【メタルギアソリッド5 FOB 時計回りルートで上階から下階にショートカット】
第4甲板の出口を地雷とカメラで守っているFOBは結構あります。
そのような場合の多くで、警戒態勢にすることなく、安定して、突破する方法の一例を紹介します。
実は、自分のFOBの約半分も、この方法で簡単に地雷を突破出来ます。
その他、UAVの位置をマーキングなしで把握する方法等、攻略の一部を紹介しています。
【ショートカットダイブのやり方一例】
1.パイプを登った後、一切移動せず、右から二つ目の窓の真ん中に狙いを付けます。
2.少し前(操作上真上)に歩きながら、緊急回避します。まだ歩き出していないうちにダイブすると、失敗する可能性があります。
3.ダイブの後、すぐにエルードボタンを長押しして、掴まります。
4.カメラに気をつけて、よじ登ります。
【注意点】
1.タイムを確認し、UAVの位置を把握してください。(PFによっても違うのですが、開幕であまりにも、もたもたしすぎると、UAVが来てしまい面倒です)
2.もしセンサーに引っかかる等、警戒状態にしてしまった場合は、スナイパーの視線を逸らしてください(エルード中含めて、あらゆる場面で見つかる可能性が出てきてしまいます)
3.重点警戒でパイプ付近を守られていた場合、兵士が行くまで待たされるケースがあります
【参考にした動画】
https://www.youtube.com/watch?v=rc2C6GLro4I&list=PLGdeN1kClVfKI_7L9gWFfvq-H9Kyh_pai&index=69
Metal Gear Solid V: The Phantom Pain
FOB Infiltration usage of SHORTCUT DIVE
【How to dive for shortcut】
1. Don't move after climbing the pipe.
2. Give the aim to the second window from the right .
3. Dive(push the square button) while WALKING FORWARD.
4. After the dive, hold down the triangle button immediately.
5. You are clinging to the fence.
If you have any questions, feel free to comment.
push forward用法 在 【超入門】初心者のためのGitとGitHubの使い方 的推薦與評價
1-7の手順と異なり、push先のブランチが feature1 になっている点に注意して ... Fast-forward login.html | 14 ++++++++++++++ 1 file changed, ... ... <看更多>
push forward用法 在 YouTube Data API Overview - Google Developers 的推薦與評價
Introduction
This document is intended for developers who want to write applications that interact with YouTube. It explains basic concepts of YouTube and of the API itself. It also provides an overview of the different functions that the API supports.
Before you startYou need a Google Account to access the Google API Console, request an API key, and register your application.
Create a project in the Google Developers Console and obtain authorization credentials so your application can submit API requests.
After creating your project, make sure the YouTube Data API is one of the services that your application is registered to use:
Go to the API Console and select the project that you just registered.
Visit the Enabled APIs page.
In the list of APIs, make sure the status is ON for the YouTube Data API v3.
If your application will use any API methods that require user authorization, read the authentication guide to learn how to implement OAuth 2.0 authorization.
Select a client library to simplify your API implementation.
Familiarize yourself with the core concepts of the JSON (JavaScript Object Notation) data format. JSON is a common, language-independent data format that provides a simple text representation of arbitrary data structures. For more information, see json.org.
Resources and resource types
A resource is an individual data entity with a unique identifier. The table below describes the different types of resources that you can interact with using the API.
Resources
activity
Contains information about an action that a particular user has taken on the YouTube site. User actions that are reported in activity feeds include rating a video, sharing a video, marking a video as a favorite, and posting a channel bulletin, among others.
channel
Contains information about a single YouTube channel.
channelBanner
Identifies the URL to use to set a newly uploaded image as the banner image for a channel.
channelSection
Contains information about a set of videos that a channel has chosen to feature. For example, a section could feature a channel's latest uploads, most popular uploads, or videos from one or more playlists.
guideCategory
Identifies a category that YouTube associates with channels based on their content or other indicators, such as popularity. Guide categories seek to organize channels in a way that makes it easier for YouTube users to find the content they're looking for. While channels could be associated with one or more guide categories, they are not guaranteed to be in any guide categories.
i18nLanguage
Identifies an application language that the YouTube website supports. The application language can also be referred to as a UI language.
i18nRegion
Identifies a geographic area that a YouTube user can select as the preferred content region. The content region can also be referred to as a content locale.
playlist
Represents a single YouTube playlist. A playlist is a collection of videos that can be viewed sequentially and shared with other users.
playlistItem
Identifies a resource, such as a video, that is part of a playlist. The playlistItem resource also contains details that explain how the included resource is used in the playlist.
search result
Contains information about a YouTube video, channel, or playlist that matches the search parameters specified in an API request. While a search result points to a uniquely identifiable resource, like a video, it does not have its own persistent data.
subscription
Contains information about a YouTube user subscription. A subscription notifies a user when new videos are added to a channel or when another user takes one of several actions on YouTube, such as uploading a video, rating a video, or commenting on a video.
thumbnail
Identifies thumbnail images associated with a resource.
video
Represents a single YouTube video.
videoCategory
Identifies a category that has been or could be associated with uploaded videos.
watermark
Identifies an image that displays during playbacks of a specified channel's videos. The channel owner can also specify a target channel to which the image links as well as timing details that determine when the watermark appears during video playbacks and then length of time it is visible.
Note that, in many cases, a resource contains references to other resources. For example, a
Supported operationsplaylistItem
resource'ssnippet.resourceId.videoId
property identifies a video resource that, in turn, contains complete information about the video. As another example, a search result contains either avideoId
,playlistId
, orchannelId
property that identifies a particular video, playlist, or channel resource.The following table shows the most common methods that the API supports. Some resources also support other methods that perform functions more specific to those resources. For example, the
videos.rate
method associates a user rating with a video, and thethumbnails.set
method uploads a video thumbnail image to YouTube and associates it with a video.Operations
list
Retrieves (
GET
) a list of zero or more resources.insert
Creates (
POST
) a new resource.update
Modifies (
PUT
) an existing resource to reflect data in your request.delete
Removes (
DELETE
) a specific resource.The API currently supports methods to list each of the supported resource types, and it supports write operations for many resources as well.
The table below identifies the operations that are supported for different types of resources. Operations that insert, update, or delete resources always require user authorization. In some cases,
list
methods support both authorized and unauthorized requests, where unauthorized requests only retrieve public data while authorized requests can also retrieve information about or private to the currently authenticated user.Supported Operations
list
insert
update
delete
activity
caption
channel
channelBanner
channelSection
comment
commentThread
guideCategory
i18nLanguage
i18nRegion
playlist
playlistItem
search result
subscription
thumbnail
video
videoCategory
watermark
Quota usage
The YouTube Data API uses a quota to ensure that developers use the service as intended and do not create applications that unfairly reduce service quality or limit access for others. All API requests, including invalid requests, incur at least a one-point quota cost. You can find the quota available to your application in the API Console.
Projects that enable the YouTube Data API have a default quota allocation of 10,000 units per day, an amount sufficient for the overwhelming majority of our API users. Default quota, which is subject to change, helps us optimize quota allocations and scale our infrastructure in a way that is more meaningful to our API users. You can see your quota usage on the Quotas page in the API Console.
Note: If you reach the quota limit, you can request additional quota by
Calculating quota usagecompleting the Quota extension
request form for YouTube API Services.
Google calculates your quota usage by assigning a cost to each request. Different types of
operations have different quota costs. For example:
A read operation that retrieves a list of resources -- channels, videos, playlists -- usually
costs 1 unit.
A write operation that creates, updates, or deletes a resource usually has costs
50
units.A search request costs
100
units.A video upload costs
1600
units.The Quota costs for API requests table shows the
Partial resourcesquota cost of each API method. With these rules in mind, you can estimate the number of requests
that your application could send per day without exceeding your quota.
The API allows, and actually requires, the retrieval of partial resources so that applications avoid transferring, parsing, and storing unneeded data. This approach also ensures that the API uses network, CPU, and memory resources more efficiently.
The API supports two request parameters, which are explained in the following sections, that enable you to identify the resource properties that should be included in API responses.
How to use theThe
part
parameter identifies groups of properties that should be returned for a resource.The
fields
parameter filters the API response to only return specific properties within the requested resource parts.part
parameterThe
part
parameter is a required parameter for any API request that retrieves or returns a resource. The parameter identifies one or more top-level (non-nested) resource properties that should be included in an API response. For example, avideo
resource has the following parts:snippet
contentDetails
fileDetails
player
processingDetails
recordingDetails
statistics
status
suggestions
topicDetails
All of these parts are objects that contain nested properties, and you can think of these objects as groups of metadata fields that the API server might (or might not) retrieve. As such, the
part
parameter requires you to select the resource components that your application actually uses. This requirement serves two key purposes:It reduces latency by preventing the API server from spending time retrieving metadata fields that your application doesn't use.
It reduces bandwidth usage by reducing (or eliminating) the amount of unnecessary data that your application might retrieve.
Over time, as resources add more parts, these benefits will only increase since your application will not be requesting newly introduced properties that it doesn't support.
How to use thefields
parameterThe
fields
parameter filters the API response, which only contains the resource parts identified in thepart
parameter value, so that the response only includes a specific set of fields. Thefields
parameter lets you remove nested properties from an API response and thereby further reduce your bandwidth usage. (Thepart
parameter cannot be used to filter nested properties from a response.)The following rules explain the supported syntax for the
fields
parameter value, which is loosely based on XPath syntax:Use a comma-separated list (
fields=a,b
) to select multiple fields.Use an asterisk (
fields=*
) as a wildcard to identify all fields.Use parentheses (
fields=a(b,c)
) to specify a group of nested properties that will be included in the API response.Use a forward slash (
fields=a/b
) to identify a nested property.In practice, these rules often allow several different
fields
parameter values to retrieve the same API response. For example, if you want to retrieve the playlist item ID, title, and position for every item in a playlist, you could use any of the following values:fields=items/id,playlistItems/snippet/title,playlistItems/snippet/position
fields=items(id,snippet/title,snippet/position)
fields=items(id,snippet(title,position))
Note: As with all query parameter values, the
Sample partial requestsfields
parameter value must be URL encoded. For better readability, the examples in this document omit the encoding.The examples below demonstrate how you can use the
part
andfields
parameters to ensure that API responses only include the data that your application uses:Example 1 returns a video resource that includes four parts as well as
kind
andetag
properties.Example 2 returns a video resource that includes two parts as well as
kind
andetag
properties.Example 3 returns a video resource that includes two parts but excludes
kind
andetag
properties.Example 4 returns a video resource that includes two parts but excludes
kind
andetag
as well as some nested properties in the resource'ssnippet
object.Example 1
Example 2
Example 3
Example 4
Optimizing performance
Using ETags
ETags, a standard part of the HTTP protocol, allow applications to refer to a specific version of a particular API resource. The resource could be an entire feed or an item in that feed. This functionality supports the following use cases:
Caching and conditional retrieval – Your application can cache API resources and their ETags. Then, when your application requests a stored resource again, it specifies the ETag associated with that resource. If the resource has changed, the API returns the modified resource and the ETag associated with that version of the resource. If the resource has not changed, the API returns an HTTP 304 response (
Not Modified
), which indicates that the resource has not changed. Your application can reduce latency and bandwidth usage by serving cached resources in this manner.The client libraries for Google APIs differ in their support of ETags. For example, the JavaScript client library supports ETags via a whitelist for allowed request headers that includes
If-Match
andIf-None-Match
. The whitelist allows normal browser caching to occur so that if a resource's ETag has not changed, the resource can be served from the browser cache. The Obj-C client, on the other hand, does not support ETags.Protecting against inadvertent overwrites of changes – ETags help to ensure that multiple API clients don't inadvertently overwrite each other's changes. When updating or deleting a resource, your application can specify the resource's ETag. If the ETag doesn't match the most recent version of that resource, then the API request fails.
Using ETags in your application provides several benefits:
The API responds more quickly to requests for cached but unchanged resources, yielding lower latency and lower bandwidth usage.Your application will not inadvertently overwrite changes to a resource that were made from another API client.
The Google APIs Client Library for JavaScript supports
If-Match
andIf-None-Match
HTTP request headers, thereby enabling ETags to work within the context of normal browser caching.Using gzip
You can also reduce the bandwidth needed for each API response by enabling gzip compression. While your application will need additional CPU time to uncompress API responses, the benefit of consuming fewer network resources usually outweighs that cost.
To receive a gzip-encoded response you must do two things:
Set the
Accept-Encoding
HTTP request header togzip
.Modify your user agent to contain the string
gzip
.The sample HTTP headers below demonstrate these requirements for enabling gzip compression:
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