing. Note that although the current traffic data is ignored \n during routing, the effect of historic traffic on effective road speeds is still incorporated.",
"required": false,
"type": "boolean",
"default": true,
"x-ms-parameter-location": "method"
},
"AlternativeRouteType": {
"name": "alternativeType",
"in": "query",
"description": "Controls the optimality, with respect to the given planning criteria, of the calculated alternatives compared to the reference route.",
"required": false,
"type": "string",
"default": "anyRoute",
"enum": [
"anyRoute",
"betterRoute"
],
"x-ms-enum": {
"name": "AlternativeRouteType",
"modelAsString": true,
"values": [
{
"value": "anyRoute",
"description": "Allow any alternative route to be returned irrespective of how it compares to the reference route in terms of optimality."
},
{
"value": "betterRoute",
"description": "Return an alternative route only if it is better than the reference route according to the given planning criteria."
}
]
},
"x-ms-parameter-location": "method"
},
"RouteInstructionsType": {
"name": "instructionsType",
"in": "query",
"description": "If specified, guidance instructions will be returned. Note that the instructionsType parameter cannot be used in conjunction with routeRepresentation=none",
"required": false,
"type": "string",
"enum": [
"coded",
"text",
"tagged"
],
"x-ms-enum": {
"name": "RouteInstructionsType",
"modelAsString": true,
"values": [
{
"value": "coded",
"description": "Returns raw instruction data without human-readable messages."
},
{
"value": "text",
"description": "Returns raw instructions data with human-readable messages in plain text."
},
{
"value": "tagged",
"description": "Returns raw instruction data with tagged human-readable messages to permit formatting. A human-readable message is built up from repeatable identified elements. These are tagged to allow client applications to format them correctly. The following message components are tagged when instructionsType=tagged: street, roadNumber, signpostText, exitNumber, roundaboutExitNumber.\n\nExample of tagged 'Turn left' message:\n\n```\nTurn left onto <roadNumber>A4</roadNumber>/<roadNumber>E19</roadNumber>\ntowards <signpostText>Den Haag</signpostText>\n```"
}
]
},
"x-ms-parameter-location": "method"
}
},
"paths": {
"/route/matrix/{format}": {
"post": {
"x-publish": true,
"description": "\n\n**Applies to**: S1 pricing tier.\n\nThe Matrix Routing service allows calculation of a matrix of route summaries for a set of routes defined by origin and destination locations by using an asynchronous (async) or synchronous (sync) POST request. For every given origin, the service calculates the cost of routing from that origin to every given destination. The set of origins and the set of destinations can be thought of as the column and row headers of a table and each cell in the table contains the costs of routing from the origin to the destination for that cell. As an example, let's say a food delivery company has 20 drivers and they need to find the closest driver to pick up the delivery from the restaurant. To solve this use case, they can call Matrix Route API.\n\n\nFor each route, the travel times and distances are returned. You can use the computed costs to determine which detailed routes to calculate using the Route Directions API.\n\n\nThe maximum size of a matrix for async request is **700** and for sync request it's **100** (the number of origins multiplied by the number of destinations).\n\n\n\n### Submit Synchronous Route Matrix Request\nIf your scenario requires synchronous requests and the maximum size of the matrix is less than or equal to 100, you might want to make synchronous request. The maximum size of a matrix for this API is **100** (the number of origins multiplied by the number of destinations). With that constraint in mind, examples of possible matrix dimensions are: 10x10, 6x8, 9x8 (it does not need to be square).\n\n```\nPOST https://atlas.microsoft.com/route/matrix/sync/json?api-version=1.0&subscription-key={subscription-key}\n```\n\n### Submit Asynchronous Route Matrix Request\nThe Asynchronous API is appropriate for processing big volumes of relatively complex routing requests. When you make a request by using async request, by default the service returns a 202 response code along a redirect URL in the Location field of the response header. This URL should be checked periodically until the response data or error information is available. If `waitForResults` parameter in the request is set to true, user will get a 200 response if the request is finished under 120 seconds.\n\n\nThe maximum size of a matrix for this API is **700** (the number of origins multiplied by the number of destinations). With that constraint in mind, examples of possible matrix dimensions are: 50x10, 10x10, 28x25. 10x70 (it does not need to be square).\n\n\nThe asynchronous responses are stored for **14** days. The redirect URL returns a 404 response if used after the expiration period.\n\n\n\n\n```\nPOST https://atlas.microsoft.com/route/matrix/json?api-version=1.0&subscription-key={subscription-key}\n```\n\nHere's a typical sequence of asynchronous operations:\n1. Client sends a Route Matrix POST request to Azure Maps\n\n2. The server will respond with one of the following:\n\n > HTTP `202 Accepted` - Route Matrix request has been accepted.\n\n > HTTP `Error` - There was an error processing your Route Matrix request. This could either be a 400 Bad Request or any other Error status code.\n\n\n3. If the Matrix Route request was accepted successfully, the Location header in the response contains the URL to download the results of the request. This status URI looks like the following:\n\n ```\n GET https://atlas.microsoft.com/route/matrix/{matrixId}?api-version=1.0?subscription-key={subscription-key}\n ```\n\n\n4. Client issues a GET request on the download URL obtained in Step 3 to download the results\n\n### Download Sync Results\nWhen you make a POST request for Route Matrix Sync API, the service returns 200 response code for successful request and a response array. The response body will contain the data and there will be no possibility to retrieve the results later.\n\n### Download Async Results\nWhen a request issues a `202 Accepted` response, the request is being processed using our async pipeline. You will be given a URL to check the progress of your async request in the location header of the response. This status URI looks like the following:\n```\n GET https://atlas.microsoft.com/route/matrix/{matrixId}?api-version=1.0?subscription-key={subscription-key}\n```\n\nThe URL provided by the location header will return the following responses when a `GET` request is issued.\n\n > HTTP `202 Accepted` - Matrix request was accepted but is still being processed. Please try again in some time.\n\n > HTTP `200 OK` - Matrix request successfully processed. The response body contains all of the results.",
"operationId": "Route_PostRouteMatrix",
"x-ms-long-running-operation": true,
"x-ms-long-running-operation-options": {
"final-state-via": "location"
},
"x-ms-examples": {
"MatrixRoute": {
"$ref": "./examples/PostMatrixRouteCalculate.json"
}
},
"parameters": [
{
"$ref": "#/parameters/ClientId"
},
{
"$ref": "#/parameters/SubscriptionKey"
},
{
"$ref": "#/parameters/ApiVersion"
},
{
"$ref": "#/parameters/JsonFormat"
},
{
"name": "waitForResults",
"in": "query",
"description": "Boolean to indicate whether to execute the request synchronously. If set to true, user will get a 200 response if the request is finished under 120 seconds. Otherwise, user will get a 202 response right away. Please refer to the API description for more details on 202 response. **Supported only for async request**.",
"required": false,
"type": "boolean",
"default": false
},
{
"$ref": "#/parameters/ComputeTravelTimeFor"
},
{
"$ref": "#/parameters/SectionType"
},
{
"$ref": "#/parameters/ArriveAt"
},
{
"$ref": "#/parameters/DepartAt"
},
{
"$ref": "#/parameters/VehicleAxleWeight"
},
{
"$ref": "#/parameters/VehicleLength"
},
{
"$ref": "#/parameters/VehicleHeight"
},
{
"$ref": "#/parameters/VehicleWidth"
},
{
"$ref": "#/parameters/VehicleMaxSpeed"
},
{
"$ref": "#/parameters/VehicleWeightMatrix"
},
{
"$ref": "#/parameters/Windingness"
},
{
"$ref": "#/parameters/Hilliness"
},
{
"$ref": "#/parameters/TravelMode"
},
{
"$ref": "#/parameters/Avoid"
},
{
"$ref": "#/parameters/Traffic"
},
{
"$ref": "#/parameters/RouteType"
},
{
"$ref": "#/parameters/VehicleLoadType"
},
{
"name": "routeMatrixBody",