fixes

1-js/01-getting-started/2-manuals-specifications/article.md

@@ -5,7 +5,7 @@ This book is a *tutorial*. It aims to help you gradually learn the language. But
 
 ## Specification
 
-**The ECMA-262 specification** contains the most in-depth, detailed and formalized information about JavaScript. It defines the language.
+[The ECMA-262 specification](https://www.ecma-international.org/publications/standards/Ecma-262.htm) contains the most in-depth, detailed and formalized information about JavaScript. It defines the language.
 
 But being that formalized, it's difficult to understand at first. So if you need the most trustworthy source of information about the language details, the specification is the right place. But it's not for everyday use.
 

1-js/02-first-steps/16-javascript-specials/article.md

@@ -149,7 +149,7 @@ Conditional
 : The only operator with three parameters: `cond ? resultA : resultB`. If `cond` is truthy, returns `resultA`, otherwise `resultB`.
 
 Logical operators
-: Logical AND `&&` and OR `||` perform short-circuit evaluation and then return the value where it stopped. Logical NOT `!` converts the operand to boolean type and returns the inverse value.
+: Logical AND `&&` and OR `||` perform short-circuit evaluation and then return the value where it stopped (not necessary `true`/`false`). Logical NOT `!` converts the operand to boolean type and returns the inverse value.
 
 Comparisons
 : Equality check `==` for values of different types converts them to a number (except `null` and `undefined` that equal each other and nothing else), so these are equal:

4-binary/03-blob/article.md

@@ -1,10 +1,10 @@
-# Blob
+`Blob` # Blob
 
 `ArrayBuffer` and views are a part of ECMA standard, a part of JavaScript.
 
 In the browser, there are additional higher-level objects, described in [File API](https://www.w3.org/TR/FileAPI/), in particular `Blob`.
 
-`Blob` consists of an optional string `type` (a MIME-type usually), plus `blobParts` -- a sequence of other `Blob` objects, strings and `BufferSources`.
+`Blob` consists of an optional string `type` (a MIME-type usually), plus `blobParts` -- a sequence of other `Blob` objects, strings and `BufferSource`.
 
 ![](blob.svg)
 
@@ -16,8 +16,8 @@ new Blob(blobParts, options);
 
 - **`blobParts`** is an array of `Blob`/`BufferSource`/`String` values.
 - **`options`** optional object:
-  - **`type`** -- blob type, usually MIME-type, e.g. `image/png`,
-  - **`endings`** -- whether to transform end-of-line to make the blob correspond to current OS newlines (`\r\n` or `\n`). By default `"transparent"` (do nothing), but also can be `"native"` (transform).
+  - **`type`** -- `Blob` type, usually MIME-type, e.g. `image/png`,
+  - **`endings`** -- whether to transform end-of-line to make the `Blob` correspond to current OS newlines (`\r\n` or `\n`). By default `"transparent"` (do nothing), but also can be `"native"` (transform).
 
 For example:
 
@@ -35,7 +35,7 @@ let blob = new Blob([hello, ' ', 'world'], {type: 'text/plain'});
 ```
 
 
-We can extract blob slices with:
+We can extract `Blob` slices with:
 
 ```js
 blob.slice([byteStart], [byteEnd], [contentType]);
@@ -47,8 +47,8 @@ blob.slice([byteStart], [byteEnd], [contentType]);
 
 The arguments are similar to `array.slice`, negative numbers are allowed too.
 
-```smart header="Blobs are immutable"
-We can't change data directly in a blob, but we can slice parts of blobs, create new blobs from them, mix them into a new blob and so on.
+```smart header="`Blob` objects are immutable"
+We can't change data directly in a `Blob`, but we can slice parts of a `Blob`, create new `Blob` objects from them, mix them into a new `Blob` and so on.
 
 This behavior is similar to JavaScript strings: we can't change a character in a string, but we can make a new corrected string.
 ```
@@ -57,9 +57,9 @@ This behavior is similar to JavaScript strings: we can't change a character in a
 
 A Blob can be easily used as an URL for `<a>`, `<img>` or other tags, to show its contents.
 
-Thanks to `type`, we can also download/upload blobs, and it naturally becomes `Content-Type` in network requests.
+Thanks to `type`, we can also download/upload `Blob` objects, and the `type` naturally becomes `Content-Type` in network requests.
 
-Let's start with a simple example. By clicking on a link you download a dynamically-generated blob with `hello world` contents as a file:
+Let's start with a simple example. By clicking on a link you download a dynamically-generated `Blob` with `hello world` contents as a file:
 
 ```html run
 <!-- download attribute forces the browser to download instead of navigating -->
@@ -74,7 +74,7 @@ link.href = URL.createObjectURL(blob);
 
 We can also create a link dynamically in JavaScript and simulate a click by `link.click()`, then download starts automatically.
 
-Here's the similar code that causes user to download the dynamicallly created Blob, without any HTML:
+Here's the similar code that causes user to download the dynamicallly created `Blob`, without any HTML:
 
 ```js run
 let link = document.createElement('a');
@@ -89,33 +89,33 @@ link.click();
 URL.revokeObjectURL(link.href);
 ```
 
-`URL.createObjectURL` takes a blob and creates an unique URL for it, in the form `blob:<origin>/<uuid>`.
+`URL.createObjectURL` takes a `Blob` and creates an unique URL for it, in the form `blob:<origin>/<uuid>`.
 
 That's what the value of `link.href` looks like:
 
 ```
 blob:https://javascript.info/1e67e00e-860d-40a5-89ae-6ab0cbee6273
 ```
 
-The browser for each url generated by `URL.createObjectURL` stores an the url -> blob mapping internally. So such urls are short, but allow to access the blob.
+The browser for each URL generated by `URL.createObjectURL` stores an the URL -> `Blob` mapping internally. So such URLs are short, but allow to access the `Blob`.
 
-A generated url (and hence the link with it) is only valid within the current document, while it's open. And it allows to reference the blob in `<img>`, `<a>`, basically any other object that expects an url.
+A generated URL (and hence the link with it) is only valid within the current document, while it's open. And it allows to reference the `Blob` in `<img>`, `<a>`, basically any other object that expects an url.
 
-There's a side-effect though. While there's an mapping for a blob, the blob itself resides in the memory. The browser can't free it.
+There's a side-effect though. While there's an mapping for a `Blob`, the `Blob` itself resides in the memory. The browser can't free it.
 
-The mapping is automatically cleared on document unload, so blobs are freed then. But if an app is long-living, then that doesn't happen soon.
+The mapping is automatically cleared on document unload, so `Blob` o bjects are freed then. But if an app is long-living, then that doesn't happen soon.
 
-**So if we create an URL, that blob will hang in memory, even if not needed any more.**
+**So if we create an URL, that `Blob` will hang in memory, even if not needed any more.**
 
-`URL.revokeObjectURL(url)` removes the reference from the internal mapping, thus allowing the blob to be deleted (if there are no other references), and the memory to be freed.
+`URL.revokeObjectURL(url)` removes the reference from the internal mapping, thus allowing the `Blob` to be deleted (if there are no other references), and the memory to be freed.
 
-In the last example, we intend the blob to be used only once, for instant downloading, so we call `URL.revokeObjectURL(link.href)` immediately.
+In the last example, we intend the `Blob` to be used only once, for instant downloading, so we call `URL.revokeObjectURL(link.href)` immediately.
 
-In the previous example though, with the clickable HTML-link, we don't call `URL.revokeObjectURL(link.href)`, because that would make the blob url invalid. After the revocation, as the mapping is removed, the url doesn't work any more.
+In the previous example with the clickable HTML-link, we don't call `URL.revokeObjectURL(link.href)`, because that would make the `Blob` url invalid. After the revocation, as the mapping is removed, the URL doesn't work any more.
 
 ## Blob to base64
 
-An alternative to `URL.createObjectURL` is to convert a blob into a base64-encoded string.
+An alternative to `URL.createObjectURL` is to convert a `Blob` into a base64-encoded string.
 
 That encoding represents binary data as a string of ultra-safe "readable" characters with ASCII-codes from 0 to 64. And what's more important -- we can use this encoding in "data-urls".
 
@@ -130,7 +130,7 @@ For instance, here's a smiley:
 The browser will decode the string and show the image: <img src="data:image/png;base64,R0lGODlhDAAMAKIFAF5LAP/zxAAAANyuAP/gaP///wAAAAAAACH5BAEAAAUALAAAAAAMAAwAAAMlWLPcGjDKFYi9lxKBOaGcF35DhWHamZUW0K4mAbiwWtuf0uxFAgA7">
 
 
-To transform a blob into base64, we'll use the built-in `FileReader` object. It can read data from Blobs in multiple formats. In the [next chapter](info:file) we'll cover it more in-depth.
+To transform a `Blob` into base64, we'll use the built-in `FileReader` object. It can read data from Blobs in multiple formats. In the [next chapter](info:file) we'll cover it more in-depth.
 
 Here's the demo of downloading a blob, now via base-64:
 
@@ -151,23 +151,23 @@ reader.onload = function() {
 };
 ```
 
-Both ways of making an URL of a blob are usable. But usually `URL.createObjectURL(blob)` is simpler and faster.
+Both ways of making an URL of a `Blob` are usable. But usually `URL.createObjectURL(blob)` is simpler and faster.
 
 ```compare title-plus="URL.createObjectURL(blob)" title-minus="Blob to data url"
 + We need to revoke them if care about memory.
 + Direct access to blob, no "encoding/decoding"
 - No need to revoke anything.
-- Performance and memory losses on big blobs for encoding.
+- Performance and memory losses on big `Blob` objects for encoding.
 ```
 
 ## Image to blob
 
-We can create a blob of an image, an image part, or even make a page screenshot. That's handy to upload it somewhere.
+We can create a `Blob` of an image, an image part, or even make a page screenshot. That's handy to upload it somewhere.
 
 Image operations are done via `<canvas>` element:
 
 1. Draw an image (or its part) on canvas using [canvas.drawImage](https://developer.mozilla.org/en-US/docs/Web/API/CanvasRenderingContext2D/drawImage).
-2. Call canvas method [.toBlob(callback, format, quality)](https://developer.mozilla.org/en-US/docs/Web/API/HTMLCanvasElement/toBlob) that creates a blob and runs `callback` with it when done.
+2. Call canvas method [.toBlob(callback, format, quality)](https://developer.mozilla.org/en-US/docs/Web/API/HTMLCanvasElement/toBlob) that creates a `Blob` and runs `callback` with it when done.
 
 In the example below, an image is just copied, but we could cut from it, or transform it on canvas prior to making a blob:
 
@@ -205,7 +205,7 @@ If we prefer `async/await` instead of callbacks:
 let blob = await new Promise(resolve => canvasElem.toBlob(resolve, 'image/png'));
 ```
 
-For screenshotting a page, we can use a library such as <https://github.com/niklasvh/html2canvas>. What it does is just walks the page and draws it on `<canvas>`. Then we can get a blob of it the same way as above.
+For screenshotting a page, we can use a library such as <https://github.com/niklasvh/html2canvas>. What it does is just walks the page and draws it on `<canvas>`. Then we can get a `Blob` of it the same way as above.
 
 ## From Blob to ArrayBuffer