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technicalkiwi:basic technicalkiwi:ui technicalkiwi:pi technicalkiwi:full technicalkiwi:kat technicalkiwi:dev
technicalkiwi:1.0

1 Commits
e803dd4243 ... 1.0

Author SHA1 Message Date
jimmy
58806ef654 Add config for Kat 2025-09-13 16:25:33 +12:00
2 changed files with 103 additions and 720 deletions
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392
settings.json
View File

@@ -1,212 +1,23 @@
{ {
"lights": { "lights": {
"sign": { "1": {
"names": [ "names": [
"tt-sign", "10"
"1"
],
"settings": {
"colors": [
"#968a00"
],
"brightness": 21,
"pattern": "off",
"delay": 99,
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10,
"n5": 10,
"n6": 10,
"patterns": {
"pulse": {
"colors": [
"#000000"
],
"delay": 99,
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10,
"n5": 10,
"n6": 10
},
"n_chase": {
"colors": [
"#000000"
],
"delay": 99,
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10,
"n5": 10,
"n6": 10
},
"on": {
"colors": [
"#968a00"
],
"delay": 99,
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10,
"n5": 10,
"n6": 10
},
"rainbow": {
"colors": [
"#000000"
],
"delay": 99,
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10,
"n5": 10,
"n6": 10
},
"off": {
"colors": [
"#000000"
],
"delay": 99,
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10,
"n5": 10,
"n6": 10
},
"blink": {
"colors": [
"#000000"
],
"delay": 99,
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10,
"n5": 10,
"n6": 10
}
}
}
},
"dj": {
"names": [
"dj"
], ],
"settings": { "settings": {
"colors": [ "colors": [
"#0000ff", "#0000ff",
"#ff0000" "#c30074",
"#00ff00"
], ],
"brightness": 73, "brightness": 9,
"pattern": "transition", "pattern": "on",
"delay": 10000, "delay": 50
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10,
"n5": 10,
"n6": 10,
"patterns": {
"rainbow": {
"colors": [
"#00006a"
],
"delay": 17,
"n1": 1,
"n2": 10,
"n3": 10,
"n4": 10,
"n5": 10,
"n6": 10
},
"on": {
"colors": [
"#ffff00",
"#0000ff"
],
"delay": 99,
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10,
"n5": 10,
"n6": 10
},
"blink": {
"colors": [
"#0000d0"
],
"delay": 99,
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10,
"n5": 10,
"n6": 10
},
"pulse": {
"delay": 1002,
"colors": [
"#006600",
"#0000ff"
],
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10,
"n5": 10,
"n6": 10
},
"transition": {
"colors": [
"#0000ff",
"#ff0000"
],
"delay": 10000,
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10,
"n5": 10,
"n6": 10
},
"n_chase": {
"n1": 11,
"n2": 11,
"n3": 10,
"n4": 10,
"n5": 10,
"n6": 10,
"delay": 99,
"colors": [
"#0000ff"
]
},
"off": {
"colors": [
"#000000"
],
"delay": 99,
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10
}
}
} }
}, },
"middle": { "2": {
"names": [ "names": [
"middle1", "13"
"middle2",
"middle3",
"middle4"
], ],
"settings": { "settings": {
"colors": [ "colors": [
@@ -217,25 +28,30 @@
], ],
"brightness": 6, "brightness": 6,
"pattern": "flicker", "pattern": "flicker",
"delay": 520, "delay": 520
"patterns": {
"flicker": {
"colors": [
"#000000"
],
"delay": 99,
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10
}
}
} }
}, },
"sides": { "3": {
"names": [ "names": [
"left", "11"
"right" ],
"settings": {
"colors": [
"#0000ff",
"#c30074",
"#00ff00",
"#000000"
],
"brightness": 6,
"pattern": "flicker",
"delay": 520
}
},
"all": {
"names": [
"10",
"11",
"13"
], ],
"settings": { "settings": {
"colors": [ "colors": [
@@ -246,154 +62,18 @@
], ],
"brightness": 6, "brightness": 6,
"pattern": "on", "pattern": "on",
"delay": 520, "delay": 520
"patterns": {
"on": {
"colors": [
"#000000"
],
"delay": 99,
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10
}
}
}
},
"outside": {
"names": [
"outside"
],
"settings": {
"colors": [
"#0000ff",
"#c30074",
"#00ff00",
"#000000"
],
"brightness": 6,
"pattern": "transition",
"delay": 520,
"n1": -17,
"n2": 10,
"n3": 10,
"n4": 10,
"n5": 10,
"n6": 10,
"patterns": {
"on": {
"colors": [
"#000000"
],
"delay": 99,
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10
},
"transition": {
"colors": [
"#000000"
],
"delay": 99,
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10
}
}
}
},
"middle1": {
"names": [
"middle1"
],
"settings": {
"colors": [
"#0000ff",
"#c30074",
"#00ff00",
"#000000"
],
"brightness": 6,
"pattern": "flicker",
"delay": 520,
"n1": 10,
"n2": 10,
"n3": 10,
"n4": 10,
"n5": 10,
"n6": 10,
"patterns": {
"flicker": {}
}
}
},
"middle2": {
"names": [
"middle2"
],
"settings": {
"colors": [
"#0000ff",
"#c30074",
"#00ff00",
"#000000"
],
"brightness": 6,
"pattern": "flicker",
"delay": 520,
"patterns": {
"flicker": {}
}
}
},
"middle3": {
"names": [
"middle3"
],
"settings": {
"colors": [
"#0000ff",
"#c30074",
"#00ff00",
"#000000"
],
"brightness": 6,
"pattern": "flicker",
"delay": 520,
"patterns": {
"flicker": {}
}
}
},
"middle4": {
"names": [
"middle4"
],
"settings": {
"colors": [
"#0000ff",
"#c30074",
"#00ff00",
"#000000"
],
"brightness": 6,
"pattern": "flicker",
"delay": 520,
"patterns": {
"flicker": {}
}
} }
} }
}, },
"patterns": [ "patterns": [
"on", "on",
"off", "off",
"rainbow", "blink",
"transition", "rainbow_cycle",
"n_chase", "color_transition",
"theater_chase",
"flicker",
"pulse" "pulse"
] ]
} }

429
src/main.py
View File

@@ -7,7 +7,6 @@ from networking import WebSocketClient
import color_utils import color_utils
from settings import Settings from settings import Settings
import time import time
import math
# Dark theme colors (unchanged) # Dark theme colors (unchanged)
bg_color = "#2e2e2e" bg_color = "#2e2e2e"
@@ -23,26 +22,6 @@ highlight_pattern_color = "#6a5acd"
active_palette_color_border = "#FFD700" # Gold color active_palette_color_border = "#FFD700" # Gold color
def delay_to_slider(delay_ms):
"""Convert delay in ms (10-10000) to slider position (0-1000) using logarithmic scale."""
if delay_ms <= 10:
return 0
if delay_ms >= 10000:
return 1000
# Logarithmic conversion: delay = 10 * (10000/10) ^ (position/1000)
# Solving for position: position = 1000 * log(delay/10) / log(1000)
return 1000 * math.log(delay_ms / 10) / math.log(1000)
def slider_to_delay(slider_value):
"""Convert slider position (0-1000) to delay in ms (10-10000) using logarithmic scale."""
if slider_value <= 0:
return 10
if slider_value >= 1000:
return 10000
# Logarithmic conversion: delay = 10 * 1000 ^ (position/1000)
return int(10 * (1000 ** (slider_value / 1000)))
class App: class App:
def __init__(self) -> None: def __init__(self) -> None:
self.settings = Settings() self.settings = Settings()
@@ -63,10 +42,6 @@ class App:
self.delay_update_interval_ms = 100 self.delay_update_interval_ms = 100
self.pending_delay_update_id = None self.pending_delay_update_id = None
self.last_n_params_update_time = 0
self.n_params_update_interval_ms = 100
self.pending_n_params_update_id = None
# --- WebSocketClient --- # --- WebSocketClient ---
self.websocket_client = WebSocketClient("ws://192.168.4.1:80/ws") self.websocket_client = WebSocketClient("ws://192.168.4.1:80/ws")
self.root.after(100, async_handler(self.websocket_client.connect)) self.root.after(100, async_handler(self.websocket_client.connect))
@@ -91,46 +66,24 @@ class App:
self.notebook.bind("<<NotebookTabChanged>>", self.on_tab_change) self.notebook.bind("<<NotebookTabChanged>>", self.on_tab_change)
# Add Reload Config Button (unchanged)
reload_button = tk.Button(
self.root,
text="Reload Config",
command=self.reload_config,
bg=active_bg_color,
fg=fg_color,
font=("Arial", 20),
padx=20,
pady=10,
relief=tk.FLAT,
)
reload_button.pack(side=tk.BOTTOM, pady=20)
self.root.protocol("WM_DELETE_WINDOW", self.on_closing) self.root.protocol("WM_DELETE_WINDOW", self.on_closing)
async_mainloop(self.root) async_mainloop(self.root)
def get_pattern_settings(self, tab_name, pattern_name):
"""Get pattern-specific settings (colors, delay, n params). Returns defaults if not found."""
light_settings = self.settings["lights"][tab_name]["settings"]
if "patterns" not in light_settings:
light_settings["patterns"] = {}
if pattern_name not in light_settings["patterns"]:
light_settings["patterns"][pattern_name] = {}
pattern_settings = light_settings["patterns"][pattern_name]
return {
"colors": pattern_settings.get("colors", ["#000000"]),
"delay": pattern_settings.get("delay", 100),
"n1": pattern_settings.get("n1", 10),
"n2": pattern_settings.get("n2", 10),
"n3": pattern_settings.get("n3", 10),
"n4": pattern_settings.get("n4", 10),
}
def save_pattern_settings(self, tab_name, pattern_name, colors=None, delay=None, n_params=None):
"""Save pattern-specific settings."""
light_settings = self.settings["lights"][tab_name]["settings"]
if "patterns" not in light_settings:
light_settings["patterns"] = {}
if pattern_name not in light_settings["patterns"]:
light_settings["patterns"][pattern_name] = {}
pattern_settings = light_settings["patterns"][pattern_name]
if colors is not None:
pattern_settings["colors"] = colors
if delay is not None:
pattern_settings["delay"] = delay
if n_params is not None:
for i in range(1, 5):
if f"n{i}" in n_params:
pattern_settings[f"n{i}"] = n_params[f"n{i}"]
def on_closing(self): def on_closing(self):
print("Closing application...") print("Closing application...")
asyncio.create_task(self.websocket_client.close()) asyncio.create_task(self.websocket_client.close())
@@ -148,22 +101,15 @@ class App:
self.tabs[key] = tab self.tabs[key] = tab
def create_light_control_widgets(self, tab, tab_name, ids, initial_settings): def create_light_control_widgets(self, tab, tab_name, ids, initial_settings):
slider_length = 600 slider_length = 800
slider_width = 50 slider_width = 50
# Get initial pattern and load pattern-specific settings # Extract initial color, brightness, and delay
initial_pattern = initial_settings.get("pattern", "on") initial_colors = initial_settings.get("colors", ["#000000"])
initial_brightness = initial_settings.get("brightness", 127) # Global brightness
pattern_settings = self.get_pattern_settings(tab_name, initial_pattern)
# Extract initial color, delay, and n params from pattern-specific settings
initial_colors = pattern_settings["colors"]
initial_hex_color = initial_colors[0] if initial_colors else "#000000" initial_hex_color = initial_colors[0] if initial_colors else "#000000"
initial_delay = pattern_settings["delay"] initial_brightness = initial_settings.get("brightness", 127)
initial_n1 = pattern_settings["n1"] initial_delay = initial_settings.get("delay", 0)
initial_n2 = pattern_settings["n2"] initial_pattern = initial_settings.get("pattern", "on")
initial_n3 = pattern_settings["n3"]
initial_n4 = pattern_settings["n4"]
initial_r, initial_g, initial_b = color_utils.hex_to_rgb(initial_hex_color) initial_r, initial_g, initial_b = color_utils.hex_to_rgb(initial_hex_color)
@@ -171,13 +117,9 @@ class App:
main_tab_frame = tk.Frame(tab, bg=bg_color) main_tab_frame = tk.Frame(tab, bg=bg_color)
main_tab_frame.pack(expand=True, fill="both", padx=10, pady=10) main_tab_frame.pack(expand=True, fill="both", padx=10, pady=10)
# Left panel container for sliders and n inputs # Left panel for sliders
left_panel_container = tk.Frame(main_tab_frame, bg=bg_color) slider_panel_frame = tk.Frame(main_tab_frame, bg=bg_color)
left_panel_container.pack(side=tk.LEFT, padx=10, pady=10) slider_panel_frame.pack(side=tk.LEFT, padx=10, pady=10)
# Slider panel
slider_panel_frame = tk.Frame(left_panel_container, bg=bg_color)
slider_panel_frame.pack(side=tk.TOP, padx=10, pady=10)
# Common slider configuration # Common slider configuration
slider_config = { slider_config = {
@@ -224,142 +166,22 @@ class App:
brightness_slider.bind("<B1-Motion>", lambda _: self.schedule_update_brightness(tab)) brightness_slider.bind("<B1-Motion>", lambda _: self.schedule_update_brightness(tab))
brightness_slider.bind("<ButtonRelease-1>", lambda _: self.schedule_update_brightness(tab, force_send=True)) brightness_slider.bind("<ButtonRelease-1>", lambda _: self.schedule_update_brightness(tab, force_send=True))
# Delay Slider with logarithmic scale (10ms to 10000ms) # Delay Slider
delay_slider_config = slider_config.copy() delay_slider_config = slider_config.copy()
delay_slider_config.update( delay_slider_config.update(
{ {
"from_": 1000, # Slider range 0-1000 (will be converted to 10-10000ms logarithmically) "from_": 1000,
"to": 0, "to": 0,
"resolution": 1, "resolution": 10,
"label": "Delay (ms)", "label": "Delay (ms)",
"showvalue": False, # Hide default value, we'll show logarithmic value in custom label
"troughcolor": trough_color_delay, "troughcolor": trough_color_delay,
} }
) )
# Create a frame to contain the slider and its value label (to make them appear as one unit) delay_slider = tk.Scale(slider_panel_frame, **delay_slider_config)
delay_container = tk.Frame(slider_panel_frame, bg=bg_color) delay_slider.set(initial_delay)
delay_container.pack(side=tk.LEFT, padx=10) delay_slider.pack(side=tk.LEFT, padx=10)
delay_slider.bind("<B1-Motion>", lambda _: self.schedule_update_delay(tab))
delay_slider = tk.Scale(delay_container, **delay_slider_config) delay_slider.bind("<ButtonRelease-1>", lambda _: self.schedule_update_delay(tab, force_send=True))
# Convert initial delay to slider position using logarithmic scale
initial_slider_pos = delay_to_slider(initial_delay)
delay_slider.set(initial_slider_pos)
# Create a custom label to show the actual delay value, positioned like the default Scale value
delay_value_label = tk.Label(delay_container, text=f"{initial_delay}", font=("Arial", 12), bg=bg_color, fg=fg_color, width=5, anchor="e")
delay_value_label.pack(side=tk.LEFT, padx=(0, 5))
# Function to update the side label when slider moves
def update_delay_value_label(event=None):
slider_value = delay_slider.get()
actual_delay = slider_to_delay(slider_value)
delay_value_label.config(text=f"{actual_delay}")
delay_slider.pack(side=tk.LEFT)
delay_slider.bind("<B1-Motion>", lambda e: (update_delay_value_label(), self.schedule_update_delay(tab)))
delay_slider.bind("<ButtonRelease-1>", lambda e: (update_delay_value_label(), self.schedule_update_delay(tab, force_send=True)))
# N inputs panel below sliders (moved down to make sliders longer)
n_inputs_frame = tk.Frame(left_panel_container, bg=bg_color)
n_inputs_frame.pack(side=tk.TOP, padx=10, pady=10)
n_inputs_inner_frame = tk.Frame(n_inputs_frame, bg=bg_color)
n_inputs_inner_frame.pack()
# Common spinbox config for n inputs - larger for touch screen
n_spinbox_config = {
"from_": 0,
"to": 255,
"increment": 1,
"width": 12,
"bg": bg_color,
"fg": fg_color,
"font": ("Arial", 24),
"buttonbackground": active_bg_color,
}
# Create n1-n4 inputs in a grid with arrows on both sides
n_inputs = {}
for i in range(1, 5):
n_frame = tk.Frame(n_inputs_inner_frame, bg=bg_color)
n_frame.grid(row=(i-1)//2, column=(i-1)%2, padx=10, pady=10)
tk.Label(n_frame, text=f"n{i}", font=("Arial", 20), bg=bg_color, fg=fg_color).pack(pady=(0, 5))
# Create a frame for the input with arrows on both sides
input_container = tk.Frame(n_frame, bg=bg_color)
input_container.pack(pady=5)
# Use StringVar for the value
n_var = tk.StringVar(value=str(initial_settings.get(f"n{i}", 10)))
# Left arrow button (decrease)
def decrease_value(var=n_var):
try:
current_str = var.get()
if not current_str:
current = 0
else:
current = int(current_str)
new_value = current - 1
var.set(str(new_value))
self.schedule_update_n_params(tab, force_send=True)
except (ValueError, TypeError):
# If value is invalid, set to -1
var.set("-1")
self.schedule_update_n_params(tab, force_send=True)
left_arrow = tk.Button(
input_container,
text="",
font=("Arial", 32, "bold"),
bg=active_bg_color,
fg=fg_color,
relief=tk.FLAT,
command=decrease_value,
width=3,
height=1,
)
left_arrow.pack(side=tk.LEFT, padx=2)
# Entry in the middle
n_entry = tk.Entry(
input_container,
textvariable=n_var,
font=("Arial", 24),
bg=bg_color,
fg=fg_color,
width=8,
justify=tk.CENTER,
relief=tk.SUNKEN,
bd=2,
)
n_entry.pack(side=tk.LEFT, padx=2, ipady=8)
n_entry.bind("<KeyRelease>", lambda event: self.schedule_update_n_params(tab))
n_entry.bind("<FocusOut>", lambda event: self.schedule_update_n_params(tab, force_send=True))
# Right arrow button (increase)
def increase_value(var=n_var):
current = int(var.get())
new_value = current + 1
var.set(str(new_value))
self.schedule_update_n_params(tab, force_send=True)
right_arrow = tk.Button(
input_container,
text="+",
font=("Arial", 32, "bold"),
bg=active_bg_color,
fg=fg_color,
relief=tk.FLAT,
command=increase_value,
width=3,
height=1,
)
right_arrow.pack(side=tk.LEFT, padx=2)
n_inputs[f"n{i}"] = n_entry
n_inputs[f"n{i}_var"] = n_var # Store the variable for later updates
# Store references to widgets for this tab # Store references to widgets for this tab
tab.widgets = { tab.widgets = {
@@ -368,15 +190,6 @@ class App:
"blue_slider": blue_slider, "blue_slider": blue_slider,
"brightness_slider": brightness_slider, "brightness_slider": brightness_slider,
"delay_slider": delay_slider, "delay_slider": delay_slider,
"delay_value_label": delay_value_label, # Store the delay value label for updates
"n1": n_inputs["n1"],
"n1_var": n_inputs["n1_var"],
"n2": n_inputs["n2"],
"n2_var": n_inputs["n2_var"],
"n3": n_inputs["n3"],
"n3_var": n_inputs["n3_var"],
"n4": n_inputs["n4"],
"n4_var": n_inputs["n4_var"],
"selected_color_index": 0, # Default to the first color "selected_color_index": 0, # Default to the first color
} }
tab.colors_in_palette = initial_colors.copy() # Store the list of hex colors for this tab tab.colors_in_palette = initial_colors.copy() # Store the list of hex colors for this tab
@@ -604,7 +417,7 @@ class App:
# If not in 'transition' mode, but a color is selected, update sliders to that. # If not in 'transition' mode, but a color is selected, update sliders to that.
# Or, if this is a fresh load/tab change, ensure it's the first color. # Or, if this is a fresh load/tab change, ensure it's the first color.
# This ensures the sliders consistently show the color that will be sent # This ensures the sliders consistently show the color that will be sent
# for 'on' based on the palette's first entry. # for 'on'/'blink' based on the palette's first entry.
hex_color = tab.colors_in_palette[tab.widgets["selected_color_index"]] hex_color = tab.colors_in_palette[tab.widgets["selected_color_index"]]
r, g, b = color_utils.hex_to_rgb(hex_color) r, g, b = color_utils.hex_to_rgb(hex_color)
tab.widgets["red_slider"].set(r) tab.widgets["red_slider"].set(r)
@@ -641,12 +454,8 @@ class App:
# In a full reload, create_tabs ensures it is. # In a full reload, create_tabs ensures it is.
return return
# Get current pattern and load pattern-specific settings
current_pattern = initial_settings.get("pattern", "on")
pattern_settings = self.get_pattern_settings(selected_tab_name, current_pattern)
# Update the local colors_in_palette list for the tab # Update the local colors_in_palette list for the tab
current_tab_widget.colors_in_palette = pattern_settings["colors"].copy() current_tab_widget.colors_in_palette = initial_settings.get("colors", ["#000000"]).copy()
current_tab_widget.widgets["selected_color_index"] = 0 # Default to first color current_tab_widget.widgets["selected_color_index"] = 0 # Default to first color
# Refresh the color palette display and select the first color # Refresh the color palette display and select the first color
@@ -658,19 +467,9 @@ class App:
current_tab_widget.widgets["green_slider"].set(0) current_tab_widget.widgets["green_slider"].set(0)
current_tab_widget.widgets["blue_slider"].set(0) current_tab_widget.widgets["blue_slider"].set(0)
# Update brightness (global) and delay (pattern-specific) sliders # Update brightness and delay sliders
current_tab_widget.widgets["brightness_slider"].set(initial_settings.get("brightness", 127)) current_tab_widget.widgets["brightness_slider"].set(initial_settings.get("brightness", 127))
# Convert delay to slider position using logarithmic scale current_tab_widget.widgets["delay_slider"].set(initial_settings.get("delay", 0))
initial_delay = pattern_settings["delay"]
initial_delay_slider_pos = delay_to_slider(initial_delay)
current_tab_widget.widgets["delay_slider"].set(initial_delay_slider_pos)
# Update the delay value label to show the actual delay value
if "delay_value_label" in current_tab_widget.widgets:
current_tab_widget.widgets["delay_value_label"].config(text=f"{initial_delay}")
# Update n parameter inputs (pattern-specific)
for i in range(1, 5):
current_tab_widget.widgets[f"n{i}_var"].set(str(pattern_settings[f"n{i}"]))
# Highlight the active pattern button # Highlight the active pattern button
initial_pattern = initial_settings.get("pattern", "on") initial_pattern = initial_settings.get("pattern", "on")
@@ -748,26 +547,6 @@ class App:
time_to_wait = int(self.delay_update_interval_ms - (current_time - self.last_delay_update_time)) time_to_wait = int(self.delay_update_interval_ms - (current_time - self.last_delay_update_time))
self.pending_delay_update_id = self.root.after(time_to_wait, lambda: self.update_delay(tab)) self.pending_delay_update_id = self.root.after(time_to_wait, lambda: self.update_delay(tab))
def schedule_update_n_params(self, tab, force_send=False):
current_time = time.time() * 1000
if force_send:
if self.pending_n_params_update_id:
self.root.after_cancel(self.pending_n_params_update_id)
self.pending_n_params_update_id = None
self.update_n_params(tab)
self.last_n_params_update_time = current_time
elif current_time - self.last_n_params_update_time >= self.n_params_update_interval_ms:
if self.pending_n_params_update_id:
self.root.after_cancel(self.pending_n_params_update_id)
self.pending_n_params_update_id = None
self.update_n_params(tab)
self.last_n_params_update_time = current_time
else:
if self.pending_n_params_update_id:
self.root.after_cancel(self.pending_n_params_update_id)
time_to_wait = int(self.n_params_update_interval_ms - (current_time - self.last_n_params_update_time))
self.pending_n_params_update_id = self.root.after(time_to_wait, lambda: self.update_n_params(tab))
# --- Asynchronous Update Functions --- # --- Asynchronous Update Functions ---
@async_handler @async_handler
async def update_rgb(self, tab): async def update_rgb(self, tab):
@@ -798,7 +577,7 @@ class App:
if current_pattern == "transition": if current_pattern == "transition":
colors_to_send = tab.colors_in_palette.copy() colors_to_send = tab.colors_in_palette.copy()
elif current_pattern in ["on", "theater_chase", "flicker"]: # Add other patterns that use a single color elif current_pattern in ["on", "blink", "theater_chase", "flicker"]: # Add other patterns that use a single color
if tab.colors_in_palette: if tab.colors_in_palette:
# For non-transition patterns, the device typically uses only the first color. # For non-transition patterns, the device typically uses only the first color.
# However, if a user picks a color from the palette, we want THAT color to be the one # However, if a user picks a color from the palette, we want THAT color to be the one
@@ -819,29 +598,15 @@ class App:
"settings": { "settings": {
"colors": colors_to_send, # This now dynamically changes based on pattern "colors": colors_to_send, # This now dynamically changes based on pattern
"brightness": tab.widgets["brightness_slider"].get(), "brightness": tab.widgets["brightness_slider"].get(),
"delay": slider_to_delay(tab.widgets["delay_slider"].get()), # Convert from logarithmic slider "delay": tab.widgets["delay_slider"].get(),
"pattern": current_pattern, # Always send the current pattern "pattern": current_pattern, # Always send the current pattern
"n1": int(tab.widgets["n1_var"].get()),
"n2": int(tab.widgets["n2_var"].get()),
"n3": int(tab.widgets["n3_var"].get()),
"n4": int(tab.widgets["n4_var"].get()),
}, },
} }
# Update the settings object - save pattern-specific settings # Update the settings object with the new color list (and potentially other synced values)
current_pattern = self.settings["lights"][selected_server]["settings"].get("pattern", "on") self.settings["lights"][selected_server]["settings"]["colors"] = tab.colors_in_palette.copy()
slider_value = tab.widgets["delay_slider"].get()
delay = slider_to_delay(slider_value)
n_params = {f"n{i}": int(tab.widgets[f"n{i}_var"].get()) for i in range(1, 5)}
# Save pattern-specific settings
self.save_pattern_settings(selected_server, current_pattern,
colors=tab.colors_in_palette.copy(),
delay=delay,
n_params=n_params)
# Brightness is global
self.settings["lights"][selected_server]["settings"]["brightness"] = tab.widgets["brightness_slider"].get() self.settings["lights"][selected_server]["settings"]["brightness"] = tab.widgets["brightness_slider"].get()
self.settings["lights"][selected_server]["settings"]["delay"] = tab.widgets["delay_slider"].get()
self.settings.save() self.settings.save()
await self.websocket_client.send_data(payload) await self.websocket_client.send_data(payload)
@@ -879,9 +644,8 @@ class App:
async def update_delay(self, tab): async def update_delay(self, tab):
try: try:
delay_slider = tab.widgets["delay_slider"] delay_slider = tab.widgets["delay_slider"]
slider_value = delay_slider.get() delay = delay_slider.get()
delay = slider_to_delay(slider_value) # Convert from logarithmic slider to actual delay print(f"Delay: {delay}")
print(f"Delay: {delay}ms (slider: {slider_value})")
selected_server = self.notebook.tab(self.notebook.select(), "text") selected_server = self.notebook.tab(self.notebook.select(), "text")
names = self.settings["lights"][selected_server]["names"] names = self.settings["lights"][selected_server]["names"]
@@ -892,41 +656,14 @@ class App:
"delay": delay, "delay": delay,
}, },
} }
# Update pattern-specific delay setting # Update the settings object with the new delay
current_pattern = self.settings["lights"][selected_server]["settings"].get("pattern", "on") self.settings["lights"][selected_server]["settings"]["delay"] = delay
self.save_pattern_settings(selected_server, current_pattern, delay=delay)
self.settings.save() self.settings.save()
await self.websocket_client.send_data(payload) await self.websocket_client.send_data(payload)
print(f"Sent delay payload: {payload}") print(f"Sent delay payload: {payload}")
except Exception as e: except Exception as e:
print(f"Error updating delay: {e}") print(f"Error updating delay: {e}")
@async_handler
async def update_n_params(self, tab):
try:
n_params = {}
for i in range(1, 5):
n_var = tab.widgets[f"n{i}_var"]
n_params[f"n{i}"] = int(n_var.get())
print(f"N Parameters: {n_params}")
selected_server = self.notebook.tab(self.notebook.select(), "text")
names = self.settings["lights"][selected_server]["names"]
payload = {
"save": True,
"names": names,
"settings": n_params,
}
# Update pattern-specific n params
current_pattern = self.settings["lights"][selected_server]["settings"].get("pattern", "on")
self.save_pattern_settings(selected_server, current_pattern, n_params=n_params)
self.settings.save()
await self.websocket_client.send_data(payload)
print(f"Sent n params payload: {payload}")
except Exception as e:
print(f"Error updating n params: {e}")
@async_handler @async_handler
async def send_pattern(self, tab_name: str, pattern_name: str): async def send_pattern(self, tab_name: str, pattern_name: str):
try: try:
@@ -944,52 +681,26 @@ class App:
current_settings_for_tab = self.settings["lights"][tab_name]["settings"] current_settings_for_tab = self.settings["lights"][tab_name]["settings"]
# Save current pattern's settings before switching
old_pattern = current_settings_for_tab.get("pattern", "on")
current_delay = slider_to_delay(current_tab_widget.widgets["delay_slider"].get())
current_n_params = {f"n{i}": int(current_tab_widget.widgets[f"n{i}_var"].get()) for i in range(1, 5)}
self.save_pattern_settings(tab_name, old_pattern,
colors=current_tab_widget.colors_in_palette.copy(),
delay=current_delay,
n_params=current_n_params)
# Load the new pattern's settings
new_pattern_settings = self.get_pattern_settings(tab_name, pattern_name)
# Update UI with new pattern's settings
current_tab_widget.colors_in_palette = new_pattern_settings["colors"].copy()
self.refresh_color_palette_display(current_tab_widget)
# Update delay slider
delay_slider_pos = delay_to_slider(new_pattern_settings["delay"])
current_tab_widget.widgets["delay_slider"].set(delay_slider_pos)
if "delay_value_label" in current_tab_widget.widgets:
current_tab_widget.widgets["delay_value_label"].config(text=f"{new_pattern_settings['delay']}")
# Update n params
for i in range(1, 5):
current_tab_widget.widgets[f"n{i}_var"].set(str(new_pattern_settings[f"n{i}"]))
# Update RGB sliders to first color
if current_tab_widget.colors_in_palette:
hex_color = current_tab_widget.colors_in_palette[0]
r, g, b = color_utils.hex_to_rgb(hex_color)
current_tab_widget.widgets["red_slider"].set(r)
current_tab_widget.widgets["green_slider"].set(g)
current_tab_widget.widgets["blue_slider"].set(b)
current_tab_widget.widgets["selected_color_index"] = 0
self._highlight_selected_color_swatch(current_tab_widget)
payload_settings = { payload_settings = {
"pattern": pattern_name, "pattern": pattern_name,
"brightness": current_settings_for_tab.get("brightness", 127), # Global brightness "brightness": current_settings_for_tab.get("brightness", 127),
"delay": new_pattern_settings["delay"], "delay": current_settings_for_tab.get("delay", 0),
"colors": new_pattern_settings["colors"],
} }
# Include n parameters # Determine colors to send based on the *newly selected* pattern
for i in range(1, 5): if pattern_name == "transition":
payload_settings[f"n{i}"] = new_pattern_settings[f"n{i}"] payload_settings["colors"] = current_tab_widget.colors_in_palette.copy()
elif pattern_name in ["on", "blink"]: # Add other patterns that use a single color here
# When switching TO 'on' or 'blink', ensure the color sent is the one
# currently displayed on the sliders (which reflects the selected palette color).
r = current_tab_widget.widgets["red_slider"].get()
g = current_tab_widget.widgets["green_slider"].get()
b = current_tab_widget.widgets["blue_slider"].get()
hex_color_from_sliders = f"#{r:02x}{g:02x}{b:02x}"
payload_settings["colors"] = [hex_color_from_sliders]
else:
# For other patterns, send the full palette, device might ignore or use default
payload_settings["colors"] = current_tab_widget.colors_in_palette.copy()
payload = { payload = {
"save": True, "save": True,
@@ -997,8 +708,10 @@ class App:
"settings": payload_settings, "settings": payload_settings,
} }
# Update the current pattern # Update the settings object with the new pattern and current colors/brightness/delay
self.settings["lights"][tab_name]["settings"]["pattern"] = pattern_name self.settings["lights"][tab_name]["settings"]["pattern"] = pattern_name
# Always save the full current palette state in settings.
self.settings["lights"][tab_name]["settings"]["colors"] = current_tab_widget.colors_in_palette.copy()
self.settings.save() self.settings.save()
self.highlight_pattern_button(current_tab_widget, pattern_name) self.highlight_pattern_button(current_tab_widget, pattern_name)
@@ -1017,20 +730,10 @@ class App:
if not hasattr(current_tab_widget, "colors_in_palette"): if not hasattr(current_tab_widget, "colors_in_palette"):
return # Tab not fully initialized yet return # Tab not fully initialized yet
# Update settings for the current tab - save pattern-specific settings # Update settings for the current tab in the self.settings object
current_pattern = self.settings["lights"][selected_server]["settings"].get("pattern", "on") self.settings["lights"][selected_server]["settings"]["colors"] = current_tab_widget.colors_in_palette
slider_value = current_tab_widget.widgets["delay_slider"].get()
delay = slider_to_delay(slider_value)
n_params = {f"n{i}": int(current_tab_widget.widgets[f"n{i}_var"].get()) for i in range(1, 5)}
# Save pattern-specific settings
self.save_pattern_settings(selected_server, current_pattern,
colors=current_tab_widget.colors_in_palette,
delay=delay,
n_params=n_params)
# Brightness is global
self.settings["lights"][selected_server]["settings"]["brightness"] = current_tab_widget.widgets["brightness_slider"].get() self.settings["lights"][selected_server]["settings"]["brightness"] = current_tab_widget.widgets["brightness_slider"].get()
self.settings["lights"][selected_server]["settings"]["delay"] = current_tab_widget.widgets["delay_slider"].get()
# The pattern is updated in send_pattern already, but ensure consistency # The pattern is updated in send_pattern already, but ensure consistency
# For simplicity, we assume send_pattern is the primary way to change pattern. # For simplicity, we assume send_pattern is the primary way to change pattern.