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ui: add FirehoseLayout to settings (#35505)

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add FirehoseLayout
pull/35509/head
Dean Lee 5 months ago committed by GitHub
parent e015e319b7
commit 08aeeabc9b
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4 changed files with 224 additions and 53 deletions
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  1. 165
      selfdrive/ui/layouts/settings/firehose.py
  2. 13
      selfdrive/ui/layouts/settings/settings.py
  3. 2
      selfdrive/ui/qt/offroad/firehose.cc
  4. 97
      system/ui/lib/wrap_text.py

165
selfdrive/ui/layouts/settings/firehose.py
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@ -0,0 +1,165 @@
import pyray as rl
import time
import threading
from openpilot.common.api import Api, api_get
from openpilot.common.params import Params
from openpilot.common.swaglog import cloudlog
from openpilot.system.ui.lib.application import gui_app, Widget, FontWeight
from openpilot.system.ui.lib.wrap_text import wrap_text
from openpilot.system.ui.lib.scroll_panel import GuiScrollPanel
from openpilot.selfdrive.ui.ui_state import ui_state
TITLE = "Firehose Mode"
DESCRIPTION = (
"openpilot learns to drive by watching humans, like you, drive.\n\n"
+ "Firehose Mode allows you to maximize your training data uploads to improve "
+ "openpilot's driving models. More data means bigger models, which means better Experimental Mode."
)
INSTRUCTIONS = (
"For maximum effectiveness, bring your device inside and connect to a good USB-C adapter and Wi-Fi weekly.\n\n"
+ "Firehose Mode can also work while you're driving if connected to a hotspot or unlimited SIM card.\n\n"
+ "Frequently Asked Questions\n\n"
+ "Does it matter how or where I drive? Nope, just drive as you normally would.\n\n"
+ "Do all of my segments get pulled in Firehose Mode? No, we selectively pull a subset of your segments.\n\n"
+ "What's a good USB-C adapter? Any fast phone or laptop charger should be fine.\n\n"
+ "Does it matter which software I run? Yes, only upstream openpilot (and particular forks) are able to be used for training."
)
class FirehoseLayout(Widget):
PARAM_KEY = "ApiCache_FirehoseStats"
GREEN = rl.Color(46, 204, 113, 255)
RED = rl.Color(231, 76, 60, 255)
GRAY = rl.Color(68, 68, 68, 255)
LIGHT_GRAY = rl.Color(228, 228, 228, 255)
UPDATE_INTERVAL = 30 # seconds
def __init__(self):
super().__init__()
self.params = Params()
self.segment_count = int(self.params.get(self.PARAM_KEY, encoding='utf8') or 0)
self.scroll_panel = GuiScrollPanel()
self.running = True
self.update_thread = threading.Thread(target=self._update_loop, daemon=True)
self.update_thread.start()
self.last_update_time = 0
def __del__(self):
self.running = False
if self.update_thread and self.update_thread.is_alive():
self.update_thread.join(timeout=1.0)
def _render(self, rect: rl.Rectangle):
# Calculate content dimensions
content_width = rect.width - 80
content_height = self._calculate_content_height(int(content_width))
content_rect = rl.Rectangle(rect.x, rect.y, rect.width, content_height)
# Handle scrolling and render with clipping
scroll_offset = self.scroll_panel.handle_scroll(rect, content_rect)
rl.begin_scissor_mode(int(rect.x), int(rect.y), int(rect.width), int(rect.height))
self._render_content(rect, scroll_offset)
rl.end_scissor_mode()
def _calculate_content_height(self, content_width: int) -> int:
height = 80 # Top margin
# Title
height += 100 + 40
# Description
desc_font = gui_app.font(FontWeight.NORMAL)
desc_lines = wrap_text(desc_font, DESCRIPTION, 45, content_width)
height += len(desc_lines) * 45 + 40
# Status section
height += 32 # Separator
status_text, _ = self._get_status()
status_lines = wrap_text(gui_app.font(FontWeight.BOLD), status_text, 60, content_width)
height += len(status_lines) * 60 + 20
# Contribution count (if available)
if self.segment_count > 0:
contrib_text = f"{self.segment_count} segment(s) of your driving is in the training dataset so far."
contrib_lines = wrap_text(gui_app.font(FontWeight.BOLD), contrib_text, 52, content_width)
height += len(contrib_lines) * 52 + 20
# Instructions section
height += 32 # Separator
inst_lines = wrap_text(gui_app.font(FontWeight.NORMAL), INSTRUCTIONS, 40, content_width)
height += len(inst_lines) * 40 + 40 # Bottom margin
return height
def _render_content(self, rect: rl.Rectangle, scroll_offset: rl.Vector2):
x = int(rect.x + 40)
y = int(rect.y + 40 + scroll_offset.y)
w = int(rect.width - 80)
# Title
title_font = gui_app.font(FontWeight.MEDIUM)
rl.draw_text_ex(title_font, TITLE, rl.Vector2(x, y), 100, 0, rl.WHITE)
y += 140
# Description
y = self._draw_wrapped_text(x, y, w, DESCRIPTION, gui_app.font(FontWeight.NORMAL), 45, rl.WHITE)
y += 40
# Separator
rl.draw_rectangle(x, y, w, 2, self.GRAY)
y += 30
# Status
status_text, status_color = self._get_status()
y = self._draw_wrapped_text(x, y, w, status_text, gui_app.font(FontWeight.BOLD), 60, status_color)
y += 20
# Contribution count (if available)
if self.segment_count > 0:
contrib_text = f"{self.segment_count} segment(s) of your driving is in the training dataset so far."
y = self._draw_wrapped_text(x, y, w, contrib_text, gui_app.font(FontWeight.BOLD), 52, rl.WHITE)
y += 20
# Separator
rl.draw_rectangle(x, y, w, 2, self.GRAY)
y += 30
# Instructions
self._draw_wrapped_text(x, y, w, INSTRUCTIONS, gui_app.font(FontWeight.NORMAL), 40, self.LIGHT_GRAY)
def _draw_wrapped_text(self, x, y, width, text, font, size, color):
wrapped = wrap_text(font, text, size, width)
for line in wrapped:
rl.draw_text_ex(font, line, rl.Vector2(x, y), size, 0, color)
y += size
return y
def _get_status(self) -> tuple[str, rl.Color]:
network_type = ui_state.sm["deviceState"].networkType
network_metered = ui_state.sm["deviceState"].networkMetered
if not network_metered and network_type != 0: # Not metered and connected
return "ACTIVE", self.GREEN
else:
return "INACTIVE: connect to an unmetered network", self.RED
def _fetch_firehose_stats(self):
try:
dongle_id = self.params.get("DongleId", encoding='utf8') or ""
identity_token = Api(dongle_id).get_token()
response = api_get(f"v1/devices/{dongle_id}/firehose_stats", access_token=identity_token)
if response.status_code == 200:
data = response.json()
self.segment_count = data.get("firehose", 0)
self.params.put(self.PARAM_KEY, str(self.segment_count))
except Exception as e:
cloudlog.debug(f"Failed to fetch firehose stats: {e}")
def _update_loop(self):
while self.running:
if not ui_state.started:
self._fetch_firehose_stats()
time.sleep(self.UPDATE_INTERVAL)

13
selfdrive/ui/layouts/settings/settings.py
Unescape View File

@ -5,10 +5,10 @@ from collections.abc import Callable
from openpilot.common.params import Params
from openpilot.selfdrive.ui.layouts.settings.developer import DeveloperLayout
from openpilot.selfdrive.ui.layouts.settings.device import DeviceLayout
from openpilot.selfdrive.ui.layouts.settings.firehose import FirehoseLayout
from openpilot.selfdrive.ui.layouts.settings.software import SoftwareLayout
from openpilot.selfdrive.ui.layouts.settings.toggles import TogglesLayout
from openpilot.system.ui.lib.application import gui_app, FontWeight, Widget
from openpilot.system.ui.lib.label import gui_text_box
from openpilot.system.ui.lib.text_measure import measure_text_cached
from openpilot.selfdrive.ui.layouts.network import NetworkLayout
@ -61,7 +61,7 @@ class SettingsLayout(Widget):
PanelType.NETWORK: PanelInfo("Network", NetworkLayout(), rl.Rectangle(0, 0, 0, 0)),
PanelType.TOGGLES: PanelInfo("Toggles", TogglesLayout(), rl.Rectangle(0, 0, 0, 0)),
PanelType.SOFTWARE: PanelInfo("Software", SoftwareLayout(), rl.Rectangle(0, 0, 0, 0)),
PanelType.FIREHOSE: PanelInfo("Firehose", None, rl.Rectangle(0, 0, 0, 0)),
PanelType.FIREHOSE: PanelInfo("Firehose", FirehoseLayout(), rl.Rectangle(0, 0, 0, 0)),
PanelType.DEVELOPER: PanelInfo("Developer", DeveloperLayout(), rl.Rectangle(0, 0, 0, 0)),
}
@ -142,15 +142,6 @@ class SettingsLayout(Widget):
panel = self._panels[self._current_panel]
if panel.instance:
panel.instance.render(content_rect)
else:
gui_text_box(
content_rect,
f"Demo {self._panels[self._current_panel].name} Panel",
font_size=170,
color=rl.WHITE,
alignment=rl.GuiTextAlignment.TEXT_ALIGN_CENTER,
alignment_vertical=rl.GuiTextAlignmentVertical.TEXT_ALIGN_MIDDLE,
)
def _handle_mouse_release(self, mouse_pos: rl.Vector2) -> bool:
# Check close button

2
selfdrive/ui/qt/offroad/firehose.cc
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@ -20,7 +20,7 @@ FirehosePanel::FirehosePanel(SettingsWindow *parent) : QWidget((QWidget*)parent)
layout->setSpacing(20);
// header
QLabel *title = new QLabel(tr("🔥 Firehose Mode 🔥"));
QLabel *title = new QLabel(tr("Firehose Mode"));
title->setStyleSheet("font-size: 100px; font-weight: 500; font-family: 'Noto Color Emoji';");
layout->addWidget(title, 0, Qt::AlignCenter);

97
system/ui/lib/wrap_text.py
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@ -40,49 +40,64 @@ def wrap_text(font: rl.Font, text: str, font_size: int, max_width: int) -> list[
if not text or max_width <= 0:
return []
words = text.split()
if not words:
return []
# Split text by newlines first to preserve explicit line breaks
paragraphs = text.split('\n')
all_lines: list[str] = []
for paragraph in paragraphs:
# Handle empty paragraphs (preserve empty lines)
if not paragraph.strip():
all_lines.append("")
continue
lines: list[str] = []
current_line: list[str] = []
current_width = 0
space_width = int(measure_text_cached(font, " ", font_size).x)
# Process each paragraph separately
words = paragraph.split()
if not words:
all_lines.append("")
continue
for word in words:
word_width = int(measure_text_cached(font, word, font_size).x)
lines: list[str] = []
current_line: list[str] = []
current_width = 0
space_width = int(measure_text_cached(font, " ", font_size).x)
for word in words:
word_width = int(measure_text_cached(font, word, font_size).x)
# Check if word alone exceeds max width (need to break the word)
if word_width > max_width:
# Finish current line if it has content
if current_line:
lines.append(" ".join(current_line))
current_line = []
current_width = 0
# Break the long word into parts
lines.extend(_break_long_word(font, word, font_size, max_width))
continue
# Calculate width if we add this word
needed_width = current_width
if current_line: # Need space before word
needed_width += space_width
needed_width += word_width
# Check if word fits on current line
if needed_width <= max_width:
current_line.append(word)
current_width = needed_width
else:
# Start new line with this word
if current_line:
lines.append(" ".join(current_line))
current_line = [word]
current_width = word_width
# Check if word alone exceeds max width (need to break the word)
if word_width > max_width:
# Finish current line if it has content
if current_line:
lines.append(" ".join(current_line))
current_line = []
current_width = 0
# Add remaining words
if current_line:
lines.append(" ".join(current_line))
# Break the long word into parts
lines.extend(_break_long_word(font, word, font_size, max_width))
continue
# Add all lines from this paragraph
all_lines.extend(lines)
# Calculate width if we add this word
needed_width = current_width
if current_line: # Need space before word
needed_width += space_width
needed_width += word_width
# Check if word fits on current line
if needed_width <= max_width:
current_line.append(word)
current_width = needed_width
else:
# Start new line with this word
if current_line:
lines.append(" ".join(current_line))
current_line = [word]
current_width = word_width
# Add remaining words
if current_line:
lines.append(" ".join(current_line))
return lines
return all_lines

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