Merge pull request 'Merge initial implementation of Pedal and Leader Board widgets' (#3) from ui into master

Reviewed-on: #3
2023-01-18 12:50:35 +01:00 · 2023-01-18 12:50:35 +01:00 · 64fab8d4e2
parent 1df2f4183c 1d901fdbb8
commit 64fab8d4e2
24 changed files with 1899 additions and 513 deletions
--- a/.vscode/tasks.json
+++ b/.vscode/tasks.json
@ -4,11 +4,14 @@
 		{
 			"type": "cargo",
 			"command": "build",
+			"args": [
+				"--release"
+			],
 			"problemMatcher": [
 				"$rustc"
 			],
 			"group": "build",
-			"label": "rust: cargo build --release"
+			"label": "rust: cargo build"
 		},
 		{
 			"type": "shell",
--- a/Cargo.toml
+++ b/Cargo.toml
@ -10,10 +10,14 @@ crate-type = ["cdylib"]

 [dependencies]
 vulkan-rs = { git = "https://gavania.de/hodasemi/vulkan_lib.git" }
+assetpath = { git = "https://gavania.de/hodasemi/vulkan_lib.git" }
+utilities = { git = "https://gavania.de/hodasemi/utilities.git" }
 rfactor_sm_reader = { git = "https://gavania.de/hodasemi/rfactor_sm_reader.git" }
+ui = { git = "https://gavania.de/hodasemi/ui.git" }

 anyhow = { version = "1.0.68", features = ["backtrace"] }
 cgmath = { version = "0.18.0", features = ["swizzle", "serde"] }
 paste = "1.0.11"
 serde = "1.0.152"
 serde_json = "1.0.91"
+ringbuf = "0.3.2"
--- a/README.md
+++ b/README.md
@ -2,16 +2,31 @@
 This project is an attempt to render custom HUD elements for rFactor2 by being a Vulkan layer.

 # Current state
-I just started doing it. That means it isn't very usable right now. I'm working on a radar right now as the first element.
+I would consider the following elements as working:
+
+* Leader Board (enabled on in race)
+* Radar
+* Pedals

 # How to enable
-* Build this repository `cargo build --release`
-* Change the path where the `libvk_layer_rs.so` is located (`library_path` parameter in the rFactorOverlay.json file)
-* Put the rFactorOverlay.json into a layer directory ([layer directories](https://vulkan.lunarg.com/doc/view/1.3.216.0/mac/loader_and_layer_interface.html#user-content-linux-layer-discovery))
+
+### Archlinux based
+Simply use the PKGBUILD from the pkgbuild directory ([How to use it](https://wiki.archlinux.org/title/Makepkg))
+
+### Manual installation
+1) Build this repository `cargo build --release`
+2) Change the path where the `libvk_layer_rs.so` is located (`library_path` parameter in the rFactorOverlay.json file)
+3) Put the rFactorOverlay.json into a layer directory ([layer directories](https://vulkan.lunarg.com/doc/view/1.3.216.0/mac/loader_and_layer_interface.html#user-content-linux-layer-discovery))
+
+---
+
 * Add `RFACTOR_HUD=1` to steam launch command (example: `RFACTOR_HUD=1 %command%`)

 A config file is generated the first time you start it at: `$HOME/.config/rFactorHUD/config.json`

+### Requirement
+You need to have rFactor2 memory plugin shared file enabled ([rF2SharedMemoryMapPlugin_Wine](https://github.com/schlegp/rF2SharedMemoryMapPlugin_Wine))
+
 # Resources

 ## Vulkan Layer
--- a/build.rs
+++ b/build.rs
@ -10,8 +10,10 @@ const VK_HEADER: &[&str] = &[
 const FN_PREFIX: &str = "PFN_";

 const SHADER: &[&str] = &[
-    "src/overlay/shader/single_color.vert",
-    "src/overlay/shader/single_color.frag",
+    "src/overlay/elements/radar/single_color.vert",
+    "src/overlay/elements/radar/single_color.frag",
+    "src/overlay/elements/pedals/history.vert",
+    "src/overlay/elements/pedals/history.frag",
 ];

 fn query_vulkan_function_typedefs() {
--- a/font.png
+++ b/font.png
--- a/src/overlay/elements/gui.xsd
+++ b/src/overlay/elements/gui.xsd
@ -0,0 +1,244 @@
+<?xml version="1.0" encoding="UTF-8"?>
+<xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema">
+
+    <!-- definition of attributes -->
+    <xs:attribute name="id" type="xs:string"></xs:attribute>
+    <xs:attribute name="x_slot" type="xs:nonNegativeInteger"></xs:attribute>
+    <xs:attribute name="y_slot" type="xs:nonNegativeInteger"></xs:attribute>
+    <xs:attribute name="x_dim" type="xs:nonNegativeInteger"></xs:attribute>
+    <xs:attribute name="y_dim" type="xs:nonNegativeInteger"></xs:attribute>
+    <xs:attribute name="x_size" type="xs:nonNegativeInteger"></xs:attribute>
+    <xs:attribute name="y_size" type="xs:nonNegativeInteger"></xs:attribute>
+    <xs:attribute name="normal" type="xs:string"></xs:attribute>
+    <xs:attribute name="selected" type="xs:string"></xs:attribute>
+    <xs:attribute name="click_sound" type="xs:string"></xs:attribute>
+    <xs:attribute name="hover_sound" type="xs:string"></xs:attribute>
+    <xs:attribute name="select_mode">
+        <xs:simpleType>
+            <xs:restriction base="xs:string">
+                <xs:enumeration value="none"></xs:enumeration>
+                <xs:enumeration value="bigger"></xs:enumeration>
+            </xs:restriction>
+        </xs:simpleType>
+    </xs:attribute>
+    <xs:attribute name="icon" type="xs:string"></xs:attribute>
+    <xs:attribute name="icon_margin" type="xs:nonNegativeInteger"></xs:attribute>
+    <xs:attribute name="text_color" type="xs:string"></xs:attribute>
+    <xs:attribute name="text_ratio" type="xs:decimal"></xs:attribute>
+    <xs:attribute name="text_alignment">
+        <xs:simpleType>
+            <xs:restriction base="xs:string">
+                <xs:enumeration value="left"></xs:enumeration>
+                <xs:enumeration value="right"></xs:enumeration>
+                <xs:enumeration value="top"></xs:enumeration>
+                <xs:enumeration value="bottom"></xs:enumeration>
+                <xs:enumeration value="center"></xs:enumeration>
+            </xs:restriction>
+        </xs:simpleType>
+    </xs:attribute>
+    <xs:attribute name="select" type="xs:boolean"></xs:attribute>
+    <xs:attribute name="x_offset" type="xs:integer"></xs:attribute>
+    <xs:attribute name="y_offset" type="xs:integer"></xs:attribute>
+    <xs:attribute name="width" type="xs:integer"></xs:attribute>
+    <xs:attribute name="height" type="xs:integer"></xs:attribute>
+    <xs:attribute name="padding" type="xs:nonNegativeInteger"></xs:attribute>
+    <xs:attribute name="margin" type="xs:nonNegativeInteger"></xs:attribute>
+    <xs:attribute name="vert_align">
+        <xs:simpleType>
+            <xs:restriction base="xs:string">
+                <xs:enumeration value="top"></xs:enumeration>
+                <xs:enumeration value="middle"></xs:enumeration>
+                <xs:enumeration value="bottom"></xs:enumeration>
+            </xs:restriction>
+        </xs:simpleType>
+    </xs:attribute>
+    <xs:attribute name="hori_align">
+        <xs:simpleType>
+            <xs:restriction base="xs:string">
+                <xs:enumeration value="left"></xs:enumeration>
+                <xs:enumeration value="middle"></xs:enumeration>
+                <xs:enumeration value="right"></xs:enumeration>
+            </xs:restriction>
+        </xs:simpleType>
+    </xs:attribute>
+    <xs:attribute name="direction">
+        <xs:simpleType>
+            <xs:restriction base="xs:string">
+                <xs:enumeration value="left_to_right"></xs:enumeration>
+                <xs:enumeration value="bottom_to_top"></xs:enumeration>
+            </xs:restriction>
+        </xs:simpleType>
+    </xs:attribute>
+    <xs:attribute name="background" type="xs:string"></xs:attribute>
+    <xs:attribute name="foreground" type="xs:string"></xs:attribute>
+    <xs:attribute name="button_normal" type="xs:string"></xs:attribute>
+    <xs:attribute name="button_selected" type="xs:string"></xs:attribute>
+    <xs:attribute name="reference_width" type="xs:nonNegativeInteger"></xs:attribute>
+    <xs:attribute name="reference_height" type="xs:nonNegativeInteger"></xs:attribute>
+    <xs:attribute name="layer" type="xs:nonNegativeInteger"></xs:attribute>
+    <xs:attribute name="line_count" type="xs:nonNegativeInteger"></xs:attribute>
+    <xs:attribute name="west_neighbour" type="xs:string"></xs:attribute>
+    <xs:attribute name="east_neighbour" type="xs:string"></xs:attribute>
+    <xs:attribute name="north_neighbour" type="xs:string"></xs:attribute>
+    <xs:attribute name="south_neighbour" type="xs:string"></xs:attribute>
+
+    <!-- definition of complex elements -->
+    <xs:element name="root">
+        <xs:complexType>
+            <xs:choice maxOccurs="unbounded">
+                <xs:element name="grid" />
+            </xs:choice>
+            <xs:attribute ref="reference_width"></xs:attribute>
+            <xs:attribute ref="reference_height"></xs:attribute>
+            <xs:attribute ref="layer"></xs:attribute>
+        </xs:complexType>
+    </xs:element>
+
+    <xs:element name="grid">
+        <xs:complexType>
+            <xs:choice minOccurs="0" maxOccurs="unbounded">
+                <xs:element name="grid" />
+                <xs:element name="button" />
+                <xs:element name="label" />
+                <xs:element name="progressbar" />
+                <xs:element name="textfield" />
+                <xs:element name="icon" />
+            </xs:choice>
+            <xs:attribute ref="id"></xs:attribute>
+            <xs:attribute ref="x_slot"></xs:attribute>
+            <xs:attribute ref="y_slot"></xs:attribute>
+            <xs:attribute ref="x_dim"></xs:attribute>
+            <xs:attribute ref="y_dim"></xs:attribute>
+            <xs:attribute ref="x_size"></xs:attribute>
+            <xs:attribute ref="y_size"></xs:attribute>
+            <xs:attribute ref="x_offset"></xs:attribute>
+            <xs:attribute ref="y_offset"></xs:attribute>
+            <xs:attribute ref="width"></xs:attribute>
+            <xs:attribute ref="height"></xs:attribute>
+            <xs:attribute ref="padding"></xs:attribute>
+            <xs:attribute ref="margin"></xs:attribute>
+            <xs:attribute ref="vert_align"></xs:attribute>
+            <xs:attribute ref="hori_align"></xs:attribute>
+            <xs:attribute ref="background"></xs:attribute>
+            <xs:attribute ref="button_normal"></xs:attribute>
+            <xs:attribute ref="button_selected"></xs:attribute>
+            <xs:attribute ref="click_sound"></xs:attribute>
+            <xs:attribute ref="hover_sound"></xs:attribute>
+        </xs:complexType>
+    </xs:element>
+
+    <xs:element name="button">
+        <xs:complexType mixed="true">
+            <xs:attribute ref="id"></xs:attribute>
+            <xs:attribute ref="x_slot"></xs:attribute>
+            <xs:attribute ref="y_slot"></xs:attribute>
+            <xs:attribute ref="x_size"></xs:attribute>
+            <xs:attribute ref="y_size"></xs:attribute>
+            <xs:attribute ref="select"></xs:attribute>
+            <xs:attribute ref="normal"></xs:attribute>
+            <xs:attribute ref="selected"></xs:attribute>
+            <xs:attribute ref="click_sound"></xs:attribute>
+            <xs:attribute ref="hover_sound"></xs:attribute>
+            <xs:attribute ref="select_mode"></xs:attribute>
+            <xs:attribute ref="icon"></xs:attribute>
+            <xs:attribute ref="icon_margin"></xs:attribute>
+            <xs:attribute ref="text_color"></xs:attribute>
+            <xs:attribute ref="text_ratio"></xs:attribute>
+            <xs:attribute ref="text_alignment"></xs:attribute>
+            <xs:attribute ref="west_neighbour"></xs:attribute>
+            <xs:attribute ref="east_neighbour"></xs:attribute>
+            <xs:attribute ref="north_neighbour"></xs:attribute>
+            <xs:attribute ref="south_neighbour"></xs:attribute>
+        </xs:complexType>
+    </xs:element>
+
+    <xs:element name="label">
+        <xs:complexType mixed="true">
+            <xs:attribute ref="id"></xs:attribute>
+            <xs:attribute ref="x_slot"></xs:attribute>
+            <xs:attribute ref="y_slot"></xs:attribute>
+            <xs:attribute ref="x_size"></xs:attribute>
+            <xs:attribute ref="y_size"></xs:attribute>
+            <xs:attribute ref="text_color"></xs:attribute>
+            <xs:attribute ref="text_ratio"></xs:attribute>
+            <xs:attribute ref="text_alignment"></xs:attribute>
+            <xs:attribute ref="background"></xs:attribute>
+        </xs:complexType>
+    </xs:element>
+
+    <xs:element name="multi_line_label">
+        <xs:complexType mixed="true">
+            <xs:attribute ref="id"></xs:attribute>
+            <xs:attribute ref="x_slot"></xs:attribute>
+            <xs:attribute ref="y_slot"></xs:attribute>
+            <xs:attribute ref="x_size"></xs:attribute>
+            <xs:attribute ref="y_size"></xs:attribute>
+            <xs:attribute ref="line_count"></xs:attribute>
+            <xs:attribute ref="text_color"></xs:attribute>
+            <xs:attribute ref="text_ratio"></xs:attribute>
+            <xs:attribute ref="text_alignment"></xs:attribute>
+            <xs:attribute ref="background"></xs:attribute>
+        </xs:complexType>
+    </xs:element>
+
+    <xs:element name="multi_line_textfield">
+        <xs:complexType mixed="true">
+            <xs:attribute ref="id"></xs:attribute>
+            <xs:attribute ref="x_slot"></xs:attribute>
+            <xs:attribute ref="y_slot"></xs:attribute>
+            <xs:attribute ref="x_size"></xs:attribute>
+            <xs:attribute ref="y_size"></xs:attribute>
+            <xs:attribute ref="line_count"></xs:attribute>
+            <xs:attribute ref="text_color"></xs:attribute>
+            <xs:attribute ref="text_ratio"></xs:attribute>
+            <xs:attribute ref="text_alignment"></xs:attribute>
+            <xs:attribute ref="background"></xs:attribute>
+        </xs:complexType>
+    </xs:element>
+
+    <xs:element name="progressbar">
+        <xs:complexType mixed="true">
+            <xs:attribute ref="id"></xs:attribute>
+            <xs:attribute ref="x_slot"></xs:attribute>
+            <xs:attribute ref="y_slot"></xs:attribute>
+            <xs:attribute ref="x_size"></xs:attribute>
+            <xs:attribute ref="y_size"></xs:attribute>
+            <xs:attribute ref="text_color"></xs:attribute>
+            <xs:attribute ref="text_ratio"></xs:attribute>
+            <xs:attribute ref="text_alignment"></xs:attribute>
+            <xs:attribute ref="background"></xs:attribute>
+            <xs:attribute ref="foreground"></xs:attribute>
+            <xs:attribute ref="direction"></xs:attribute>
+        </xs:complexType>
+    </xs:element>
+
+    <xs:element name="textfield">
+        <xs:complexType mixed="true">
+            <xs:attribute ref="id"></xs:attribute>
+            <xs:attribute ref="x_slot"></xs:attribute>
+            <xs:attribute ref="y_slot"></xs:attribute>
+            <xs:attribute ref="x_size"></xs:attribute>
+            <xs:attribute ref="y_size"></xs:attribute>
+            <xs:attribute ref="text_color"></xs:attribute>
+            <xs:attribute ref="text_ratio"></xs:attribute>
+            <xs:attribute ref="text_alignment"></xs:attribute>
+            <xs:attribute ref="background"></xs:attribute>
+        </xs:complexType>
+    </xs:element>
+
+    <xs:element name="icon">
+        <xs:complexType>
+            <xs:attribute ref="id"></xs:attribute>
+            <xs:attribute ref="x_slot"></xs:attribute>
+            <xs:attribute ref="y_slot"></xs:attribute>
+            <xs:attribute ref="x_size"></xs:attribute>
+            <xs:attribute ref="y_size"></xs:attribute>
+            <xs:attribute ref="icon"></xs:attribute>
+            <xs:attribute ref="margin"></xs:attribute>
+            <xs:attribute ref="background"></xs:attribute>
+            <xs:attribute ref="text_color"></xs:attribute>
+            <xs:attribute ref="text_ratio"></xs:attribute>
+        </xs:complexType>
+    </xs:element>
+
+</xs:schema>
--- a/src/overlay/elements/leaderboard/leaderboard_entry.xml
+++ b/src/overlay/elements/leaderboard/leaderboard_entry.xml
@ -0,0 +1,12 @@
+<?xml-model href="../gui.xsd" type="application/xml" schematypens="http://www.w3.org/2001/XMLSchema"?>
+<root>
+    <grid id="grid" x_dim="9" y_dim="1">
+        <label id="place" x_slot="0" y_slot="0" text_color="black" text_alignment="right"></label>
+        <label
+            id="name"
+            x_slot="1" y_slot="0" x_size="6" text_color="black" text_alignment="left"></label>
+        <label
+            id="time_behind"
+            x_slot="7" y_slot="0" x_size="2" text_color="black" text_alignment="right"></label>
+    </grid>
+</root>
--- a/src/overlay/elements/leaderboard/leaderboard_grid.xml
+++ b/src/overlay/elements/leaderboard/leaderboard_grid.xml
@ -0,0 +1,5 @@
+<?xml-model href="../gui.xsd" type="application/xml" schematypens="http://www.w3.org/2001/XMLSchema"?>
+<root reference_width="2560" reference_height="1440">
+    <grid id="main_grid" x_dim="1" y_dim="25" x_offset="10" y_offset="10" width="350" height="875"
+        vert_align="top" hori_align="left" margin="0" padding="0"> </grid>
+</root>
--- a/src/overlay/elements/leaderboard/mod.rs
+++ b/src/overlay/elements/leaderboard/mod.rs
@ -0,0 +1,291 @@
+use std::{
+    ffi::{c_char, CStr},
+    sync::Arc,
+};
+
+use anyhow::Result;
+use rfactor_sm_reader::{rF2VehicleTelemetry, VehicleScoringInfoV01};
+use ui::prelude::*;
+use utilities::prelude::Color;
+
+use crate::overlay::{
+    rfactor_data::{DataReceiver, GamePhase},
+    UiOverlay,
+};
+use crate::write_log;
+
+pub struct LeaderBoard {
+    gui_handler: Arc<GuiHandler>,
+    gui: Arc<GuiBuilder>,
+    main_grid: Arc<Grid>,
+
+    entries: Vec<LeaderBoardEntry>,
+
+    entry_backgrounds: [Color; 2],
+    player_background: Color,
+}
+
+impl LeaderBoard {
+    const GRID: &str = include_str!("leaderboard_grid.xml");
+    const ENTRY: &str = include_str!("leaderboard_entry.xml");
+
+    pub fn new(gui_handler: &Arc<GuiHandler>) -> Result<Self> {
+        let gui = GuiBuilder::from_str(gui_handler, Self::GRID)?;
+
+        let main_grid = gui.element("main_grid")?;
+
+        Ok(Self {
+            gui_handler: gui_handler.clone(),
+            gui,
+            main_grid,
+
+            entries: Vec::new(),
+
+            entry_backgrounds: [Color::try_from("#838383")?, Color::try_from("#545454")?],
+            player_background: Color::try_from("#b4bf26")?,
+        })
+    }
+
+    fn c_char_to_string(c: [c_char; 32usize]) -> String {
+        unsafe { CStr::from_ptr(&c as *const c_char) }
+            .to_str()
+            .unwrap()
+            .to_string()
+    }
+
+    fn race_leaderboard(&mut self, vehicle_scorings: &[VehicleScoringInfoV01]) -> Result<()> {
+        for vehicle_scoring in vehicle_scorings {
+            let driver_name = Self::c_char_to_string(vehicle_scoring.mDriverName);
+
+            // check driver list
+            match self
+                .entries
+                .iter_mut()
+                .find(|entry| vehicle_scoring.mID == entry.id())
+            {
+                Some(entry) => {
+                    if entry.name() != driver_name {
+                        entry.change_name(driver_name)?;
+                    }
+
+                    entry.update_place(vehicle_scoring.mPlace)?;
+                    entry.update_time_behind_leader(vehicle_scoring.mTimeBehindLeader)?;
+                    entry.update_time_behind_next(vehicle_scoring.mTimeBehindNext)?;
+                }
+                None => {
+                    let entry = LeaderBoardEntry::new(
+                        &self.gui_handler,
+                        vehicle_scoring.mID,
+                        driver_name,
+                        vehicle_scoring.mPlace,
+                        vehicle_scoring.mTimeBehindLeader,
+                        vehicle_scoring.mTimeBehindNext,
+                    )?;
+
+                    self.entries.push(entry);
+                }
+            }
+        }
+
+        write_log!("create entries");
+
+        // check if entry count in grid is the same as the gathered entries
+        let force_update = if !self.entries.is_empty()
+            && self
+                .main_grid
+                .child_at(0, self.entries.len() - 1)?
+                .is_none()
+        {
+            for i in 0..self.entries.len() {
+                self.main_grid.detach(0, i)?;
+            }
+
+            true
+        } else {
+            false
+        };
+
+        // check if any entry needs resorting
+        if force_update || self.entries.iter().any(|entry| entry.needs_resorting()) {
+            write_log!("leader board update required");
+
+            self.entries
+                .sort_by(|lhs, rhs| lhs.place().cmp(&rhs.place()));
+
+            for (i, entry) in self.entries.iter_mut().enumerate() {
+                entry.resorting_finished();
+                entry.change_background_color(self.entry_backgrounds[i % 2])?;
+
+                self.main_grid.attach(entry.snippet(), 0, i, 1, 1)?;
+            }
+        }
+
+        if self.entries.is_empty() {
+            self.gui.disable()?;
+        } else {
+            self.gui.enable()?;
+        }
+
+        Ok(())
+    }
+}
+
+impl UiOverlay for LeaderBoard {}
+
+impl DataReceiver for LeaderBoard {
+    fn scoring_update(
+        &mut self,
+        phase: GamePhase,
+        vehicle_scorings: &[VehicleScoringInfoV01],
+    ) -> Result<()> {
+        write_log!("=================== leader board: scoring update ===================");
+
+        match phase {
+            GamePhase::TestDay => self.gui.disable()?,
+            GamePhase::Practice => self.gui.disable()?,
+            GamePhase::Qualifying => self.gui.disable()?,
+            GamePhase::Warmup => self.gui.disable()?,
+            GamePhase::Race => {
+                self.race_leaderboard(vehicle_scorings)?;
+            }
+        }
+
+        write_log!("leader board update finished");
+
+        Ok(())
+    }
+
+    fn telemetry_update(
+        &mut self,
+        player_id: Option<i32>,
+        _telemetries: &[rF2VehicleTelemetry],
+    ) -> Result<()> {
+        if let Some(player_id) = player_id {
+            if let Some(entry) = self.entries.iter().find(|entry| entry.id() == player_id) {
+                entry.change_background_color(self.player_background)?;
+            }
+        }
+
+        Ok(())
+    }
+}
+
+struct LeaderBoardEntry {
+    id: i32,
+
+    name: String,
+    place: u8,
+    time_behind_leader: f64,
+    time_behind_next: f64,
+
+    snippet: Arc<GuiSnippet>,
+
+    grid: Arc<Grid>,
+    name_label: Arc<Label>,
+    place_label: Arc<Label>,
+    time_behind_label: Arc<Label>,
+
+    place_updated: bool,
+}
+
+impl LeaderBoardEntry {
+    pub fn new(
+        gui_handler: &Arc<GuiHandler>,
+        id: i32,
+        name: String,
+        place: u8,
+        time_behind_leader: f64,
+        time_behind_next: f64,
+    ) -> Result<Self> {
+        let snippet = GuiSnippet::from_str(gui_handler, LeaderBoard::ENTRY)?;
+
+        let background = snippet.element("grid")?;
+        let name_label: Arc<Label> = snippet.element("name")?;
+        let place_label: Arc<Label> = snippet.element("place")?;
+        let time_behind_label: Arc<Label> = snippet.element("time_behind")?;
+
+        name_label.set_text(&name)?;
+        place_label.set_text(place)?;
+        time_behind_label.set_text(format!("{:.3}", time_behind_leader))?;
+
+        Ok(Self {
+            id,
+
+            name,
+            place,
+            time_behind_leader,
+            time_behind_next,
+
+            snippet,
+
+            grid: background,
+            name_label,
+            place_label,
+            time_behind_label,
+
+            place_updated: true,
+        })
+    }
+
+    pub fn id(&self) -> i32 {
+        self.id
+    }
+
+    pub fn place(&self) -> u8 {
+        self.place
+    }
+
+    pub fn name(&self) -> &str {
+        &self.name
+    }
+
+    pub fn change_name(&mut self, name: String) -> Result<()> {
+        self.name = name;
+
+        self.name_label.set_text(&self.name)
+    }
+
+    pub fn snippet(&self) -> Arc<GuiSnippet> {
+        self.snippet.clone()
+    }
+
+    pub fn change_background_color(&self, color: Color) -> Result<()> {
+        self.grid.set_background(color)
+    }
+
+    pub fn update_place(&mut self, place: u8) -> Result<()> {
+        if self.place != place {
+            self.place_updated = true;
+        }
+
+        self.place = place;
+
+        self.place_label.set_text(self.place)
+    }
+
+    pub fn update_time_behind_leader(&mut self, time: f64) -> Result<()> {
+        self.time_behind_leader = time;
+
+        // check if we are leader
+        if self.time_behind_leader == 0.0 {
+            self.time_behind_label.set_text("---")
+        } else {
+            self.time_behind_label
+                .set_text(format!("+{:.3}", self.time_behind_leader))
+        }
+    }
+
+    pub fn update_time_behind_next(&mut self, time: f64) -> Result<()> {
+        self.time_behind_next = time;
+
+        Ok(())
+    }
+
+    pub fn needs_resorting(&self) -> bool {
+        self.place_updated
+    }
+
+    pub fn resorting_finished(&mut self) {
+        self.place_updated = false;
+    }
+}
--- a/src/overlay/elements/mod.rs
+++ b/src/overlay/elements/mod.rs
@ -0,0 +1,48 @@
+mod leaderboard;
+mod pedals;
+mod radar;
+mod watermark;
+
+pub use leaderboard::*;
+pub use pedals::*;
+pub use radar::*;
+pub use watermark::*;
+
+#[derive(Clone)]
+pub struct PositionOnlyVertex {
+    pub position: cgmath::Vector4<f32>,
+}
+
+impl PositionOnlyVertex {
+    ///
+    /// corners[0]  -  bottom left
+    /// corners[1]  -  top left
+    /// corners[2]  -  top right
+    /// corners[3]  -  bottom right
+    ///
+    pub fn from_2d_corners(
+        ortho: cgmath::Matrix4<f32>,
+        corners: [cgmath::Vector2<f32>; 4],
+    ) -> [Self; 6] {
+        [
+            Self {
+                position: ortho * corners[0].extend(0.0).extend(1.0),
+            },
+            Self {
+                position: ortho * corners[1].extend(0.0).extend(1.0),
+            },
+            Self {
+                position: ortho * corners[2].extend(0.0).extend(1.0),
+            },
+            Self {
+                position: ortho * corners[2].extend(0.0).extend(1.0),
+            },
+            Self {
+                position: ortho * corners[3].extend(0.0).extend(1.0),
+            },
+            Self {
+                position: ortho * corners[0].extend(0.0).extend(1.0),
+            },
+        ]
+    }
+}
--- a/src/overlay/elements/pedals/history.frag
+++ b/src/overlay/elements/pedals/history.frag
@ -0,0 +1,12 @@
+#version 450
+
+layout (set = 0, binding = 0) uniform Color {
+	vec4 val;
+} color;
+
+layout (location = 0) out vec4 out_color;
+
+void main()
+{
+	out_color = color.val;
+}
--- a/src/overlay/elements/pedals/history.vert
+++ b/src/overlay/elements/pedals/history.vert
--- a/src/overlay/elements/pedals/mod.rs
+++ b/src/overlay/elements/pedals/mod.rs
@ -0,0 +1,296 @@
+mod pipeline;
+
+use std::sync::{Arc, Mutex};
+
+use anyhow::Result;
+use cgmath::{ortho, vec4, Matrix4};
+use rfactor_sm_reader::{rF2VehicleTelemetry, VehicleScoringInfoV01};
+use ringbuf::{HeapRb, Rb};
+use ui::prelude::*;
+use vulkan_rs::prelude::*;
+
+use crate::overlay::{
+    rfactor_data::{DataReceiver, GamePhase},
+    UiOverlay,
+};
+use crate::write_log;
+
+use self::pipeline::HistoryPipeline;
+
+use super::PositionOnlyVertex;
+
+pub struct Pedals {
+    gui: Arc<GuiBuilder>,
+
+    brake: Arc<ProgressBar>,
+    throttle: Arc<ProgressBar>,
+    _history: Arc<Icon>,
+
+    throttle_samples: HeapRb<f32>,
+    brake_samples: HeapRb<f32>,
+
+    ortho: Matrix4<f32>,
+
+    device: Arc<Device>,
+    queue: Arc<Mutex<Queue>>,
+
+    render_target: RenderTarget,
+    pipeline: HistoryPipeline,
+
+    brake_descriptor: Arc<DescriptorSet>,
+    brake_vertex_buffer: Arc<Buffer<PositionOnlyVertex>>,
+    throttle_descriptor: Arc<DescriptorSet>,
+    throttle_vertex_buffer: Arc<Buffer<PositionOnlyVertex>>,
+}
+
+impl Pedals {
+    pub fn new(
+        gui_handler: &Arc<GuiHandler>,
+        device: Arc<Device>,
+        queue: Arc<Mutex<Queue>>,
+    ) -> Result<Self> {
+        const DESC: &str = include_str!("pedals.xml");
+
+        let gui = GuiBuilder::from_str(gui_handler, DESC)?;
+
+        let brake = gui.element("brake")?;
+        let throttle = gui.element("throttle")?;
+        let history: Arc<Icon> = gui.element("history")?;
+
+        let (icon_width, icon_height) = history.extent();
+        let history_image = Image::empty(
+            icon_width as u32,
+            icon_height as u32,
+            VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT | VK_IMAGE_USAGE_SAMPLED_BIT,
+            VK_SAMPLE_COUNT_1_BIT,
+        )
+        .format(VK_FORMAT_R8G8B8A8_UNORM)
+        .attach_sampler(Sampler::nearest_sampler().build(&device)?)
+        .build(&device, &queue)?;
+
+        history_image.convert_layout(VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL)?;
+
+        history.set_icon(&history_image)?;
+
+        let render_target = RenderTarget::builder()
+            .add_sub_pass(
+                SubPass::builder(history_image.width(), history_image.height())
+                    .set_prepared_targets(&[history_image.clone()], 0, [0.3, 0.3, 0.3, 1.0], true)
+                    .build(&device, &queue)?,
+            )
+            .build(&device)?;
+
+        let pipeline = HistoryPipeline::new(
+            device.clone(),
+            render_target.render_pass(),
+            history_image.width(),
+            history_image.height(),
+        )?;
+
+        let ortho = ortho(0.0, history_image.width() as f32, -0.01, 1.01, -1.0, 1.0);
+
+        let descriptor_pool = DescriptorPool::builder()
+            .set_layout(pipeline.descriptor_layout().clone())
+            .set_descriptor_set_count(2)
+            .build(device.clone())?;
+
+        let brake_color_buffer: Arc<Buffer<f32>> = Buffer::builder()
+            .set_usage(VK_BUFFER_USAGE_UNIFORM_BUFFER_BIT)
+            .set_memory_usage(MemoryUsage::CpuOnly)
+            .set_data(&[0.9, 0.0, 0.0, 1.0])
+            .build(device.clone())?;
+
+        write_log!("allocate brake descriptor");
+
+        let brake_descriptor = descriptor_pool.prepare_set().allocate()?;
+        brake_descriptor.update(&[DescriptorWrite::uniform_buffers(0, &[&brake_color_buffer])])?;
+
+        let throttle_color_buffer: Arc<Buffer<f32>> = Buffer::builder()
+            .set_usage(VK_BUFFER_USAGE_UNIFORM_BUFFER_BIT)
+            .set_memory_usage(MemoryUsage::CpuOnly)
+            .set_data(&[0.0, 0.9, 0.0, 1.0])
+            .build(device.clone())?;
+
+        write_log!("allocate throttle descriptor");
+
+        let throttle_descriptor = descriptor_pool.prepare_set().allocate()?;
+        throttle_descriptor.update(&[DescriptorWrite::uniform_buffers(
+            0,
+            &[&throttle_color_buffer],
+        )])?;
+
+        let mut throttle_samples = HeapRb::new(icon_width as usize);
+        let mut brake_samples = HeapRb::new(icon_width as usize);
+
+        for _ in 0..icon_width {
+            throttle_samples.push_overwrite(0.0);
+            brake_samples.push_overwrite(0.0);
+        }
+
+        let brake_vertex_buffer = Self::create_vertex_buffer(&device, icon_width as VkDeviceSize)?;
+        let throttle_vertex_buffer =
+            Self::create_vertex_buffer(&device, icon_width as VkDeviceSize)?;
+
+        let me = Self {
+            gui,
+
+            brake,
+            throttle,
+            _history: history,
+
+            throttle_samples,
+            brake_samples,
+
+            ortho,
+
+            device,
+            queue,
+
+            render_target,
+            pipeline,
+
+            brake_descriptor,
+            brake_vertex_buffer,
+            throttle_descriptor,
+            throttle_vertex_buffer,
+        };
+
+        me.update_vertex_buffers()?;
+
+        Ok(me)
+    }
+
+    fn create_vertex_buffer(
+        device: &Arc<Device>,
+        size: VkDeviceSize,
+    ) -> Result<Arc<Buffer<PositionOnlyVertex>>> {
+        Buffer::builder()
+            .set_usage(VK_BUFFER_USAGE_VERTEX_BUFFER_BIT)
+            .set_memory_usage(MemoryUsage::CpuOnly)
+            .set_size(size)
+            .build(device.clone())
+    }
+
+    fn update_vertex_buffers(&self) -> Result<()> {
+        self.update_vertex_buffer(
+            &self.throttle_vertex_buffer,
+            self.throttle_samples.as_slices(),
+        )?;
+        self.update_vertex_buffer(&self.brake_vertex_buffer, self.brake_samples.as_slices())?;
+
+        Ok(())
+    }
+
+    fn update_vertex_buffer(
+        &self,
+        buffer: &Arc<Buffer<PositionOnlyVertex>>,
+        (data1, data2): (&[f32], &[f32]),
+    ) -> Result<()> {
+        let points = data1
+            .iter()
+            .chain(data2.iter())
+            .enumerate()
+            .map(|(x, &date)| PositionOnlyVertex {
+                position: self.ortho * vec4(x as f32, date, 0.0, 1.0),
+            })
+            .collect::<Vec<PositionOnlyVertex>>();
+
+        buffer.fill(&points)
+    }
+
+    pub fn render(&self) -> Result<Arc<CommandBuffer>> {
+        let command_buffer =
+            CommandBuffer::new_primary().build(self.device.clone(), self.queue.clone())?;
+
+        {
+            let mut recorder = command_buffer.begin(VkCommandBufferBeginInfo::new(
+                VK_COMMAND_BUFFER_USAGE_ONE_TIME_SUBMIT_BIT
+                    | VK_COMMAND_BUFFER_USAGE_SIMULTANEOUS_USE_BIT,
+            ))?;
+
+            self.render_target
+                .begin(&recorder, VK_SUBPASS_CONTENTS_INLINE, 0);
+
+            recorder.bind_pipeline(self.pipeline.pipeline())?;
+
+            recorder.bind_descriptor_sets_minimal(&[&self.throttle_descriptor]);
+            recorder.bind_vertex_buffer(&self.throttle_vertex_buffer);
+            recorder.draw_complete_single_instance(self.throttle_vertex_buffer.size() as u32);
+
+            recorder.bind_descriptor_sets_minimal(&[&self.brake_descriptor]);
+            recorder.bind_vertex_buffer(&self.brake_vertex_buffer);
+            recorder.draw_complete_single_instance(self.brake_vertex_buffer.size() as u32);
+
+            self.render_target.end(&recorder);
+        }
+
+        Ok(command_buffer)
+    }
+}
+
+impl UiOverlay for Pedals {}
+
+impl DataReceiver for Pedals {
+    fn scoring_update(
+        &mut self,
+        _phase: GamePhase,
+        _vehicle_scoring: &[VehicleScoringInfoV01],
+    ) -> Result<()> {
+        Ok(())
+    }
+
+    fn telemetry_update(
+        &mut self,
+        player_id: Option<i32>,
+        telemetries: &[rF2VehicleTelemetry],
+    ) -> Result<()> {
+        match player_id {
+            Some(id) => {
+                self.gui.enable()?;
+
+                if let Some(telemetry) = telemetries.iter().find(|telemetry| telemetry.id == id) {
+                    let brake = 1.0 - telemetry.unfiltered_brake as f32;
+                    let throttle = 1.0 - telemetry.unfiltered_throttle as f32;
+
+                    self.throttle.set_progress(throttle)?;
+                    self.brake.set_progress(brake)?;
+
+                    self.throttle_samples.push_overwrite(throttle);
+                    self.brake_samples.push_overwrite(brake);
+
+                    self.update_vertex_buffers()?;
+                }
+            }
+            None => {
+                self.gui.disable()?;
+            }
+        }
+
+        Ok(())
+    }
+}
+
+#[cfg(test)]
+mod test {
+    use ringbuf::{HeapRb, Rb};
+
+    #[test]
+    fn rb_test() {
+        const CAP: usize = 10;
+
+        let mut buf = HeapRb::new(CAP);
+
+        for _ in 0..CAP {
+            buf.push_overwrite(20);
+        }
+
+        println!("{:?}", buf.as_slices());
+
+        buf.push_overwrite(40);
+        buf.push_overwrite(40);
+        buf.push_overwrite(40);
+        buf.push_overwrite(40);
+
+        println!("{:?}", buf.as_slices());
+    }
+}
--- a/src/overlay/elements/pedals/pedals.xml
+++ b/src/overlay/elements/pedals/pedals.xml
@ -0,0 +1,14 @@
+<?xml-model href="../gui.xsd" type="application/xml" schematypens="http://www.w3.org/2001/XMLSchema"?>
+<root reference_width="2560" reference_height="1440">
+    <grid x_dim="10" y_dim="2" x_offset="-850" y_offset="-190" width="200" height="160"
+        vert_align="bottom" hori_align="right" margin="3" padding="3" background="#686868">
+        <progressbar id="brake" x_slot="0" y_slot="0" y_size="2" background="#494949"
+            direction="bottom_to_top" foreground="#e30000"></progressbar>
+        <progressbar id="throttle"
+            x_slot="1" y_slot="0" y_size="2" background="#494949" direction="bottom_to_top"
+            foreground="#00b900"></progressbar>
+
+        <icon id="history" x_slot="2" x_size="8" y_slot="0"
+            y_size="2"></icon>
+    </grid>
+</root>
--- a/src/overlay/elements/pedals/pipeline.rs
+++ b/src/overlay/elements/pedals/pipeline.rs
@ -0,0 +1,102 @@
+use anyhow::Result;
+use vulkan_rs::prelude::*;
+
+use std::{mem, sync::Arc};
+
+use super::super::PositionOnlyVertex;
+
+pub struct HistoryPipeline {
+    pipeline: Arc<Pipeline>,
+    descriptor_layout: Arc<DescriptorSetLayout>,
+}
+
+impl HistoryPipeline {
+    pub fn new(
+        device: Arc<Device>,
+        renderpass: &Arc<RenderPass>,
+        width: u32,
+        height: u32,
+    ) -> Result<Self> {
+        let vertex_shader = ShaderModule::from_slice(
+            device.clone(),
+            include_bytes!("history.vert.spv"),
+            ShaderType::Vertex,
+        )?;
+        let fragment_shader = ShaderModule::from_slice(
+            device.clone(),
+            include_bytes!("history.frag.spv"),
+            ShaderType::Fragment,
+        )?;
+
+        let descriptor_layout = DescriptorSetLayout::builder()
+            .add_layout_binding(
+                0,
+                VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER,
+                VK_SHADER_STAGE_FRAGMENT_BIT,
+                0,
+            )
+            .build(device.clone())?;
+
+        let pipeline_layout = PipelineLayout::builder()
+            .add_descriptor_set_layout(&descriptor_layout)
+            .build(device.clone())?;
+
+        let viewport = VkViewport {
+            x: 0.0,
+            y: 0.0,
+            width: width as f32,
+            height: height as f32,
+            minDepth: 0.0,
+            maxDepth: 1.0,
+        };
+
+        let scissor = VkRect2D {
+            offset: VkOffset2D { x: 0, y: 0 },
+            extent: VkExtent2D {
+                width: width,
+                height: height,
+            },
+        };
+
+        let pipeline = Pipeline::new_graphics()
+            .set_vertex_shader(
+                vertex_shader.clone(),
+                vec![VkVertexInputBindingDescription {
+                    binding: 0,
+                    stride: mem::size_of::<PositionOnlyVertex>() as u32,
+                    inputRate: VK_VERTEX_INPUT_RATE_VERTEX,
+                }],
+                vec![
+                    // position
+                    VkVertexInputAttributeDescription {
+                        location: 0,
+                        binding: 0,
+                        format: VK_FORMAT_R32G32B32A32_SFLOAT,
+                        offset: 0,
+                    },
+                ],
+            )
+            .set_fragment_shader(fragment_shader.clone())
+            .input_assembly(VK_PRIMITIVE_TOPOLOGY_LINE_STRIP, false)
+            .default_depth_stencil(false, false)
+            .default_color_blend(vec![VkPipelineColorBlendAttachmentState::default()])
+            .default_rasterization(VK_CULL_MODE_NONE, VK_FRONT_FACE_COUNTER_CLOCKWISE)
+            .default_multisample(VK_SAMPLE_COUNT_1_BIT)
+            .add_viewport(viewport)
+            .add_scissor(scissor)
+            .build(device, &pipeline_layout, &renderpass, 0)?;
+
+        Ok(Self {
+            descriptor_layout,
+            pipeline,
+        })
+    }
+
+    pub fn pipeline(&self) -> &Arc<Pipeline> {
+        &self.pipeline
+    }
+
+    pub fn descriptor_layout(&self) -> &Arc<DescriptorSetLayout> {
+        &self.descriptor_layout
+    }
+}
--- a/src/overlay/elements/radar/mod.rs
+++ b/src/overlay/elements/radar/mod.rs
@ -0,0 +1,454 @@
+mod pipeline;
+
+use anyhow::Result;
+use cgmath::{ortho, vec2, vec3, vec4, Deg, InnerSpace, Matrix4, Rad, Vector2, Vector3};
+use rfactor_sm_reader::*;
+use serde::{Deserialize, Serialize};
+use vulkan_rs::prelude::*;
+
+use std::sync::{Arc, Mutex};
+
+use pipeline::SingleColorPipeline;
+
+use crate::{
+    overlay::{
+        rendering::Rendering,
+        rfactor_data::{DataReceiver, GamePhase},
+        UiOverlay,
+    },
+    write_log,
+};
+
+use super::PositionOnlyVertex;
+
+fn convert_vec(v: rF2Vec3) -> Vector3<f32> {
+    vec3(v.x as f32, v.y as f32, v.z as f32)
+}
+
+#[derive(Deserialize, Serialize, Clone, Copy, Debug)]
+pub struct RadarConfig {
+    pub radar_scale: f32,
+    pub radar_center_factor: f32,
+    pub radar_transparency: f32,
+    pub height_scale: f32,
+    pub width_scale: f32,
+    pub radar_car_distance: f32,
+    pub safe_color: Vector3<f32>,
+    pub danger_color: Vector3<f32>,
+}
+
+impl RadarConfig {
+    pub const fn new() -> Self {
+        Self {
+            radar_scale: 1.0,
+            radar_center_factor: 0.25,
+            radar_transparency: 0.5,
+            height_scale: 0.15,
+            width_scale: 0.4,
+            radar_car_distance: 20.0,
+            safe_color: vec3(0.0, 0.75, 0.0),
+            danger_color: vec3(0.75, 0.0, 0.0),
+        }
+    }
+}
+
+pub struct Radar {
+    // config
+    config: RadarConfig,
+
+    // radar objects
+    background: Option<RadarObject>,
+    player_car: RadarObject,
+    cars: Vec<RadarObject>,
+
+    // buffer car objects, to prevent recreating them every update
+    car_handles: Vec<RadarObject>,
+
+    // math objects
+    radar_center: Vector2<f32>,
+    ortho: Matrix4<f32>,
+    _window_width: u32,
+    _window_height: u32,
+    radar_extent: f32,
+    car_width: f32,
+    car_height: f32,
+
+    device: Arc<Device>,
+    queue: Arc<Mutex<Queue>>,
+
+    pipeline: SingleColorPipeline,
+    render_target: RenderTarget,
+}
+
+impl Radar {
+    pub fn new(
+        config: RadarConfig,
+        device: Arc<Device>,
+        queue: Arc<Mutex<Queue>>,
+        rendering: &Rendering,
+    ) -> Result<Self> {
+        let radar_extent = rendering.swapchain().width() as f32 * 0.075 * config.radar_scale;
+        let car_height = radar_extent * config.height_scale;
+        let car_width = car_height * config.width_scale;
+        let radar_center = vec2(
+            rendering.swapchain().width() as f32 / 2.0,
+            rendering.swapchain().height() as f32 / 2.0
+                - rendering.swapchain().height() as f32 * config.radar_center_factor,
+        );
+
+        let flip_y = matrix4_from_diagonal(vec3(1.0, -1.0, 1.0));
+        let ortho = flip_y
+            * ortho(
+                0.0,
+                rendering.swapchain().width() as f32,
+                0.0,
+                rendering.swapchain().height() as f32,
+                -1.0,
+                1.0,
+            );
+
+        let render_target = RenderTarget::builder()
+            .add_sub_pass(
+                SubPass::builder(
+                    rendering.swapchain().width(),
+                    rendering.swapchain().height(),
+                )
+                .set_prepared_targets(&rendering.images(), 0, [0.0, 0.0, 0.0, 1.0], false)
+                .build(&device, &queue)?,
+            )
+            .build(&device)?;
+
+        let pipeline = SingleColorPipeline::new(
+            device.clone(),
+            render_target.render_pass(),
+            rendering.swapchain().width(),
+            rendering.swapchain().height(),
+        )?;
+
+        Ok(Self {
+            config,
+
+            background: if config.radar_transparency == 0.0 {
+                None
+            } else {
+                Some(RadarObject::new(
+                    device.clone(),
+                    pipeline.descriptor_layout(),
+                    PositionOnlyVertex::from_2d_corners(
+                        ortho * Matrix4::from_translation(radar_center.extend(0.0)),
+                        [
+                            vec2(-radar_extent, -radar_extent),
+                            vec2(-radar_extent, radar_extent),
+                            vec2(radar_extent, radar_extent),
+                            vec2(radar_extent, -radar_extent),
+                        ],
+                    ),
+                    [0.5, 0.5, 0.5, config.radar_transparency],
+                )?)
+            },
+            player_car: RadarObject::new(
+                device.clone(),
+                pipeline.descriptor_layout(),
+                PositionOnlyVertex::from_2d_corners(
+                    ortho * Matrix4::from_translation(radar_center.extend(0.0)),
+                    [
+                        vec2(-car_width, -car_height),
+                        vec2(-car_width, car_height),
+                        vec2(car_width, car_height),
+                        vec2(car_width, -car_height),
+                    ],
+                ),
+                [0.0, 0.9, 0.0, 0.9],
+            )?,
+            cars: Vec::new(),
+            car_handles: Vec::new(),
+
+            radar_center,
+            ortho,
+            _window_width: rendering.swapchain().width(),
+            _window_height: rendering.swapchain().height(),
+            radar_extent,
+            car_width,
+            car_height,
+
+            device,
+            queue,
+
+            render_target,
+            pipeline,
+        })
+    }
+
+    fn create_car_object(&self, offset: Vector2<f32>, color: [f32; 4]) -> Result<RadarObject> {
+        write_log!(" =================== create car object ===================");
+
+        RadarObject::new(
+            self.device.clone(),
+            &self.pipeline.descriptor_layout(),
+            Self::create_car_vertices(
+                self.ortho
+                    * Matrix4::from_translation(self.radar_center.extend(0.0))
+                    * Matrix4::from_translation(offset.extend(0.0)),
+                self.car_width,
+                self.car_height,
+            ),
+            color,
+        )
+    }
+
+    fn create_car_vertices(
+        mvp: Matrix4<f32>,
+        car_width: f32,
+        car_height: f32,
+    ) -> [PositionOnlyVertex; 6] {
+        PositionOnlyVertex::from_2d_corners(
+            mvp,
+            [
+                vec2(-car_width, -car_height),
+                vec2(-car_width, car_height),
+                vec2(car_width, car_height),
+                vec2(car_width, -car_height),
+            ],
+        )
+    }
+
+    pub fn render(&self, image_index: u32) -> Result<Arc<CommandBuffer>> {
+        let command_buffer =
+            CommandBuffer::new_primary().build(self.device.clone(), self.queue.clone())?;
+
+        {
+            let mut recorder = command_buffer.begin(VkCommandBufferBeginInfo::new(
+                VK_COMMAND_BUFFER_USAGE_ONE_TIME_SUBMIT_BIT
+                    | VK_COMMAND_BUFFER_USAGE_SIMULTANEOUS_USE_BIT,
+            ))?;
+
+            self.render_target
+                .begin(&recorder, VK_SUBPASS_CONTENTS_INLINE, image_index as usize);
+
+            recorder.bind_pipeline(self.pipeline.pipeline())?;
+
+            for object in self.objects() {
+                let buffer = &object.position_buffer;
+
+                recorder.bind_descriptor_sets_minimal(&[&object.descriptor_set]);
+                recorder.bind_vertex_buffer(buffer);
+                recorder.draw_complete_single_instance(buffer.size() as u32);
+            }
+
+            self.render_target.end(&recorder);
+        }
+
+        Ok(command_buffer)
+    }
+
+    fn objects(&self) -> Vec<&RadarObject> {
+        write_log!(" =================== get objects of radar ===================");
+
+        let mut objects = Vec::new();
+
+        // only draw radar when any car is near enough
+        if !self.cars.is_empty() {
+            if let Some(background) = &self.background {
+                objects.push(background);
+            }
+
+            for other_player_cars in &self.cars {
+                objects.push(other_player_cars);
+            }
+
+            objects.push(&self.player_car);
+        }
+
+        write_log!(format!("obj count {}", objects.len()));
+
+        objects
+    }
+}
+
+impl UiOverlay for Radar {}
+
+impl DataReceiver for Radar {
+    fn scoring_update(
+        &mut self,
+        _phase: GamePhase,
+        _vehicle_scoring: &[VehicleScoringInfoV01],
+    ) -> Result<()> {
+        Ok(())
+    }
+
+    fn telemetry_update(
+        &mut self,
+        player_id: Option<i32>,
+        telemetries: &[rF2VehicleTelemetry],
+    ) -> Result<()> {
+        write_log!(" ============================ Radar telemetry udpate ======================");
+        write_log!(format!("player id {:?}", player_id));
+
+        self.cars.clear();
+
+        if let Some(player_id) = player_id {
+            // make sure there are enough cars in buffer
+            if self.car_handles.len() < telemetries.len() {
+                let size_diff = telemetries.len() - self.car_handles.len();
+
+                for _ in 0..size_diff {
+                    self.car_handles
+                        .push(self.create_car_object(vec2(0.0, 0.0), [0.0, 0.0, 0.0, 0.0])?);
+                }
+            }
+
+            let mut player_position = CarPosition::default();
+            let mut other_positions = Vec::new();
+
+            for telemetry in telemetries {
+                let car = CarPosition::new(
+                    convert_vec(telemetry.position),
+                    [
+                        convert_vec(telemetry.orientation[0]),
+                        convert_vec(telemetry.orientation[1]),
+                        convert_vec(telemetry.orientation[2]),
+                    ],
+                );
+
+                if telemetry.id == player_id {
+                    player_position = car
+                } else {
+                    other_positions.push(car);
+                }
+            }
+
+            // update radar objects
+            let mut buffer_car_index = 0;
+
+            for other_position in other_positions {
+                let diff = player_position.position - other_position.position;
+                let distance = diff.magnitude();
+
+                // check if car is close enough to the players car
+                if distance < self.config.radar_car_distance {
+                    let offset = diff.xz() * (self.radar_extent / self.config.radar_car_distance);
+
+                    let buffered_car = self.car_handles[buffer_car_index].clone();
+                    buffer_car_index += 1;
+                    buffered_car.update(
+                        self.ortho,
+                        offset,
+                        player_position.rotation,
+                        other_position.rotation,
+                        self.radar_center,
+                        self.car_width,
+                        self.car_height,
+                        [0.9, 0.9, 0.0, 0.9],
+                    )?;
+
+                    self.cars.push(buffered_car);
+                }
+            }
+        }
+
+        write_log!(format!("other cars: {:?}", self.cars.len()));
+
+        Ok(())
+    }
+}
+
+#[derive(Clone)]
+struct RadarObject {
+    descriptor_set: Arc<DescriptorSet>,
+
+    // uniform buffer
+    color_buffer: Arc<Buffer<f32>>,
+
+    // vertex buffer
+    position_buffer: Arc<Buffer<PositionOnlyVertex>>,
+}
+
+impl RadarObject {
+    fn new(
+        device: Arc<Device>,
+        descriptor_layout: &Arc<DescriptorSetLayout>,
+        positions: [PositionOnlyVertex; 6],
+        color: [f32; 4],
+    ) -> Result<Self> {
+        let color_buffer = Buffer::builder()
+            .set_usage(VK_BUFFER_USAGE_UNIFORM_BUFFER_BIT)
+            .set_memory_usage(MemoryUsage::CpuOnly)
+            .set_data(&color)
+            .build(device.clone())?;
+
+        let position_buffer = Buffer::builder()
+            .set_usage(VK_BUFFER_USAGE_VERTEX_BUFFER_BIT)
+            .set_memory_usage(MemoryUsage::CpuOnly)
+            .set_data(&positions)
+            .build(device.clone())?;
+
+        let descriptor_pool = DescriptorPool::builder()
+            .set_layout(descriptor_layout.clone())
+            .build(device.clone())?;
+
+        let descriptor_set = descriptor_pool.prepare_set().allocate()?;
+        descriptor_set.update(&[DescriptorWrite::uniform_buffers(0, &[&color_buffer])])?;
+
+        Ok(Self {
+            descriptor_set,
+            color_buffer,
+            position_buffer,
+        })
+    }
+
+    pub fn update(
+        &self,
+
+        ortho: Matrix4<f32>,
+        offset: Vector2<f32>,
+        player_rotation: impl Into<Deg<f32>>,
+        rotation: impl Into<Deg<f32>>,
+        radar_center: Vector2<f32>,
+        car_width: f32,
+        car_height: f32,
+        color: [f32; 4],
+    ) -> Result<()> {
+        self.position_buffer.fill(&Radar::create_car_vertices(
+            ortho
+                * Matrix4::from_translation(radar_center.extend(0.0))
+                * Matrix4::from_angle_z(-player_rotation.into())
+                * Matrix4::from_translation(offset.extend(0.0))
+                * Matrix4::from_angle_z(rotation.into()),
+            car_width,
+            car_height,
+        ))?;
+        self.color_buffer.fill(&color)
+    }
+}
+
+struct CarPosition {
+    pub position: Vector3<f32>,
+    pub rotation: Rad<f32>,
+}
+
+impl CarPosition {
+    fn new(position: Vector3<f32>, orientation: [Vector3<f32>; 3]) -> Self {
+        Self {
+            position,
+            rotation: Rad(orientation[2].x.atan2(orientation[2].z)),
+        }
+    }
+}
+
+impl Default for CarPosition {
+    fn default() -> Self {
+        Self {
+            position: vec3(0.0, 0.0, 0.0),
+            rotation: Rad(0.0),
+        }
+    }
+}
+
+const fn matrix4_from_diagonal(diagonal: Vector3<f32>) -> Matrix4<f32> {
+    Matrix4::from_cols(
+        vec4(diagonal.x, 0.0, 0.0, 0.0),
+        vec4(0.0, diagonal.y, 0.0, 0.0),
+        vec4(0.0, 0.0, diagonal.z, 0.0),
+        vec4(0.0, 0.0, 0.0, 1.0),
+    )
+}
--- a/src/overlay/elements/radar/pipeline.rs
+++ b/src/overlay/elements/radar/pipeline.rs
@ -3,7 +3,7 @@ use vulkan_rs::prelude::*;

 use std::{mem, sync::Arc};

-use super::rendering::PositionOnlyVertex;
+use super::PositionOnlyVertex;

 pub struct SingleColorPipeline {
    pipeline: Arc<Pipeline>,
@ -11,15 +11,20 @@ pub struct SingleColorPipeline {
 }

 impl SingleColorPipeline {
-    pub fn new(device: Arc<Device>, renderpass: &Arc<RenderPass>) -> Result<Self> {
+    pub fn new(
+        device: Arc<Device>,
+        renderpass: &Arc<RenderPass>,
+        width: u32,
+        height: u32,
+    ) -> Result<Self> {
        let vertex_shader = ShaderModule::from_slice(
            device.clone(),
-            include_bytes!("shader/single_color.vert.spv"),
+            include_bytes!("single_color.vert.spv"),
            ShaderType::Vertex,
        )?;
        let fragment_shader = ShaderModule::from_slice(
            device.clone(),
-            include_bytes!("shader/single_color.frag.spv"),
+            include_bytes!("single_color.frag.spv"),
            ShaderType::Fragment,
        )?;

@ -36,6 +41,23 @@ impl SingleColorPipeline {
            .add_descriptor_set_layout(&descriptor_layout)
            .build(device.clone())?;

+        let viewport = VkViewport {
+            x: 0.0,
+            y: 0.0,
+            width: width as f32,
+            height: height as f32,
+            minDepth: 0.0,
+            maxDepth: 1.0,
+        };
+
+        let scissor = VkRect2D {
+            offset: VkOffset2D { x: 0, y: 0 },
+            extent: VkExtent2D {
+                width: width,
+                height: height,
+            },
+        };
+
        let pipeline = Pipeline::new_graphics()
            .set_vertex_shader(
                vertex_shader.clone(),
@ -60,6 +82,8 @@ impl SingleColorPipeline {
            .default_color_blend(vec![VkPipelineColorBlendAttachmentState::default()])
            .default_rasterization(VK_CULL_MODE_NONE, VK_FRONT_FACE_COUNTER_CLOCKWISE)
            .default_multisample(VK_SAMPLE_COUNT_1_BIT)
+            .add_viewport(viewport)
+            .add_scissor(scissor)
            .build(device, &pipeline_layout, &renderpass, 0)?;

        Ok(Self {
--- a/src/overlay/elements/radar/single_color.frag
+++ b/src/overlay/elements/radar/single_color.frag
--- a/src/overlay/elements/radar/single_color.vert
+++ b/src/overlay/elements/radar/single_color.vert
@ -0,0 +1,8 @@
+#version 450
+
+layout (location = 0) in vec4 position;
+
+void main()
+{
+	gl_Position = position;
+}
--- a/src/overlay/elements/watermark/mod.rs
+++ b/src/overlay/elements/watermark/mod.rs
@ -0,0 +1,49 @@
+use std::sync::Arc;
+
+use anyhow::Result;
+use rfactor_sm_reader::{rF2VehicleTelemetry, VehicleScoringInfoV01};
+use ui::prelude::*;
+
+use crate::overlay::{
+    rfactor_data::{DataReceiver, GamePhase},
+    UiOverlay,
+};
+
+pub struct Watermark {
+    gui: Arc<GuiBuilder>,
+}
+
+impl Watermark {
+    pub fn new(gui_handler: &Arc<GuiHandler>) -> Result<Self> {
+        const DESC: &str = include_str!("watermark.xml");
+
+        let gui = GuiBuilder::from_str(gui_handler, DESC)?;
+
+        Ok(Self { gui })
+    }
+}
+
+impl UiOverlay for Watermark {}
+
+impl DataReceiver for Watermark {
+    fn scoring_update(
+        &mut self,
+        phase: GamePhase,
+        _vehicle_scoring: &[VehicleScoringInfoV01],
+    ) -> Result<()> {
+        match phase {
+            GamePhase::TestDay => self.gui.enable()?,
+            _ => self.gui.disable()?,
+        }
+
+        Ok(())
+    }
+
+    fn telemetry_update(
+        &mut self,
+        _player_id: Option<i32>,
+        _telemetries: &[rF2VehicleTelemetry],
+    ) -> Result<()> {
+        Ok(())
+    }
+}
--- a/src/overlay/elements/watermark/watermark.xml
+++ b/src/overlay/elements/watermark/watermark.xml
@ -0,0 +1,8 @@
+<?xml-model href="../gui.xsd" type="application/xml" schematypens="http://www.w3.org/2001/XMLSchema"?>
+<root reference_width="2560" reference_height="1440">
+    <grid x_dim="1" y_dim="1" x_offset="10" y_offset="10" width="300" height="50"
+        vert_align="top" hori_align="left" margin="2" padding="2" background="#c9c9c9">
+        <label x_slot="0" y_slot="0" text_color="#c9c9c9" text_ratio="1.0"
+            background="black">Vulkan Overlay Enabled</label>
+    </grid>
+</root>
--- a/src/overlay/mod.rs
+++ b/src/overlay/mod.rs
@ -2,28 +2,60 @@ use crate::write_log;

 use self::{
    rendering::Rendering,
-    rfactor_data::{DataConfig, RFactorData},
+    rfactor_data::{DataReceiver, RFactorData},
 };

-mod pipeline;
+mod elements;
 mod rendering;
 mod rfactor_data;

 use anyhow::Result;
-use std::sync::{Arc, Mutex};
+use assetpath::AssetPath;
+use std::{
+    cell::RefCell,
+    rc::Rc,
+    sync::{Arc, Mutex},
+};
+use ui::{guihandler::guihandler::Font, prelude::*};
 use vulkan_rs::prelude::*;

+use elements::*;
+
 use serde::{Deserialize, Serialize};

+pub trait UiOverlay: DataReceiver {}
+
+#[derive(Deserialize, Serialize)]
+pub struct UiSelectorConfig {
+    pub enable_watermark: bool,
+
+    pub enable_radar: bool,
+    pub enable_pedals: bool,
+    pub enable_leaderboard: bool,
+}
+
+impl UiSelectorConfig {
+    pub const fn new() -> Self {
+        Self {
+            enable_watermark: true,
+            enable_radar: true,
+            enable_pedals: true,
+            enable_leaderboard: true,
+        }
+    }
+}
+
 #[derive(Deserialize, Serialize)]
 pub struct OverlayConfig {
-    pub data_config: DataConfig,
+    pub ui_config: UiSelectorConfig,
+    pub radar_config: RadarConfig,
 }

 impl OverlayConfig {
    pub const fn new() -> Self {
        Self {
-            data_config: DataConfig::new(),
+            ui_config: UiSelectorConfig::new(),
+            radar_config: RadarConfig::new(),
        }
    }
 }
@ -35,6 +67,9 @@ pub struct Overlay {
    device: Option<Arc<Device>>,
    queue: Option<Arc<Mutex<Queue>>>,
    rendering: Option<Rendering>,
+    gui_handler: Option<Arc<GuiHandler>>,
+
+    ui_elements: Vec<Rc<RefCell<dyn UiOverlay>>>,

    rfactor_data: Option<RFactorData>,
 }
@ -48,6 +83,8 @@ impl Overlay {
            device: None,
            queue: None,
            rendering: None,
+            gui_handler: None,
+            ui_elements: Vec::new(),

            rfactor_data: None,
        }
@ -98,44 +135,192 @@ impl Overlay {

        write_log!("-> create rendering: old cleared");

-        self.rendering = Some(Rendering::new(self.device(), self.queue(), swapchain)?);
+        let mut rendering = Rendering::new(self.queue(), swapchain.clone())?;

        write_log!("-> create rendering: new created");
+
+        // only font is used
+        let mut create_info = GuiHandlerCreateInfo::default();
+
+        create_info.font = Font::Bytes(include_bytes!("../../font.png"));
+
+        // required to not crash
+        create_info.resource_directory = AssetPath::from("");
+        create_info.resource_directory.assume_prefix_free();
+
+        // provide trait required by GuiHandler
+        let ctx = Arc::new(ContextImpl::new(
+            self.device(),
+            self.queue(),
+            swapchain,
+            rendering.images().clone(),
+        ));
+
+        // create GuiHandler
+        let gui_handler = GuiHandler::new(create_info, &(ctx as Arc<dyn ContextInterface>))?;
+        write_log!("GuiHandler successfully created");
+
+        // create ui elements
+
+        // create watermark
+        if self.config.ui_config.enable_watermark {
+            let watermark = Rc::new(RefCell::new(Watermark::new(&gui_handler)?));
+
+            self.ui_elements.push(watermark);
+
+            write_log!("Watermark successfully created");
+        }
+
+        // create radar
+        if self.config.ui_config.enable_radar {
+            let radar = Rc::new(RefCell::new(Radar::new(
+                self.config.radar_config,
+                self.device(),
+                self.queue(),
+                &rendering,
+            )?));
+
+            rendering.add_render_callback({
+                let radar = radar.clone();
+
+                move |index| radar.borrow().render(index)
+            });
+
+            self.ui_elements.push(radar);
+
+            write_log!("Radar successfully created");
+        }
+
+        // create pedals
+        if self.config.ui_config.enable_pedals {
+            let pedals = Rc::new(RefCell::new(Pedals::new(
+                &gui_handler,
+                self.device(),
+                self.queue(),
+            )?));
+
+            self.ui_elements.push(pedals.clone());
+
+            rendering.add_render_callback(move |_| pedals.borrow().render());
+
+            write_log!("Pedals successfully created");
+        }
+
+        // create leaderboard
+        if self.config.ui_config.enable_leaderboard {
+            let leaderboard = Rc::new(RefCell::new(LeaderBoard::new(&gui_handler)?));
+            self.ui_elements.push(leaderboard);
+
+            write_log!("Leader Board successfully created");
+        }
+
+        // add rendering callbacks
+        rendering.add_render_callback({
+            let gui_handler = gui_handler.clone();
+            let device = self.device();
+            let queue = self.queue();
+
+            move |index| {
+                let command_buffer =
+                    CommandBuffer::new_primary().build(device.clone(), queue.clone())?;
+
+                {
+                    let mut recorder = command_buffer.begin(VkCommandBufferBeginInfo::new(
+                        VK_COMMAND_BUFFER_USAGE_ONE_TIME_SUBMIT_BIT
+                            | VK_COMMAND_BUFFER_USAGE_SIMULTANEOUS_USE_BIT,
+                    ))?;
+
+                    gui_handler.process(&mut recorder, &TargetMode::Mono(index as usize))?;
+                }
+
+                Ok(command_buffer)
+            }
+        });
+
+        write_log!("render callbacks added");
+
+        self.rendering = Some(rendering);
+        self.gui_handler = Some(gui_handler);
+
        write_log!("-> create rendering: end");

        Ok(())
    }

    pub fn render(&mut self) -> Result<()> {
-        let swapchain = self.rendering.as_ref().unwrap().swapchain().clone();
-
        if self.rfactor_data.is_none() {
-            self.rfactor_data = RFactorData::new(
-                self.config.data_config,
-                self.device(),
-                self.rendering
-                    .as_mut()
-                    .unwrap()
-                    .single_color_pipeline()
-                    .descriptor_layout(),
-                swapchain.width(),
-                swapchain.height(),
-            )
-            .ok();
+            self.rfactor_data = RFactorData::new().ok();

+            if let Some(data) = &mut self.rfactor_data {
                write_log!("created RFactorData");
+
+                for receiver in self.ui_elements.iter() {
+                    data.add_receiver(receiver.clone());
+                }
+            }
        }

-        // check twice for rfactor data, because of borrowing rules
        if let Some(rfactor) = &mut self.rfactor_data {
            rfactor.update()?;
        }

-        let objects = match &self.rfactor_data {
-            Some(rfactor) => rfactor.objects(),
-            None => Vec::new(),
-        };
-
-        self.rendering.as_mut().unwrap().render(swapchain, &objects)
+        self.rendering.as_ref().unwrap().render()
+    }
+}
+
+struct ContextImpl {
+    device: Arc<Device>,
+    queue: Arc<Mutex<Queue>>,
+    swapchain: Arc<Swapchain>,
+    images: Vec<Arc<Image>>,
+}
+
+impl ContextImpl {
+    fn new(
+        device: Arc<Device>,
+        queue: Arc<Mutex<Queue>>,
+        swapchain: Arc<Swapchain>,
+        images: Vec<Arc<Image>>,
+    ) -> Self {
+        Self {
+            device,
+            queue,
+            swapchain,
+            images,
+        }
+    }
+}
+
+impl ContextInterface for ContextImpl {
+    fn device(&self) -> &Arc<Device> {
+        &self.device
+    }
+
+    fn queue(&self) -> &Arc<Mutex<Queue>> {
+        &self.queue
+    }
+
+    fn format(&self) -> VkFormat {
+        self.swapchain.format()
+    }
+
+    fn image_layout(&self) -> VkImageLayout {
+        VK_IMAGE_LAYOUT_PRESENT_SRC_KHR
+    }
+
+    fn image_count(&self) -> usize {
+        self.images.len()
+    }
+
+    fn images(&self) -> TargetMode<Vec<Arc<Image>>> {
+        TargetMode::Mono(self.images.clone())
+    }
+
+    fn width(&self) -> u32 {
+        self.swapchain.width()
+    }
+
+    fn height(&self) -> u32 {
+        self.swapchain.height()
    }
 }
--- a/src/overlay/rendering.rs
+++ b/src/overlay/rendering.rs
@ -1,5 +1,4 @@
 use anyhow::Result;
-use cgmath::{Matrix4, Vector2, Vector4};
 use vulkan_rs::prelude::*;

 use std::{
@ -7,60 +6,19 @@ use std::{
    time::Duration,
 };

-use super::{pipeline::SingleColorPipeline, rfactor_data::RenderObject};
 use crate::write_log;

-#[derive(Clone)]
-pub struct PositionOnlyVertex {
-    pub position: Vector4<f32>,
-}
-
-impl PositionOnlyVertex {
-    ///
-    /// corners[0]  -  bottom left
-    /// corners[1]  -  top left
-    /// corners[2]  -  top right
-    /// corners[3]  -  bottom right
-    ///
-    pub fn from_2d_corners(ortho: Matrix4<f32>, corners: [Vector2<f32>; 4]) -> [Self; 6] {
-        [
-            Self {
-                position: ortho * corners[0].extend(0.0).extend(1.0),
-            },
-            Self {
-                position: ortho * corners[1].extend(0.0).extend(1.0),
-            },
-            Self {
-                position: ortho * corners[2].extend(0.0).extend(1.0),
-            },
-            Self {
-                position: ortho * corners[2].extend(0.0).extend(1.0),
-            },
-            Self {
-                position: ortho * corners[3].extend(0.0).extend(1.0),
-            },
-            Self {
-                position: ortho * corners[0].extend(0.0).extend(1.0),
-            },
-        ]
-    }
-}
-
 pub struct Rendering {
    swapchain: Arc<Swapchain>,
-    pipeline: SingleColorPipeline,
-    render_target: RenderTarget,
-    command_buffer: Arc<CommandBuffer>,
+    images: Vec<Arc<Image>>,

    queue: Arc<Mutex<Queue>>,
+
+    render_callbacks: Vec<Box<dyn Fn(u32) -> Result<Arc<CommandBuffer>>>>,
 }

 impl Rendering {
-    pub fn new(
-        device: Arc<Device>,
-        queue: Arc<Mutex<Queue>>,
-        swapchain: Arc<Swapchain>,
-    ) -> Result<Self> {
+    pub fn new(queue: Arc<Mutex<Queue>>, swapchain: Arc<Swapchain>) -> Result<Self> {
        crate::write_log!("-> Rendering ctor: begin");
        let vk_images = swapchain.vk_images()?;
        write_log!(format!(
@ -76,14 +34,6 @@ impl Rendering {
        };
        write_log!("-> Rendering ctor: wrapped images");

-        let render_target = RenderTarget::builder()
-            .add_sub_pass(
-                SubPass::builder(swapchain.width(), swapchain.height())
-                    .set_prepared_targets(&images, 0, [0.0, 0.0, 0.0, 1.0], false)
-                    .build(&device, &queue)?,
-            )
-            .build(&device)?;
-
        write_log!("-> Rendering ctor: created render_target");

        write_log!(format!(
@ -94,11 +44,11 @@ impl Rendering {

        Ok(Self {
            swapchain,
-            pipeline: SingleColorPipeline::new(device.clone(), render_target.render_pass())?,
-            render_target,
-            command_buffer: CommandBuffer::new_primary().build(device.clone(), queue.clone())?,
+            images,

            queue,
+
+            render_callbacks: Vec::new(),
        })
    }

@ -106,63 +56,34 @@ impl Rendering {
        &self.swapchain
    }

-    pub fn single_color_pipeline(&self) -> &SingleColorPipeline {
-        &self.pipeline
+    pub fn add_render_callback<F>(&mut self, f: F)
+    where
+        F: Fn(u32) -> Result<Arc<CommandBuffer>> + 'static,
+    {
+        self.render_callbacks.push(Box::new(f));
    }

-    pub fn render(
-        &mut self,
-        swapchain: Arc<Swapchain>,
-        objects: &[&dyn RenderObject],
-    ) -> Result<()> {
+    pub fn render(&self) -> Result<()> {
        let image_index = self.swapchain.current_index();

-        let viewport = [VkViewport {
-            x: 0.0,
-            y: 0.0,
-            width: swapchain.width() as f32,
-            height: swapchain.height() as f32,
-            minDepth: 0.0,
-            maxDepth: 1.0,
-        }];
+        let command_buffers: Vec<Arc<CommandBuffer>> = self
+            .render_callbacks
+            .iter()
+            .map(|c| c(image_index))
+            .collect::<Result<Vec<Arc<CommandBuffer>>>>()?;

-        let scissor = [VkRect2D {
-            offset: VkOffset2D { x: 0, y: 0 },
-            extent: VkExtent2D {
-                width: swapchain.width(),
-                height: swapchain.height(),
-            },
-        }];
-
-        {
-            let mut recorder = self.command_buffer.begin(VkCommandBufferBeginInfo::new(
-                VK_COMMAND_BUFFER_USAGE_ONE_TIME_SUBMIT_BIT
-                    | VK_COMMAND_BUFFER_USAGE_SIMULTANEOUS_USE_BIT,
-            ))?;
-
-            self.render_target
-                .begin(&recorder, VK_SUBPASS_CONTENTS_INLINE, image_index as usize);
-
-            recorder.bind_pipeline(self.pipeline.pipeline())?;
-            recorder.set_scissor(&scissor);
-            recorder.set_viewport(&viewport);
-
-            write_log!(format!("-> Rendering {} objects", objects.len()));
-
-            for object in objects {
-                let buffer = object.buffer();
-
-                recorder.bind_descriptor_sets_minimal(&[object.descriptor()]);
-                recorder.bind_vertex_buffer(buffer);
-                recorder.draw_complete_single_instance(buffer.size() as u32);
-            }
-
-            self.render_target.end(&recorder);
-        }
+        write_log!(format!(
+            "submitting {} commandbuffer(s)",
+            command_buffers.len()
+        ));

        let queue = self.queue.lock().unwrap();
-        queue.minimal_submit(Duration::from_secs(10), &[self.command_buffer.clone()])?;
+        queue.minimal_submit(Duration::from_secs(10), &command_buffers)?;

        Ok(())
    }
+
+    pub fn images(&self) -> &Vec<Arc<Image>> {
+        &self.images
+    }
 }
--- a/src/overlay/rfactor_data.rs
+++ b/src/overlay/rfactor_data.rs
@ -1,196 +1,81 @@
 use anyhow::Result;
-use cgmath::{ortho, vec2, vec3, vec4, Deg, InnerSpace, Matrix4, Rad, Vector2, Vector3};
 use rfactor_sm_reader::*;
-use vulkan_rs::prelude::*;

-use serde::{Deserialize, Serialize};
+use std::{cell::RefCell, rc::Rc, time::Instant};

-use std::{sync::Arc, time::Instant};
-
-use super::rendering::PositionOnlyVertex;
 use crate::write_log;

-fn convert_vec(v: rF2Vec3) -> Vector3<f32> {
-    vec3(v.x as f32, v.y as f32, v.z as f32)
+use super::UiOverlay;
+
+pub trait DataReceiver {
+    fn scoring_update(
+        &mut self,
+        phase: GamePhase,
+        vehicle_scoring: &[VehicleScoringInfoV01],
+    ) -> Result<()>;
+
+    fn telemetry_update(
+        &mut self,
+        player_id: Option<i32>,
+        telemetries: &[rF2VehicleTelemetry],
+    ) -> Result<()>;
 }

-pub trait RenderObject {
-    fn descriptor(&self) -> &Arc<DescriptorSet>;
-    fn buffer(&self) -> &Arc<Buffer<PositionOnlyVertex>>;
+#[derive(Clone, Copy, Debug)]
+pub enum GamePhase {
+    TestDay,
+    Practice,
+    Qualifying,
+    Warmup,
+    Race,
 }

-#[derive(Deserialize, Serialize, Clone, Copy, Debug)]
-pub struct DataConfig {
-    pub radar_scale: f32,
-    pub radar_center_factor: f32,
-    pub radar_transparency: f32,
-    pub height_scale: f32,
-    pub width_scale: f32,
-    pub radar_car_distance: f32,
-    pub safe_color: Vector3<f32>,
-    pub danger_color: Vector3<f32>,
-}
+impl TryFrom<i32> for GamePhase {
+    type Error = anyhow::Error;

-impl DataConfig {
-    pub const fn new() -> Self {
-        Self {
-            radar_scale: 1.0,
-            radar_center_factor: 0.25,
-            radar_transparency: 0.5,
-            height_scale: 0.15,
-            width_scale: 0.4,
-            radar_car_distance: 20.0,
-            safe_color: vec3(0.0, 0.75, 0.0),
-            danger_color: vec3(0.75, 0.0, 0.0),
-        }
+    fn try_from(value: i32) -> Result<Self> {
+        Ok(match value {
+            0 => Self::TestDay,
+            1..=4 => Self::Practice,
+            5..=8 => Self::Qualifying,
+            9 => Self::Warmup,
+            10..=13 => Self::Race,
+
+            _ => return Err(anyhow::anyhow!("Failed to parse GamePhase from: {}", value)),
+        })
    }
 }

 pub struct RFactorData {
-    // config
-    config: DataConfig,
-
    // rf2 memory mapped data
    telemetry_reader: TelemetryReader,
    scoring_reader: ScoringReader,

-    // radar objects
-    background: Option<RadarObject>,
-    player_car: RadarObject,
-    cars: Vec<RadarObject>,
-
-    // buffer car objects, to prevent recreating them every update
-    car_handles: Vec<RadarObject>,
-
-    // game info
+    start_time: Instant,
    player_id: Option<i32>,

-    // math objects
-    radar_center: Vector2<f32>,
-    ortho: Matrix4<f32>,
-    _window_width: u32,
-    _window_height: u32,
-    radar_extent: f32,
-    car_width: f32,
-    car_height: f32,
-
-    start_time: Instant,
-
-    device: Arc<Device>,
-    descriptor_layout: Arc<DescriptorSetLayout>,
+    receivers: Vec<Rc<RefCell<dyn UiOverlay>>>,
 }

 impl RFactorData {
-    pub fn new(
-        config: DataConfig,
-        device: Arc<Device>,
-        descriptor_layout: &Arc<DescriptorSetLayout>,
-        width: u32,
-        height: u32,
-    ) -> Result<Self> {
+    pub fn new() -> Result<Self> {
        write_log!(" =================== create RFactorData ===================");

-        let radar_extent = width as f32 * 0.075 * config.radar_scale;
-        let car_height = radar_extent * config.height_scale;
-        let car_width = car_height * config.width_scale;
-        let radar_center = vec2(
-            width as f32 / 2.0,
-            height as f32 / 2.0 - height as f32 * config.radar_center_factor,
-        );
-
-        let flip_y = matrix4_from_diagonal(vec3(1.0, -1.0, 1.0));
-        let ortho = flip_y * ortho(0.0, width as f32, 0.0, height as f32, -1.0, 1.0);
        let start_time = Instant::now();

        Ok(Self {
-            config,
-
            telemetry_reader: TelemetryReader::new(start_time.elapsed().as_secs_f32())?,
            scoring_reader: ScoringReader::new(start_time.elapsed().as_secs_f32())?,

-            background: if config.radar_transparency == 0.0 {
-                None
-            } else {
-                Some(RadarObject::new(
-                    device.clone(),
-                    descriptor_layout,
-                    PositionOnlyVertex::from_2d_corners(
-                        ortho * Matrix4::from_translation(radar_center.extend(0.0)),
-                        [
-                            vec2(-radar_extent, -radar_extent),
-                            vec2(-radar_extent, radar_extent),
-                            vec2(radar_extent, radar_extent),
-                            vec2(radar_extent, -radar_extent),
-                        ],
-                    ),
-                    [0.5, 0.5, 0.5, config.radar_transparency],
-                )?)
-            },
-            player_car: RadarObject::new(
-                device.clone(),
-                descriptor_layout,
-                PositionOnlyVertex::from_2d_corners(
-                    ortho * Matrix4::from_translation(radar_center.extend(0.0)),
-                    [
-                        vec2(-car_width, -car_height),
-                        vec2(-car_width, car_height),
-                        vec2(car_width, car_height),
-                        vec2(car_width, -car_height),
-                    ],
-                ),
-                [0.0, 0.9, 0.0, 0.9],
-            )?,
-            cars: Vec::new(),
-            car_handles: Vec::new(),
-
+            start_time,
            player_id: None,

-            radar_center,
-            ortho,
-            _window_width: width,
-            _window_height: height,
-            radar_extent,
-            car_width,
-            car_height,
-
-            start_time,
-
-            device,
-            descriptor_layout: descriptor_layout.clone(),
+            receivers: Vec::new(),
        })
    }

-    fn create_car_object(&self, offset: Vector2<f32>, color: [f32; 4]) -> Result<RadarObject> {
-        write_log!(" =================== create car object ===================");
-
-        RadarObject::new(
-            self.device.clone(),
-            &self.descriptor_layout,
-            Self::create_car_vertices(
-                self.ortho
-                    * Matrix4::from_translation(self.radar_center.extend(0.0))
-                    * Matrix4::from_translation(offset.extend(0.0)),
-                self.car_width,
-                self.car_height,
-            ),
-            color,
-        )
-    }
-
-    fn create_car_vertices(
-        mvp: Matrix4<f32>,
-        car_width: f32,
-        car_height: f32,
-    ) -> [PositionOnlyVertex; 6] {
-        PositionOnlyVertex::from_2d_corners(
-            mvp,
-            [
-                vec2(-car_width, -car_height),
-                vec2(-car_width, car_height),
-                vec2(car_width, car_height),
-                vec2(car_width, -car_height),
-            ],
-        )
+    pub fn add_receiver(&mut self, receiver: Rc<RefCell<dyn UiOverlay>>) {
+        self.receivers.push(receiver);
    }

    fn now(&self) -> f32 {
@ -200,8 +85,6 @@ impl RFactorData {
    pub fn update(&mut self) -> Result<()> {
        write_log!(" =================== update RFactorData ===================");

-        let mut should_render = false;
-
        // get scoring info
        if let Some((scoring_info, vehicle_scorings)) =
            self.scoring_reader.vehicle_scoring(self.now())
@ -224,223 +107,29 @@ impl RFactorData {
                }
            }

-            if let Some(id) = &self.player_id {
-                if let Some(vehicle_scoring) =
-                    vehicle_scorings.iter().find(|scoring| scoring.mID == *id)
-                {
-                    should_render = vehicle_scoring.mInPits != 0;
-                }
+            let phase = GamePhase::try_from(scoring_info.mSession)?;
+
+            write_log!(format!("GamePhase: {:?}", phase));
+
+            for receiver in self.receivers.iter() {
+                receiver
+                    .borrow_mut()
+                    .scoring_update(phase, &vehicle_scorings)?;
            }
        }

-        // if player id is set (a map is loaded), check telemetry data
-        if let Some(player_id) = &self.player_id {
+        // check telemetry data
        write_log!("before telemetry update");
        if let Some(telemetries) = self.telemetry_reader.query_telemetry(self.now()) {
            write_log!("new telemetry update");

-                self.cars.clear();
-
-                if should_render {
-                    // make sure there are enough cars in buffer
-                    if self.car_handles.len() < telemetries.len() {
-                        let size_diff = telemetries.len() - self.car_handles.len();
-
-                        for _ in 0..size_diff {
-                            self.car_handles.push(
-                                self.create_car_object(vec2(0.0, 0.0), [0.0, 0.0, 0.0, 0.0])?,
-                            );
-                        }
-                    }
-
-                    let mut player_position = CarPosition::default();
-                    let mut other_positions = Vec::new();
-
-                    for telemetry in telemetries {
-                        let car = CarPosition::new(
-                            convert_vec(telemetry.position),
-                            [
-                                convert_vec(telemetry.orientation[0]),
-                                convert_vec(telemetry.orientation[1]),
-                                convert_vec(telemetry.orientation[2]),
-                            ],
-                        );
-
-                        if telemetry.id == *player_id {
-                            player_position = car
-                        } else {
-                            other_positions.push(car);
-                        }
-                    }
-
-                    // update radar objects
-                    let mut buffer_car_index = 0;
-
-                    for other_position in other_positions {
-                        let diff = player_position.position - other_position.position;
-                        let distance = diff.magnitude();
-
-                        // check if car is close enough to the players car
-                        if distance < self.config.radar_car_distance {
-                            let offset =
-                                diff.xz() * (self.radar_extent / self.config.radar_car_distance);
-
-                            let buffered_car = self.car_handles[buffer_car_index].clone();
-                            buffer_car_index += 1;
-                            buffered_car.update(
-                                self.ortho,
-                                offset,
-                                player_position.rotation,
-                                other_position.rotation,
-                                self.radar_center,
-                                self.car_width,
-                                self.car_height,
-                                [0.9, 0.9, 0.0, 0.9],
-                            )?;
-
-                            self.cars.push(buffered_car);
-                        }
-                    }
-                }
+            for receiver in self.receivers.iter() {
+                receiver
+                    .borrow_mut()
+                    .telemetry_update(self.player_id, &telemetries)?;
            }
        }

        Ok(())
    }
-
-    pub fn objects(&self) -> Vec<&dyn RenderObject> {
-        write_log!(" =================== get objects of RFactorData ===================");
-
-        let mut objects: Vec<&dyn RenderObject> = Vec::new();
-
-        // only draw radar when player is loaded into a map
-        if let Some(_player_id) = &self.player_id {
-            // only draw radar when any car is near enough
-            if !self.cars.is_empty() {
-                if let Some(background) = &self.background {
-                    objects.push(background);
-                }
-
-                for other_player_cars in &self.cars {
-                    objects.push(other_player_cars);
-                }
-
-                objects.push(&self.player_car);
-            }
-        }
-
-        objects
-    }
-}
-
-#[derive(Clone)]
-struct RadarObject {
-    descriptor_set: Arc<DescriptorSet>,
-
-    // uniform buffer
-    color_buffer: Arc<Buffer<f32>>,
-
-    // vertex buffer
-    position_buffer: Arc<Buffer<PositionOnlyVertex>>,
-}
-
-impl RadarObject {
-    fn new(
-        device: Arc<Device>,
-        descriptor_layout: &Arc<DescriptorSetLayout>,
-        positions: [PositionOnlyVertex; 6],
-        color: [f32; 4],
-    ) -> Result<Self> {
-        let color_buffer = Buffer::builder()
-            .set_usage(VK_BUFFER_USAGE_UNIFORM_BUFFER_BIT)
-            .set_memory_usage(MemoryUsage::CpuOnly)
-            .set_data(&color)
-            .build(device.clone())?;
-
-        let position_buffer = Buffer::builder()
-            .set_usage(VK_BUFFER_USAGE_VERTEX_BUFFER_BIT)
-            .set_memory_usage(MemoryUsage::CpuOnly)
-            .set_data(&positions)
-            .build(device.clone())?;
-
-        let descriptor_pool = DescriptorPool::builder()
-            .set_layout(descriptor_layout.clone())
-            .build(device.clone())?;
-
-        let descriptor_set = descriptor_pool.prepare_set().allocate()?;
-        descriptor_set.update(&[DescriptorWrite::uniform_buffers(0, &[&color_buffer])])?;
-
-        Ok(Self {
-            descriptor_set,
-            color_buffer,
-            position_buffer,
-        })
-    }
-
-    pub fn update(
-        &self,
-
-        ortho: Matrix4<f32>,
-        offset: Vector2<f32>,
-        player_rotation: impl Into<Deg<f32>>,
-        rotation: impl Into<Deg<f32>>,
-        radar_center: Vector2<f32>,
-        car_width: f32,
-        car_height: f32,
-        color: [f32; 4],
-    ) -> Result<()> {
-        self.position_buffer
-            .fill(&RFactorData::create_car_vertices(
-                ortho
-                    * Matrix4::from_translation(radar_center.extend(0.0))
-                    * Matrix4::from_angle_z(-player_rotation.into())
-                    * Matrix4::from_translation(offset.extend(0.0))
-                    * Matrix4::from_angle_z(rotation.into()),
-                car_width,
-                car_height,
-            ))?;
-        self.color_buffer.fill(&color)
-    }
-}
-
-impl RenderObject for RadarObject {
-    fn descriptor(&self) -> &Arc<DescriptorSet> {
-        &self.descriptor_set
-    }
-
-    fn buffer(&self) -> &Arc<Buffer<PositionOnlyVertex>> {
-        &self.position_buffer
-    }
-}
-
-struct CarPosition {
-    pub position: Vector3<f32>,
-    pub rotation: Rad<f32>,
-}
-
-impl CarPosition {
-    fn new(position: Vector3<f32>, orientation: [Vector3<f32>; 3]) -> Self {
-        Self {
-            position,
-            rotation: Rad(orientation[2].x.atan2(orientation[2].z)),
-        }
-    }
-}
-
-impl Default for CarPosition {
-    fn default() -> Self {
-        Self {
-            position: vec3(0.0, 0.0, 0.0),
-            rotation: Rad(0.0),
-        }
-    }
-}
-
-const fn matrix4_from_diagonal(diagonal: Vector3<f32>) -> Matrix4<f32> {
-    Matrix4::from_cols(
-        vec4(diagonal.x, 0.0, 0.0, 0.0),
-        vec4(0.0, diagonal.y, 0.0, 0.0),
-        vec4(0.0, 0.0, diagonal.z, 0.0),
-        vec4(0.0, 0.0, 0.0, 1.0),
-    )
 }