docs/readmes: format almost all remaining code blocks (#8590)

doc/docs.md

@@ -418,7 +418,7 @@ Literals like `123` or `4.56` are treated in a special way. They do
 not lead to type promotions, however they default to `int` and `f64`
 respectively, when their type has to be decided:
 
-```v ignore
+```v nofmt
 u := u16(12)
 v := 13 + u    // v is of type `u16` - no promotion
 x := f32(45.6)
@@ -718,7 +718,7 @@ numbers.sort() // 1, 2, 3
 numbers.sort(a > b) // 3, 2, 1
 ```
 
-```v nofmt
+```v
 struct User {
 	age  int
 	name string
@@ -1487,7 +1487,7 @@ assert button.height == 20
 
 As you can see, both the struct name and braces can be omitted, instead of:
 
-```v ignore
+```v oksyntax nofmt
 new_button(ButtonConfig{text:'Click me', width:100})
 ```
 
@@ -1499,20 +1499,20 @@ Struct fields are private and immutable by default (making structs immutable as
 Their access modifiers can be changed with
 `pub` and `mut`. In total, there are 5 possible options:
 
-```v nofmt
+```v
 struct Foo {
-    a int   // private immutable (default)
+	a int // private immutable (default)
 mut:
-    b int   // private mutable
-    c int   // (you can list multiple fields with the same access modifier)
+	b int // private mutable
+	c int // (you can list multiple fields with the same access modifier)
 pub:
-    d int   // public immutable (readonly)
+	d int // public immutable (readonly)
 pub mut:
-    e int   // public, but mutable only in parent module
+	e int // public, but mutable only in parent module
 __global:
-    f int   // public and mutable both inside and outside parent module
-}           // (not recommended to use, that's why the 'global' keyword
-            // starts with __)
+	// (not recommended to use, that's why the 'global' keyword starts with __)
+	f int // public and mutable both inside and outside parent module
+}
 ```
 
 For example, here's the `string` type defined in the `builtin` module:
@@ -1587,15 +1587,15 @@ intended for low-level applications like kernels and drivers.
 
 It is possible to modify function arguments by using the keyword `mut`:
 
-```v nofmt
+```v
 struct User {
 	name string
 mut:
-    is_registered bool
+	is_registered bool
 }
 
 fn (mut u User) register() {
-    u.is_registered = true
+	u.is_registered = true
 }
 
 mut user := User{}
@@ -1803,7 +1803,7 @@ module, and inside it. That restriction is relaxed only for the `main` module
 constants too, i.e. just `println(numbers)`, not `println(main.numbers)` .
 
 vfmt takes care of this rule, so you can type `println(pi)` inside the `math` module,
-and vffmt will automatically update it to `println(math.pi)`.
+and vfmt will automatically update it to `println(math.pi)`.
 
 <!--
 Many people prefer all caps consts: `TOP_CITIES`. This wouldn't work
@@ -1812,8 +1812,8 @@ They can represent complex structures, and this is used quite often since there
 are no globals:
 -->
 
-```v ignore
-println('Top cities: $top_cities.filter(.usa)')
+```v oksyntax
+println('Top cities: ${top_cities.filter(.usa)}')
 ```
 
 ## Builtin functions
@@ -1835,12 +1835,16 @@ fn print_backtrace() // print backtraces on stderr
 `println` is a simple yet powerful builtin function, that can print anything:
 strings, numbers, arrays, maps, structs.
 
-```v nofmt
-struct User{ name string age int }
+```v
+struct User {
+	name string
+	age  int
+}
+
 println(1) // "1"
 println('hi') // "hi"
-println([1,2,3]) // "[1, 2, 3]"
-println(User{name:'Bob', age:20}) // "User{name:'Bob', age:20}"
+println([1, 2, 3]) // "[1, 2, 3]"
+println(User{ name: 'Bob', age: 20 }) // "User{name:'Bob', age:20}"
 ```
 
 ## Custom print of types
@@ -2157,10 +2161,10 @@ That's why you have to declare a `mut` before the `is` expression:
 
 ```v ignore
 if mut w is Mars {
-    assert typeof(w).name == 'Mars'
-    if w.dust_storm() {
-        println('bad weather!')
-    }
+	assert typeof(w).name == 'Mars'
+	if w.dust_storm() {
+		println('bad weather!')
+	}
 }
 ```
 Otherwise `w` would keep its original type.

vlib/term/ui/README.md

@@ -4,40 +4,40 @@ A V module for designing terminal UI apps
 
 #### Quickstart
 
-```v nofmt
+```v
 import term.ui as tui
 
 struct App {
 mut:
-    tui  &tui.Context = 0
+	tui &tui.Context = 0
 }
 
 fn event(e &tui.Event, x voidptr) {
-    mut app := &App(x)
-    println(e)
+	mut app := &App(x)
+	println(e)
 }
 
 fn frame(x voidptr) {
-    mut app := &App(x)
+	mut app := &App(x)
 
-    app.tui.clear()
-    app.tui.set_bg_color(r: 63, g: 81, b: 181)
-    app.tui.draw_rect(20, 6, 41, 10)
-    app.tui.draw_text(24, 8, 'Hello from V!')
-    app.tui.set_cursor_position(0, 0)
+	app.tui.clear()
+	app.tui.set_bg_color(r: 63, g: 81, b: 181)
+	app.tui.draw_rect(20, 6, 41, 10)
+	app.tui.draw_text(24, 8, 'Hello from V!')
+	app.tui.set_cursor_position(0, 0)
 
-    app.tui.reset()
-    app.tui.flush()
+	app.tui.reset()
+	app.tui.flush()
 }
 
 mut app := &App{}
 app.tui = tui.init(
-    user_data: app,
-    event_fn: event,
-    frame_fn: frame
-    hide_cursor: true
+	user_data: app
+	event_fn: event
+	frame_fn: frame
+	hide_cursor: true
 )
-app.tui.run()
+app.tui.run() ?
 ```
 
 See the `/examples/term.ui/` folder for more usage examples.

vlib/x/json2/README.md

@@ -4,51 +4,51 @@
 `x.json2` is an experimental JSON parser written from scratch on V.
 
 ## Usage
-```v oksyntax nofmt
+```v oksyntax
 import x.json2
 import net.http
 
 fn main() {
-    // Decoding
-    resp := http.get('https://example.com')?
+	// Decoding
+	resp := http.get('https://example.com') ?
 
-    // raw decode
-    raw_person := json2.raw_decode(resp.text)?
+	// raw decode
+	raw_person := json2.raw_decode(resp.text) ?
 
-    // Casting `Any` type / Navigating
-    person := raw_person.as_map()
-    name := person['name'].str() // Bob
-    age := person['age'].int() // 19
-    pi := person['pi'].f64() // 3.14....
+	// Casting `Any` type / Navigating
+	person := raw_person.as_map()
+	name := person['name'].str() // Bob
+	age := person['age'].int() // 19
+	pi := person['pi'].f64() // 3.14....
 
-    // Constructing an `Any` type
-    mut me := map[string]json2.Any
-    me['name'] = 'Bob'
-    me['age'] = 18
+	// Constructing an `Any` type
+	mut me := map[string]json2.Any{}
+	me['name'] = 'Bob'
+	me['age'] = 18
 
-    mut arr := []json2.Any
-    arr << 'rock'
-    arr << 'papers'
-    arr << json2.null
-    arr << 12
+	mut arr := []json2.Any{}
+	arr << 'rock'
+	arr << 'papers'
+	arr << json2.null
+	arr << 12
 
-    me['interests'] = arr
+	me['interests'] = arr
 
-    mut pets := map[string]json2.Any
-    pets['Sam'] = 'Maltese Shitzu'
-    me['pets'] = pets
+	mut pets := map[string]json2.Any{}
+	pets['Sam'] = 'Maltese Shitzu'
+	me['pets'] = pets
 
-    // Stringify to JSON
-    println(me.str())
-    //{
-    //   "name":"Bob",
-    //   "age":18,
-    //   "interests":["rock","papers","scissors",null,12],
-    //   "pets":{"Sam":"Maltese"}
-    //}
+	// Stringify to JSON
+	println(me.str())
+	//{
+	//   "name":"Bob",
+	//   "age":18,
+	//   "interests":["rock","papers","scissors",null,12],
+	//   "pets":{"Sam":"Maltese"}
+	//}
 
-    // Encode a struct/type to JSON
-    encoded_json := json2.encode<Person>(person2)
+	// Encode a struct/type to JSON
+	encoded_json := json2.encode<Person>(person2)
 }
 ```
 ## Using `decode<T>` and `encode<T>`