chiu
/
google-api-ruby-client
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
google-api-ruby-client/google-api-client/generated/google/apis/vectortile_v1/classes.rb

855 lines
39 KiB
Ruby
Raw Blame History

# Copyright 2015 Google Inc.
#
# Licensed 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.
require 'date'
require 'google/apis/core/base_service'
require 'google/apis/core/json_representation'
require 'google/apis/core/hashable'
require 'google/apis/errors'
module Google
module Apis
module VectortileV1
# Represents an area. Used to represent regions such as water, parks, etc. Next
# ID: 10
class Area
include Google::Apis::Core::Hashable
# Metadata necessary to determine the ordering of a particular basemap element
# relative to others. To render the basemap correctly, sort by z-plane, then z-
# grade, then z-within-grade.
# Corresponds to the JSON property `basemapZOrder`
# @return [Google::Apis::VectortileV1::BasemapZOrder]
attr_accessor :basemap_z_order
# True if the polygon is not entirely internal to the feature that it belongs to:
# that is, some of the edges are bordering another feature.
# Corresponds to the JSON property `hasExternalEdges`
# @return [Boolean]
attr_accessor :has_external_edges
alias_method :has_external_edges?, :has_external_edges
# When has_external_edges is true, the polygon has some edges that border
# another feature. This field indicates the internal edges that do not border
# another feature. Each value is an index into the vertices array, and denotes
# the start vertex of the internal edge (the next vertex in the boundary loop is
# the end of the edge). If the selected vertex is the last vertex in the
# boundary loop, then the edge between that vertex and the starting vertex of
# the loop is internal. This field may be used for styling. For example,
# building parapets could be placed only on the external edges of a building
# polygon, or water could be lighter colored near the external edges of a body
# of water. If has_external_edges is false, all edges are internal and this
# field will be empty.
# Corresponds to the JSON property `internalEdges`
# @return [Array<Fixnum>]
attr_accessor :internal_edges
# Identifies the boundary loops of the polygon. Only set for INDEXED_TRIANGLE
# polygons. Each value is an index into the vertices array indicating the
# beginning of a loop. For instance, values of [2, 5] would indicate loop_data
# contained 3 loops with indices 0-1, 2-4, and 5-end. This may be used in
# conjunction with the internal_edges field for styling polygon boundaries. Note
# that an edge may be on a polygon boundary but still internal to the feature.
# For example, a feature split across multiple tiles will have an internal
# polygon boundary edge along the edge of the tile.
# Corresponds to the JSON property `loopBreaks`
# @return [Array<Fixnum>]
attr_accessor :loop_breaks
# When the polygon encoding is of type INDEXED_TRIANGLES, this contains the
# indices of the triangle vertices in the vertex_offsets field. There are 3
# vertex indices per triangle.
# Corresponds to the JSON property `triangleIndices`
# @return [Array<Fixnum>]
attr_accessor :triangle_indices
# The polygon encoding type used for this area.
# Corresponds to the JSON property `type`
# @return [String]
attr_accessor :type
# 2D vertex list used for lines and areas. Each entry represents an offset from
# the previous one in local tile coordinates. The first entry is offset from (0,
# 0). For example, the list of vertices [(1,1), (2, 2), (1, 2)] would be encoded
# in vertex offsets as [(1, 1), (1, 1), (-1, 0)].
# Corresponds to the JSON property `vertexOffsets`
# @return [Google::Apis::VectortileV1::Vertex2DList]
attr_accessor :vertex_offsets
# The z-ordering of this area. Areas with a lower z-order should be rendered
# beneath areas with a higher z-order. This z-ordering does not imply anything
# about the altitude of the line relative to the ground, but it can be used to
# prevent z-fighting during rendering on the client. This z-ordering can only be
# used to compare areas, and cannot be compared with the z_order field in the
# Line message. The z-order may be negative or zero. Prefer Area.basemap_z_order.
# Corresponds to the JSON property `zOrder`
# @return [Fixnum]
attr_accessor :z_order
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@basemap_z_order = args[:basemap_z_order] if args.key?(:basemap_z_order)
@has_external_edges = args[:has_external_edges] if args.key?(:has_external_edges)
@internal_edges = args[:internal_edges] if args.key?(:internal_edges)
@loop_breaks = args[:loop_breaks] if args.key?(:loop_breaks)
@triangle_indices = args[:triangle_indices] if args.key?(:triangle_indices)
@type = args[:type] if args.key?(:type)
@vertex_offsets = args[:vertex_offsets] if args.key?(:vertex_offsets)
@z_order = args[:z_order] if args.key?(:z_order)
end
end
# Metadata necessary to determine the ordering of a particular basemap element
# relative to others. To render the basemap correctly, sort by z-plane, then z-
# grade, then z-within-grade.
class BasemapZOrder
include Google::Apis::Core::Hashable
# The second most significant component of the ordering of a component to be
# rendered onto the basemap.
# Corresponds to the JSON property `zGrade`
# @return [Fixnum]
attr_accessor :z_grade
# The most significant component of the ordering of a component to be rendered
# onto the basemap.
# Corresponds to the JSON property `zPlane`
# @return [Fixnum]
attr_accessor :z_plane
# The least significant component of the ordering of a component to be rendered
# onto the basemap.
# Corresponds to the JSON property `zWithinGrade`
# @return [Fixnum]
attr_accessor :z_within_grade
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@z_grade = args[:z_grade] if args.key?(:z_grade)
@z_plane = args[:z_plane] if args.key?(:z_plane)
@z_within_grade = args[:z_within_grade] if args.key?(:z_within_grade)
end
end
# Represents a height-extruded area: a 3D prism with a constant X-Y plane cross
# section. Used to represent extruded buildings. A single building may consist
# of several extruded areas. The min_z and max_z fields are scaled to the size
# of the tile. An extruded area with a max_z value of 4096 has the same height
# as the width of the tile that it is on.
class ExtrudedArea
include Google::Apis::Core::Hashable
# Represents an area. Used to represent regions such as water, parks, etc. Next
# ID: 10
# Corresponds to the JSON property `area`
# @return [Google::Apis::VectortileV1::Area]
attr_accessor :area
# The z-value in local tile coordinates where the extruded area ends.
# Corresponds to the JSON property `maxZ`
# @return [Fixnum]
attr_accessor :max_z
# The z-value in local tile coordinates where the extruded area begins. This is
# non-zero for extruded areas that begin off the ground. For example, a building
# with a skybridge may have an extruded area component with a non-zero min_z.
# Corresponds to the JSON property `minZ`
# @return [Fixnum]
attr_accessor :min_z
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@area = args[:area] if args.key?(:area)
@max_z = args[:max_z] if args.key?(:max_z)
@min_z = args[:min_z] if args.key?(:min_z)
end
end
# A feature representing a single geographic entity.
class Feature
include Google::Apis::Core::Hashable
# The localized name of this feature. Currently only returned for roads.
# Corresponds to the JSON property `displayName`
# @return [String]
attr_accessor :display_name
# Represents the geometry of a feature, that is, the shape that it has on the
# map. The local tile coordinate system has the origin at the north-west (upper-
# left) corner of the tile, and is scaled to 4096 units across each edge. The
# height (Z) axis has the same scale factor: an extruded area with a max_z value
# of 4096 has the same height as the width of the tile that it is on. There is
# no clipping boundary, so it is possible that some coordinates will lie outside
# the tile boundaries.
# Corresponds to the JSON property `geometry`
# @return [Google::Apis::VectortileV1::Geometry]
attr_accessor :geometry
# Place ID of this feature, suitable for use in Places API details requests.
# Corresponds to the JSON property `placeId`
# @return [String]
attr_accessor :place_id
# Relations to other features.
# Corresponds to the JSON property `relations`
# @return [Array<Google::Apis::VectortileV1::Relation>]
attr_accessor :relations
# Extra metadata relating to segments.
# Corresponds to the JSON property `segmentInfo`
# @return [Google::Apis::VectortileV1::SegmentInfo]
attr_accessor :segment_info
# The type of this feature.
# Corresponds to the JSON property `type`
# @return [String]
attr_accessor :type
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@display_name = args[:display_name] if args.key?(:display_name)
@geometry = args[:geometry] if args.key?(:geometry)
@place_id = args[:place_id] if args.key?(:place_id)
@relations = args[:relations] if args.key?(:relations)
@segment_info = args[:segment_info] if args.key?(:segment_info)
@type = args[:type] if args.key?(:type)
end
end
# A tile containing information about the map features located in the region it
# covers.
class FeatureTile
include Google::Apis::Core::Hashable
# Global tile coordinates. Global tile coordinates reference a specific tile on
# the map at a specific zoom level. The origin of this coordinate system is
# always at the northwest corner of the map, with x values increasing from west
# to east and y values increasing from north to south. Tiles are indexed using x,
# y coordinates from that origin. The zoom level containing the entire world in
# a tile is 0, and it increases as you zoom in. Zoom level n + 1 will contain 4
# times as many tiles as zoom level n. The zoom level controls the level of
# detail of the data that is returned. In particular, this affects the set of
# feature types returned, their density, and geometry simplification. The exact
# tile contents may change over time, but care will be taken to keep supporting
# the most important use cases. For example, zoom level 15 shows roads for
# orientation and planning in the local neighborhood and zoom level 17 shows
# buildings to give users on foot a sense of situational awareness.
# Corresponds to the JSON property `coordinates`
# @return [Google::Apis::VectortileV1::TileCoordinates]
attr_accessor :coordinates
# Features present on this map tile.
# Corresponds to the JSON property `features`
# @return [Array<Google::Apis::VectortileV1::Feature>]
attr_accessor :features
# Resource name of the tile. The tile resource name is prefixed by its
# collection ID `tiles/` followed by the resource ID, which encodes the tile's
# global x and y coordinates and zoom level as `@,,z`. For example, `tiles/@1,2,
# 3z`.
# Corresponds to the JSON property `name`
# @return [String]
attr_accessor :name
# Data providers for the data contained in this tile.
# Corresponds to the JSON property `providers`
# @return [Array<Google::Apis::VectortileV1::ProviderInfo>]
attr_accessor :providers
# Tile response status code to support tile caching.
# Corresponds to the JSON property `status`
# @return [String]
attr_accessor :status
# An opaque value, usually less than 30 characters, that contains version info
# about this tile and the data that was used to generate it. The client should
# store this value in its tile cache and pass it back to the API in the
# client_tile_version_id field of subsequent tile requests in order to enable
# the API to detect when the new tile would be the same as the one the client
# already has in its cache. Also see STATUS_OK_DATA_UNCHANGED.
# Corresponds to the JSON property `versionId`
# @return [String]
attr_accessor :version_id
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@coordinates = args[:coordinates] if args.key?(:coordinates)
@features = args[:features] if args.key?(:features)
@name = args[:name] if args.key?(:name)
@providers = args[:providers] if args.key?(:providers)
@status = args[:status] if args.key?(:status)
@version_id = args[:version_id] if args.key?(:version_id)
end
end
# A packed representation of a 2D grid of uniformly spaced points containing
# elevation data. Each point within the grid represents the altitude in meters
# above average sea level at that location within the tile. Elevations provided
# are (generally) relative to the EGM96 geoid, however some areas will be
# relative to NAVD88. EGM96 and NAVD88 are off by no more than 2 meters. The
# grid is oriented north-west to south-east, as illustrated: rows[0].a[0] rows[0]
# .a[m] +-----------------+ | | | N | | ^ | | | | | W <-----> E | | | | | v | |
# S | | | +-----------------+ rows[n].a[0] rows[n].a[m] Rather than storing the
# altitudes directly, we store the diffs between them as integers at some
# requested level of precision to take advantage of integer packing. The actual
# altitude values a[] can be reconstructed using the scale and each row's
# first_altitude and altitude_diff fields.
class FirstDerivativeElevationGrid
include Google::Apis::Core::Hashable
# A multiplier applied to the altitude fields below to extract the actual
# altitudes in meters from the elevation grid.
# Corresponds to the JSON property `altitudeMultiplier`
# @return [Float]
attr_accessor :altitude_multiplier
# Rows of points containing altitude data making up the elevation grid. Each row
# is the same length. Rows are ordered from north to south. E.g: rows[0] is the
# north-most row, and rows[n] is the south-most row.
# Corresponds to the JSON property `rows`
# @return [Array<Google::Apis::VectortileV1::Row>]
attr_accessor :rows
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@altitude_multiplier = args[:altitude_multiplier] if args.key?(:altitude_multiplier)
@rows = args[:rows] if args.key?(:rows)
end
end
# Represents the geometry of a feature, that is, the shape that it has on the
# map. The local tile coordinate system has the origin at the north-west (upper-
# left) corner of the tile, and is scaled to 4096 units across each edge. The
# height (Z) axis has the same scale factor: an extruded area with a max_z value
# of 4096 has the same height as the width of the tile that it is on. There is
# no clipping boundary, so it is possible that some coordinates will lie outside
# the tile boundaries.
class Geometry
include Google::Apis::Core::Hashable
# The areas present in this geometry.
# Corresponds to the JSON property `areas`
# @return [Array<Google::Apis::VectortileV1::Area>]
attr_accessor :areas
# The extruded areas present in this geometry.
# Corresponds to the JSON property `extrudedAreas`
# @return [Array<Google::Apis::VectortileV1::ExtrudedArea>]
attr_accessor :extruded_areas
# The lines present in this geometry.
# Corresponds to the JSON property `lines`
# @return [Array<Google::Apis::VectortileV1::Line>]
attr_accessor :lines
# The modeled volumes present in this geometry.
# Corresponds to the JSON property `modeledVolumes`
# @return [Array<Google::Apis::VectortileV1::ModeledVolume>]
attr_accessor :modeled_volumes
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@areas = args[:areas] if args.key?(:areas)
@extruded_areas = args[:extruded_areas] if args.key?(:extruded_areas)
@lines = args[:lines] if args.key?(:lines)
@modeled_volumes = args[:modeled_volumes] if args.key?(:modeled_volumes)
end
end
# Represents a 2D polyline. Used to represent segments such as roads, train
# tracks, etc.
class Line
include Google::Apis::Core::Hashable
# Metadata necessary to determine the ordering of a particular basemap element
# relative to others. To render the basemap correctly, sort by z-plane, then z-
# grade, then z-within-grade.
# Corresponds to the JSON property `basemapZOrder`
# @return [Google::Apis::VectortileV1::BasemapZOrder]
attr_accessor :basemap_z_order
# 2D vertex list used for lines and areas. Each entry represents an offset from
# the previous one in local tile coordinates. The first entry is offset from (0,
# 0). For example, the list of vertices [(1,1), (2, 2), (1, 2)] would be encoded
# in vertex offsets as [(1, 1), (1, 1), (-1, 0)].
# Corresponds to the JSON property `vertexOffsets`
# @return [Google::Apis::VectortileV1::Vertex2DList]
attr_accessor :vertex_offsets
# The z-order of the line. Lines with a lower z-order should be rendered beneath
# lines with a higher z-order. This z-ordering does not imply anything about the
# altitude of the area relative to the ground, but it can be used to prevent z-
# fighting during rendering on the client. In general, larger and more important
# road features will have a higher z-order line associated with them. This z-
# ordering can only be used to compare lines, and cannot be compared with the
# z_order field in the Area message. The z-order may be negative or zero. Prefer
# Line.basemap_z_order.
# Corresponds to the JSON property `zOrder`
# @return [Fixnum]
attr_accessor :z_order
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@basemap_z_order = args[:basemap_z_order] if args.key?(:basemap_z_order)
@vertex_offsets = args[:vertex_offsets] if args.key?(:vertex_offsets)
@z_order = args[:z_order] if args.key?(:z_order)
end
end
# Represents a modeled volume in 3D space. Used to represent 3D buildings.
class ModeledVolume
include Google::Apis::Core::Hashable
# The triangle strips present in this mesh.
# Corresponds to the JSON property `strips`
# @return [Array<Google::Apis::VectortileV1::TriangleStrip>]
attr_accessor :strips
# 3D vertex list used for modeled volumes. Each entry represents an offset from
# the previous one in local tile coordinates. The first coordinate is offset
# from (0, 0, 0).
# Corresponds to the JSON property `vertexOffsets`
# @return [Google::Apis::VectortileV1::Vertex3DList]
attr_accessor :vertex_offsets
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@strips = args[:strips] if args.key?(:strips)
@vertex_offsets = args[:vertex_offsets] if args.key?(:vertex_offsets)
end
end
# Information about the data providers that should be included in the
# attribution string shown by the client.
class ProviderInfo
include Google::Apis::Core::Hashable
# Attribution string for this provider. This string is not localized.
# Corresponds to the JSON property `description`
# @return [String]
attr_accessor :description
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@description = args[:description] if args.key?(:description)
end
end
# Represents a relation to another feature in the tile. For example, a building
# might be occupied by a given POI. The related feature can be retrieved using
# the related feature index.
class Relation
include Google::Apis::Core::Hashable
# Zero-based index to look up the related feature from the list of features in
# the tile.
# Corresponds to the JSON property `relatedFeatureIndex`
# @return [Fixnum]
attr_accessor :related_feature_index
# Relation type between the origin feature to the related feature.
# Corresponds to the JSON property `relationType`
# @return [String]
attr_accessor :relation_type
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@related_feature_index = args[:related_feature_index] if args.key?(:related_feature_index)
@relation_type = args[:relation_type] if args.key?(:relation_type)
end
end
# Extra metadata relating to roads.
class RoadInfo
include Google::Apis::Core::Hashable
# Road has signage discouraging or prohibiting use by the general public. E.g.,
# roads with signs that say "Private", or "No trespassing."
# Corresponds to the JSON property `isPrivate`
# @return [Boolean]
attr_accessor :is_private
alias_method :is_private?, :is_private
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@is_private = args[:is_private] if args.key?(:is_private)
end
end
# A row of altitude points in the elevation grid, ordered from west to east.
class Row
include Google::Apis::Core::Hashable
# The difference between each successive pair of altitudes, from west to east.
# The first, westmost point, is just the altitude rather than a diff. The units
# are specified by the altitude_multiplier parameter above; the value in meters
# is given by altitude_multiplier * altitude_diffs[n]. The altitude row (in
# metres above sea level) can be reconstructed with: a[0] = altitude_diffs[0] *
# altitude_multiplier when n > 0, a[n] = a[n-1] + altitude_diffs[n-1] *
# altitude_multiplier.
# Corresponds to the JSON property `altitudeDiffs`
# @return [Array<Fixnum>]
attr_accessor :altitude_diffs
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@altitude_diffs = args[:altitude_diffs] if args.key?(:altitude_diffs)
end
end
# A packed representation of a 2D grid of uniformly spaced points containing
# elevation data. Each point within the grid represents the altitude in meters
# above average sea level at that location within the tile. Elevations provided
# are (generally) relative to the EGM96 geoid, however some areas will be
# relative to NAVD88. EGM96 and NAVD88 are off by no more than 2 meters. The
# grid is oriented north-west to south-east, as illustrated: rows[0].a[0] rows[0]
# .a[m] +-----------------+ | | | N | | ^ | | | | | W <-----> E | | | | | v | |
# S | | | +-----------------+ rows[n].a[0] rows[n].a[m] Rather than storing the
# altitudes directly, we store the diffs of the diffs between them as integers
# at some requested level of precision to take advantage of integer packing.
# Note that the data is packed in such a way that is fast to decode in Unity and
# that further optimizes wire size.
class SecondDerivativeElevationGrid
include Google::Apis::Core::Hashable
# A multiplier applied to the elements in the encoded data to extract the actual
# altitudes in meters.
# Corresponds to the JSON property `altitudeMultiplier`
# @return [Float]
attr_accessor :altitude_multiplier
# The number of columns included in the encoded elevation data (i.e. the
# horizontal resolution of the grid).
# Corresponds to the JSON property `columnCount`
# @return [Fixnum]
attr_accessor :column_count
# A stream of elements each representing a point on the tile running across each
# row from left to right, top to bottom. There will be precisely
# horizontal_resolution * vertical_resolution elements in the stream. The
# elements are not the heights, rather the second order derivative of the values
# one would expect in a stream of height data. Each element is a varint with the
# following encoding: -----------------------------------------------------------
# -------------| | Head Nibble | ------------------------------------------------
# ------------------------| | Bit 0 | Bit 1 | Bits 2-3 | | Terminator| Sign (1=
# neg) | Least significant 2 bits of absolute error | ---------------------------
# ---------------------------------------------| | Tail Nibble #1 | -------------
# -----------------------------------------------------------| | Bit 0 | Bit 1-3
# | | Terminator| Least significant 3 bits of absolute error | ------------------
# ------------------------------------------------------| | ... | Tail Nibble #n
# | ------------------------------------------------------------------------| |
# Bit 0 | Bit 1-3 | | Terminator| Least significant 3 bits of absolute error | --
# ----------------------------------------------------------------------|
# Corresponds to the JSON property `encodedData`
# NOTE: Values are automatically base64 encoded/decoded in the client library.
# @return [String]
attr_accessor :encoded_data
# The number of rows included in the encoded elevation data (i.e. the vertical
# resolution of the grid).
# Corresponds to the JSON property `rowCount`
# @return [Fixnum]
attr_accessor :row_count
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@altitude_multiplier = args[:altitude_multiplier] if args.key?(:altitude_multiplier)
@column_count = args[:column_count] if args.key?(:column_count)
@encoded_data = args[:encoded_data] if args.key?(:encoded_data)
@row_count = args[:row_count] if args.key?(:row_count)
end
end
# Extra metadata relating to segments.
class SegmentInfo
include Google::Apis::Core::Hashable
# Extra metadata relating to roads.
# Corresponds to the JSON property `roadInfo`
# @return [Google::Apis::VectortileV1::RoadInfo]
attr_accessor :road_info
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@road_info = args[:road_info] if args.key?(:road_info)
end
end
# A tile containing information about the terrain located in the region it
# covers.
class TerrainTile
include Google::Apis::Core::Hashable
# Global tile coordinates. Global tile coordinates reference a specific tile on
# the map at a specific zoom level. The origin of this coordinate system is
# always at the northwest corner of the map, with x values increasing from west
# to east and y values increasing from north to south. Tiles are indexed using x,
# y coordinates from that origin. The zoom level containing the entire world in
# a tile is 0, and it increases as you zoom in. Zoom level n + 1 will contain 4
# times as many tiles as zoom level n. The zoom level controls the level of
# detail of the data that is returned. In particular, this affects the set of
# feature types returned, their density, and geometry simplification. The exact
# tile contents may change over time, but care will be taken to keep supporting
# the most important use cases. For example, zoom level 15 shows roads for
# orientation and planning in the local neighborhood and zoom level 17 shows
# buildings to give users on foot a sense of situational awareness.
# Corresponds to the JSON property `coordinates`
# @return [Google::Apis::VectortileV1::TileCoordinates]
attr_accessor :coordinates
# A packed representation of a 2D grid of uniformly spaced points containing
# elevation data. Each point within the grid represents the altitude in meters
# above average sea level at that location within the tile. Elevations provided
# are (generally) relative to the EGM96 geoid, however some areas will be
# relative to NAVD88. EGM96 and NAVD88 are off by no more than 2 meters. The
# grid is oriented north-west to south-east, as illustrated: rows[0].a[0] rows[0]
# .a[m] +-----------------+ | | | N | | ^ | | | | | W <-----> E | | | | | v | |
# S | | | +-----------------+ rows[n].a[0] rows[n].a[m] Rather than storing the
# altitudes directly, we store the diffs between them as integers at some
# requested level of precision to take advantage of integer packing. The actual
# altitude values a[] can be reconstructed using the scale and each row's
# first_altitude and altitude_diff fields.
# Corresponds to the JSON property `firstDerivative`
# @return [Google::Apis::VectortileV1::FirstDerivativeElevationGrid]
attr_accessor :first_derivative
# Resource name of the tile. The tile resource name is prefixed by its
# collection ID `terrain/` followed by the resource ID, which encodes the tile's
# global x and y coordinates and zoom level as `@,,z`. For example, `terrain/@1,
# 2,3z`.
# Corresponds to the JSON property `name`
# @return [String]
attr_accessor :name
# A packed representation of a 2D grid of uniformly spaced points containing
# elevation data. Each point within the grid represents the altitude in meters
# above average sea level at that location within the tile. Elevations provided
# are (generally) relative to the EGM96 geoid, however some areas will be
# relative to NAVD88. EGM96 and NAVD88 are off by no more than 2 meters. The
# grid is oriented north-west to south-east, as illustrated: rows[0].a[0] rows[0]
# .a[m] +-----------------+ | | | N | | ^ | | | | | W <-----> E | | | | | v | |
# S | | | +-----------------+ rows[n].a[0] rows[n].a[m] Rather than storing the
# altitudes directly, we store the diffs of the diffs between them as integers
# at some requested level of precision to take advantage of integer packing.
# Note that the data is packed in such a way that is fast to decode in Unity and
# that further optimizes wire size.
# Corresponds to the JSON property `secondDerivative`
# @return [Google::Apis::VectortileV1::SecondDerivativeElevationGrid]
attr_accessor :second_derivative
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@coordinates = args[:coordinates] if args.key?(:coordinates)
@first_derivative = args[:first_derivative] if args.key?(:first_derivative)
@name = args[:name] if args.key?(:name)
@second_derivative = args[:second_derivative] if args.key?(:second_derivative)
end
end
# Global tile coordinates. Global tile coordinates reference a specific tile on
# the map at a specific zoom level. The origin of this coordinate system is
# always at the northwest corner of the map, with x values increasing from west
# to east and y values increasing from north to south. Tiles are indexed using x,
# y coordinates from that origin. The zoom level containing the entire world in
# a tile is 0, and it increases as you zoom in. Zoom level n + 1 will contain 4
# times as many tiles as zoom level n. The zoom level controls the level of
# detail of the data that is returned. In particular, this affects the set of
# feature types returned, their density, and geometry simplification. The exact
# tile contents may change over time, but care will be taken to keep supporting
# the most important use cases. For example, zoom level 15 shows roads for
# orientation and planning in the local neighborhood and zoom level 17 shows
# buildings to give users on foot a sense of situational awareness.
class TileCoordinates
include Google::Apis::Core::Hashable
# Required. The x coordinate.
# Corresponds to the JSON property `x`
# @return [Fixnum]
attr_accessor :x
# Required. The y coordinate.
# Corresponds to the JSON property `y`
# @return [Fixnum]
attr_accessor :y
# Required. The Google Maps API zoom level.
# Corresponds to the JSON property `zoom`
# @return [Fixnum]
attr_accessor :zoom
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@x = args[:x] if args.key?(:x)
@y = args[:y] if args.key?(:y)
@zoom = args[:zoom] if args.key?(:zoom)
end
end
# Represents a strip of triangles. Each triangle uses the last edge of the
# previous one. The following diagram shows an example of a triangle strip, with
# each vertex labeled with its index in the vertex_index array. (1)-----(3) / \ /
# \ / \ / \ / \ / \ (0)-----(2)-----(4) Vertices may be in either clockwise or
# counter-clockwise order.
class TriangleStrip
include Google::Apis::Core::Hashable
# Index into the vertex_offset array representing the next vertex in the
# triangle strip.
# Corresponds to the JSON property `vertexIndices`
# @return [Array<Fixnum>]
attr_accessor :vertex_indices
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@vertex_indices = args[:vertex_indices] if args.key?(:vertex_indices)
end
end
# 2D vertex list used for lines and areas. Each entry represents an offset from
# the previous one in local tile coordinates. The first entry is offset from (0,
# 0). For example, the list of vertices [(1,1), (2, 2), (1, 2)] would be encoded
# in vertex offsets as [(1, 1), (1, 1), (-1, 0)].
class Vertex2DList
include Google::Apis::Core::Hashable
# List of x-offsets in local tile coordinates.
# Corresponds to the JSON property `xOffsets`
# @return [Array<Fixnum>]
attr_accessor :x_offsets
# List of y-offsets in local tile coordinates.
# Corresponds to the JSON property `yOffsets`
# @return [Array<Fixnum>]
attr_accessor :y_offsets
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@x_offsets = args[:x_offsets] if args.key?(:x_offsets)
@y_offsets = args[:y_offsets] if args.key?(:y_offsets)
end
end
# 3D vertex list used for modeled volumes. Each entry represents an offset from
# the previous one in local tile coordinates. The first coordinate is offset
# from (0, 0, 0).
class Vertex3DList
include Google::Apis::Core::Hashable
# List of x-offsets in local tile coordinates.
# Corresponds to the JSON property `xOffsets`
# @return [Array<Fixnum>]
attr_accessor :x_offsets
# List of y-offsets in local tile coordinates.
# Corresponds to the JSON property `yOffsets`
# @return [Array<Fixnum>]
attr_accessor :y_offsets
# List of z-offsets in local tile coordinates.
# Corresponds to the JSON property `zOffsets`
# @return [Array<Fixnum>]
attr_accessor :z_offsets
def initialize(**args)
update!(**args)
end
# Update properties of this object
def update!(**args)
@x_offsets = args[:x_offsets] if args.key?(:x_offsets)
@y_offsets = args[:y_offsets] if args.key?(:y_offsets)
@z_offsets = args[:z_offsets] if args.key?(:z_offsets)
end
end
end
end
end
Reference in New Issue View Git Blame Copy Permalink