import os import numpy as np from moviepy import VideoFileClip, TextClip, CompositeVideoClip from moviepy.video.fx import FadeIn, FadeOut, Resize from moviepy.audio.fx import MultiplyVolume from faster_whisper import WhisperModel import tkinter as tk from tkinter import filedialog, messagebox, ttk, simpledialog import threading import cv2 from scipy import signal import librosa import glob import json from datetime import datetime from PIL import Image, ImageTk from PIL import ImageDraw, ImageFont import time import copy from collections import defaultdict class ToolTip: """Create a tooltip for a given widget""" def __init__(self, widget, text='widget info', side='right'): self.widget = widget self.text = text self.side = side self.widget.bind("", self.enter) self.widget.bind("", self.leave) self.tipwindow = None def enter(self, event=None): self.showtip() def leave(self, event=None): self.hidetip() def showtip(self): if self.tipwindow or not self.text: return # Get widget position x = self.widget.winfo_rootx() y = self.widget.winfo_rooty() w = self.widget.winfo_width() h = self.widget.winfo_height() # Position tooltip based on side preference if self.side == 'right': x = x + w + 10 # 10px to the right of widget y = y else: x = x + 25 y = y + h + 5 self.tipwindow = tw = tk.Toplevel(self.widget) tw.wm_overrideredirect(True) tw.wm_geometry("+%d+%d" % (x, y)) label = tk.Label(tw, text=self.text, justify=tk.LEFT, background="#ffffe0", relief=tk.SOLID, borderwidth=1, font=("Arial", "9", "normal"), wraplength=350) label.pack(ipadx=5, ipady=3) def hidetip(self): tw = self.tipwindow self.tipwindow = None if tw: tw.destroy() class ComboboxTooltip: """Special tooltip for combobox that shows on listbox hover""" def __init__(self, combobox, descriptions): self.combobox = combobox self.descriptions = descriptions self.tipwindow = None self.bound_listbox = None # Bind to combobox events self.combobox.bind("", self.on_click) self.combobox.bind("", self.on_keypress) def on_click(self, event): # Try to find the listbox when dropdown opens self.combobox.after(50, self.bind_listbox) def on_keypress(self, event): # Handle keyboard navigation self.combobox.after(50, self.bind_listbox) def bind_listbox(self): # Find the listbox widget more reliably try: # Look through all toplevel windows for the combobox popdown for window in self.combobox.winfo_toplevel().winfo_children(): window_class = window.winfo_class() if window_class == 'Toplevel': # Found a toplevel, look for listbox inside for child in window.winfo_children(): if child.winfo_class() == 'Listbox': if self.bound_listbox != child: self.bound_listbox = child child.bind("", self.on_listbox_motion) child.bind("", self.on_listbox_leave) child.bind("", self.on_listbox_leave) return except Exception as e: # Fallback method - try to find any listbox try: # Alternative approach: look for the popdown frame for child in self.combobox.tk.call('winfo', 'children', '.'): if 'popdown' in str(child): popdown = self.combobox.nametowidget(child) for subchild in popdown.winfo_children(): if subchild.winfo_class() == 'Listbox': if self.bound_listbox != subchild: self.bound_listbox = subchild subchild.bind("", self.on_listbox_motion) subchild.bind("", self.on_listbox_leave) subchild.bind("", self.on_listbox_leave) return except: pass def on_listbox_motion(self, event): try: listbox = event.widget index = listbox.nearest(event.y) if 0 <= index < len(self.combobox['values']): selection = self.combobox['values'][index] if selection in self.descriptions: self.show_tooltip(event, self.descriptions[selection]) except Exception: pass def on_listbox_leave(self, event): self.hide_tooltip() def show_tooltip(self, event, text): self.hide_tooltip() # Hide any existing tooltip try: x = event.widget.winfo_rootx() + event.widget.winfo_width() + 10 y = event.widget.winfo_rooty() + event.y - 20 self.tipwindow = tw = tk.Toplevel(event.widget) tw.wm_overrideredirect(True) tw.wm_geometry("+%d+%d" % (x, y)) label = tk.Label(tw, text=text, justify=tk.LEFT, background="#ffffe0", relief=tk.SOLID, borderwidth=1, font=("Arial", "9", "normal"), wraplength=350) label.pack(ipadx=5, ipady=3) except Exception: pass def hide_tooltip(self): if self.tipwindow: try: self.tipwindow.destroy() except: pass self.tipwindow = None def detect_loud_moments(video_path, chunk_duration=5, threshold_db=10): print("πŸ” Analyzing audio...") clip = VideoFileClip(video_path) audio = clip.audio.to_soundarray(fps=44100) volume = np.linalg.norm(audio, axis=1) chunk_size = int(chunk_duration * 44100) loud_chunks = [] max_db = -float('inf') for i in range(0, len(volume), chunk_size): chunk = volume[i:i+chunk_size] db = 20 * np.log10(np.mean(chunk) + 1e-10) max_db = max(max_db, db) if db > threshold_db: start = i / 44100 loud_chunks.append((start, min(start + chunk_duration, clip.duration))) print(f"πŸ”Š Max volume found: {max_db:.2f} dB, threshold: {threshold_db} dB") print(f"πŸ“ˆ Found {len(loud_chunks)} loud moments") clip.close() return loud_chunks def detect_scene_changes(video_path, chunk_duration=5, threshold=0.3): """Detect dramatic visual scene changes""" print("🎬 Analyzing scene changes...") clip = VideoFileClip(video_path) # Sample frames at regular intervals sample_rate = 2 # Check every 2 seconds times = np.arange(0, clip.duration, sample_rate) scene_changes = [] total_frames = len(times) - 1 for i, t in enumerate(times[:-1]): try: # Periodic progress output if i % 10 == 0: print(f"🎬 Processing frame {i+1}/{total_frames}...") # Get current and next frame frame1 = clip.get_frame(t) frame2 = clip.get_frame(times[i + 1]) # Convert to grayscale and resize for faster processing gray1 = cv2.cvtColor(frame1, cv2.COLOR_RGB2GRAY) gray2 = cv2.cvtColor(frame2, cv2.COLOR_RGB2GRAY) gray1 = cv2.resize(gray1, (160, 90)) # Small size for speed gray2 = cv2.resize(gray2, (160, 90)) # Calculate structural similarity difference diff = np.mean(np.abs(gray1.astype(float) - gray2.astype(float))) / 255.0 if diff > threshold: start = max(0, t - chunk_duration/2) end = min(clip.duration, t + chunk_duration/2) scene_changes.append((start, end)) except Exception as e: print(f"⚠️ Frame analysis error at {t:.1f}s: {e}") continue print(f"🎬 Found {len(scene_changes)} scene changes") clip.close() return scene_changes def detect_motion_intensity(video_path, chunk_duration=5, threshold=20000000): """Detect high motion/action scenes""" print("πŸƒ Analyzing motion intensity...") clip = VideoFileClip(video_path) sample_rate = 1 # Check every second times = np.arange(0, clip.duration - 1, sample_rate) motion_scenes = [] total_frames = len(times) for i, t in enumerate(times): try: # Periodic progress output if i % 20 == 0: print(f"πŸƒ Processing frame {i+1}/{total_frames}...") # Get consecutive frames frame1 = clip.get_frame(t) frame2 = clip.get_frame(t + 1) # Convert to grayscale and resize gray1 = cv2.cvtColor(frame1, cv2.COLOR_RGB2GRAY) gray2 = cv2.cvtColor(frame2, cv2.COLOR_RGB2GRAY) gray1 = cv2.resize(gray1, (320, 180)) gray2 = cv2.resize(gray2, (320, 180)) # Calculate optical flow magnitude flow = cv2.calcOpticalFlowPyrLK(gray1, gray2, np.random.randint(0, 320, (100, 1, 2)).astype(np.float32), None)[0] if flow is not None: motion_magnitude = np.sum(np.linalg.norm(flow.reshape(-1, 2), axis=1)) if motion_magnitude > threshold: start = max(0, t - chunk_duration/2) end = min(clip.duration, t + chunk_duration/2) motion_scenes.append((start, end)) except Exception as e: print(f"⚠️ Motion analysis error at {t:.1f}s: {e}") continue print(f"πŸƒ Found {len(motion_scenes)} motion scenes") clip.close() return motion_scenes def detect_speech_emotion(video_path, chunk_duration=5): """Detect emotional speech segments using faster_whisper""" print("πŸ—£οΈ Analyzing speech emotion...") try: # Load Whisper model for speech detection model = WhisperModel("base", device="cpu", compute_type="int8") # Extract audio temporarily temp_audio = "temp_audio.wav" clip = VideoFileClip(video_path) audio = clip.audio audio.write_audiofile(temp_audio, verbose=False, logger=None) # Transcribe with word-level timestamps segments, _ = model.transcribe(temp_audio, word_timestamps=True) emotional_segments = [] for segment in segments: # Look for emotional indicators in speech patterns text = segment.text.lower() # Check for emotional keywords and speech patterns emotional_words = ['amazing', 'incredible', 'wow', 'unbelievable', 'shocking', 'fantastic', 'awesome', 'terrible', 'horrible', 'beautiful'] has_emotion = any(word in text for word in emotional_words) has_exclamation = '!' in segment.text is_question = '?' in segment.text if has_emotion or has_exclamation or is_question: start = max(0, segment.start - chunk_duration/2) end = min(clip.duration, segment.end + chunk_duration/2) emotional_segments.append((start, end)) # Clean up audio.close() clip.close() if os.path.exists(temp_audio): os.remove(temp_audio) print(f"πŸ—£οΈ Found {len(emotional_segments)} emotional speech segments") return emotional_segments except Exception as e: print(f"⚠️ Speech analysis error: {e}") return [] def detect_audio_peaks(video_path, chunk_duration=5): """Detect audio frequency peaks and interesting sounds""" print("🎡 Analyzing audio peaks...") try: # Extract audio clip = VideoFileClip(video_path) audio = clip.audio # Convert to numpy array temp_audio = "temp_peak_audio.wav" audio.write_audiofile(temp_audio, verbose=False, logger=None) # Load with librosa y, sr = librosa.load(temp_audio) # Analyze spectral features hop_length = 512 frame_length = 2048 # Calculate spectral centroid (brightness) spectral_centroids = librosa.feature.spectral_centroid(y=y, sr=sr, hop_length=hop_length)[0] # Calculate RMS energy rms = librosa.feature.rms(y=y, hop_length=hop_length)[0] # Find frames with high spectral activity time_frames = librosa.frames_to_time(np.arange(len(spectral_centroids)), sr=sr, hop_length=hop_length) peak_segments = [] # Threshold for interesting audio centroid_threshold = np.percentile(spectral_centroids, 85) rms_threshold = np.percentile(rms, 80) for i, (time, centroid, energy) in enumerate(zip(time_frames, spectral_centroids, rms)): if centroid > centroid_threshold and energy > rms_threshold: start = max(0, time - chunk_duration/2) end = min(clip.duration, time + chunk_duration/2) peak_segments.append((start, end)) # Clean up audio.close() clip.close() if os.path.exists(temp_audio): os.remove(temp_audio) print(f"🎡 Found {len(peak_segments)} audio peak segments") return peak_segments except Exception as e: print(f"⚠️ Audio analysis error: {e}") return [] def detect_combined_moments(video_path, chunk_duration=5): """Combine multiple detection methods for best results""" print("🎯 Running combined analysis...") try: # Run multiple detection methods loud_moments = detect_loud_moments(video_path, chunk_duration) scene_changes = detect_scene_changes(video_path, chunk_duration) # Combine and deduplicate all_moments = loud_moments + scene_changes # Simple deduplication by merging overlapping segments if not all_moments: return [] # Sort by start time all_moments.sort(key=lambda x: x[0]) # Merge overlapping segments merged = [all_moments[0]] for start, end in all_moments[1:]: last_start, last_end = merged[-1] if start <= last_end + 1: # Allow 1 second gap merged[-1] = (last_start, max(last_end, end)) else: merged.append((start, end)) print(f"🎯 Combined analysis found {len(merged)} interesting moments") return merged except Exception as e: print(f"⚠️ Combined analysis error: {e}") return [] def detect_scene_changes_with_progress(video_path, chunk_duration=5, threshold=0.3, progress_callback=None): """Detect dramatic visual scene changes with progress updates""" print("🎬 Analyzing scene changes...") clip = VideoFileClip(video_path) # Sample frames at regular intervals sample_rate = 2 # Check every 2 seconds times = np.arange(0, clip.duration, sample_rate) scene_changes = [] prev_frame = None total_frames = len(times) - 1 for i, t in enumerate(times[:-1]): try: # Update progress every few frames if progress_callback and i % 5 == 0: progress = (i / total_frames) * 100 progress_callback(progress, f"🎬 Analyzing scene changes... Frame {i+1}/{total_frames}") # Get current and next frame frame1 = clip.get_frame(t) frame2 = clip.get_frame(times[i + 1]) # Convert to grayscale and resize for faster processing gray1 = cv2.cvtColor(frame1, cv2.COLOR_RGB2GRAY) gray2 = cv2.cvtColor(frame2, cv2.COLOR_RGB2GRAY) gray1 = cv2.resize(gray1, (160, 90)) # Small size for speed gray2 = cv2.resize(gray2, (160, 90)) # Calculate structural similarity difference diff = np.mean(np.abs(gray1.astype(float) - gray2.astype(float))) / 255.0 if diff > threshold: start = max(0, t - chunk_duration/2) end = min(clip.duration, t + chunk_duration/2) scene_changes.append((start, end)) except Exception as e: print(f"⚠️ Frame analysis error at {t:.1f}s: {e}") continue if progress_callback: progress_callback(100, f"🎬 Found {len(scene_changes)} scene changes") print(f"🎬 Found {len(scene_changes)} scene changes") clip.close() return scene_changes def detect_motion_intensity_with_progress(video_path, chunk_duration=5, threshold=0.15, progress_callback=None): """Detect high motion/action moments with progress updates""" print("πŸƒ Analyzing motion intensity...") clip = VideoFileClip(video_path) sample_rate = 1 # Check every second times = np.arange(0, clip.duration - 1, sample_rate) motion_moments = [] for i, t in enumerate(times): try: # Update progress every 10 seconds if progress_callback and i % 10 == 0: progress = (i / len(times)) * 100 progress_callback(progress, f"πŸƒ Analyzing motion... {i+1}/{len(times)} seconds") # Get two consecutive frames frame1 = clip.get_frame(t) frame2 = clip.get_frame(t + 0.5) # Half second later # Convert to grayscale and resize gray1 = cv2.cvtColor(frame1, cv2.COLOR_RGB2GRAY) gray2 = cv2.cvtColor(frame2, cv2.COLOR_RGB2GRAY) gray1 = cv2.resize(gray1, (160, 90)) gray2 = cv2.resize(gray2, (160, 90)) # Calculate optical flow magnitude flow = cv2.calcOpticalFlowPyrLK(gray1, gray2, np.random.randint(0, 160, (100, 1, 2)).astype(np.float32), None)[0] if flow is not None: motion_magnitude = np.mean(np.linalg.norm(flow.reshape(-1, 2), axis=1)) if motion_magnitude > threshold: start = max(0, t - chunk_duration/2) end = min(clip.duration, t + chunk_duration/2) motion_moments.append((start, end)) except Exception as e: print(f"⚠️ Motion analysis error at {t:.1f}s: {e}") continue if progress_callback: progress_callback(100, f"πŸƒ Found {len(motion_moments)} high-motion moments") print(f"πŸƒ Found {len(motion_moments)} high-motion moments") clip.close() return motion_moments def detect_speech_emotion_with_progress(video_path, chunk_duration=5, progress_callback=None): """Detect emotional/excited speech patterns with progress updates""" print("πŸ˜„ Analyzing speech emotions...") if progress_callback: progress_callback(10, "πŸ˜„ Initializing speech recognition...") # Use Whisper to get detailed speech analysis model = WhisperModel("base", device="cpu", compute_type="int8") if progress_callback: progress_callback(30, "πŸ˜„ Transcribing audio...") segments, _ = model.transcribe(video_path, beam_size=5, vad_filter=True, word_timestamps=True) emotional_moments = [] excitement_keywords = ['wow', 'amazing', 'incredible', 'unbelievable', 'awesome', 'fantastic', 'omg', 'what', 'no way', 'crazy', 'insane', 'perfect', 'yes', 'exactly'] segments_list = list(segments) if progress_callback: progress_callback(50, f"πŸ˜„ Processing {len(segments_list)} speech segments...") for i, segment in enumerate(segments_list): if progress_callback and i % 10 == 0: progress = 50 + (i / len(segments_list)) * 50 progress_callback(progress, f"πŸ˜„ Analyzing speech... {i+1}/{len(segments_list)} segments") text = segment.text.lower() # Check for excitement keywords has_keywords = any(keyword in text for keyword in excitement_keywords) # Check for multiple exclamation-worthy patterns has_caps = any(word.isupper() for word in segment.text.split()) has_punctuation = '!' in segment.text or '?' in segment.text is_short_excited = len(text.split()) <= 5 and (has_keywords or has_caps) if has_keywords or has_punctuation or is_short_excited: start = max(0, segment.start - chunk_duration/2) end = min(segment.end + chunk_duration/2, segment.end + chunk_duration) emotional_moments.append((start, end)) if progress_callback: progress_callback(100, f"πŸ˜„ Found {len(emotional_moments)} emotional speech moments") print(f"πŸ˜„ Found {len(emotional_moments)} emotional speech moments") return emotional_moments def detect_audio_peaks_with_progress(video_path, chunk_duration=5, progress_callback=None): """Detect sudden audio peaks with progress updates""" print("🎡 Analyzing audio peaks...") if progress_callback: progress_callback(10, "🎡 Loading audio...") clip = VideoFileClip(video_path) audio = clip.audio.to_soundarray(fps=22050) # Lower sample rate for speed # Convert to mono if stereo if len(audio.shape) > 1: audio = np.mean(audio, axis=1) if progress_callback: progress_callback(40, "🎡 Finding audio peaks...") # Find spectral peaks (bass, treble spikes) peaks, _ = signal.find_peaks(np.abs(audio), height=np.percentile(np.abs(audio), 95)) peak_moments = [] prev_peak = 0 if progress_callback: progress_callback(70, f"🎡 Processing {len(peaks)} peaks...") for i, peak in enumerate(peaks): if progress_callback and i % 1000 == 0: progress = 70 + (i / len(peaks)) * 30 progress_callback(progress, f"🎡 Processing peaks... {i}/{len(peaks)}") peak_time = peak / 22050 # Avoid too close peaks if peak_time - prev_peak > chunk_duration: start = max(0, peak_time - chunk_duration/2) end = min(clip.duration, peak_time + chunk_duration/2) peak_moments.append((start, end)) prev_peak = peak_time if progress_callback: progress_callback(100, f"🎡 Found {len(peak_moments)} audio peak moments") print(f"🎡 Found {len(peak_moments)} audio peak moments") clip.close() return peak_moments def detect_combined_intensity_with_progress(video_path, chunk_duration=5, weights=None, progress_callback=None): """Combine multiple detection methods with progress updates""" print("🎯 Running comprehensive moment analysis...") if weights is None: weights = {'loud': 0.3, 'scene': 0.2, 'motion': 0.2, 'speech': 0.2, 'peaks': 0.1} # Sub-progress callback for each method def sub_progress(method_weight, base_percent): def callback(percent, status): if progress_callback: total_percent = base_percent + (percent / 100) * method_weight progress_callback(total_percent, f"🎯 {status}") return callback # Get all detection results with progress if progress_callback: progress_callback(5, "🎯 Analyzing loud moments...") loud_moments = detect_loud_moments(video_path, chunk_duration, threshold_db=5) if progress_callback: progress_callback(15, "🎯 Analyzing scene changes...") scene_moments = detect_scene_changes_with_progress(video_path, chunk_duration, progress_callback=sub_progress(20, 15)) if progress_callback: progress_callback(35, "🎯 Analyzing motion...") motion_moments = detect_motion_intensity_with_progress(video_path, chunk_duration, progress_callback=sub_progress(20, 35)) if progress_callback: progress_callback(55, "🎯 Analyzing speech...") speech_moments = detect_speech_emotion_with_progress(video_path, chunk_duration, progress_callback=sub_progress(20, 55)) if progress_callback: progress_callback(75, "🎯 Analyzing audio peaks...") peak_moments = detect_audio_peaks_with_progress(video_path, chunk_duration, progress_callback=sub_progress(15, 75)) if progress_callback: progress_callback(90, "οΏ½ Combining results...") # Create time-based scoring clip = VideoFileClip(video_path) duration = clip.duration clip.close() # Score each second of the video time_scores = {} for moments, weight in [(loud_moments, weights['loud']), (scene_moments, weights['scene']), (motion_moments, weights['motion']), (speech_moments, weights['speech']), (peak_moments, weights['peaks'])]: for start, end in moments: for t in range(int(start), int(end) + 1): if t not in time_scores: time_scores[t] = 0 time_scores[t] += weight # Find the highest scoring segments if not time_scores: if progress_callback: progress_callback(100, "🎯 No moments found, using loud moments fallback") return loud_moments # Fallback to loud moments # Get top scoring time periods sorted_times = sorted(time_scores.items(), key=lambda x: x[1], reverse=True) combined_moments = [] used_times = set() for time_sec, score in sorted_times: if time_sec not in used_times and score > 0.3: # Minimum threshold start = max(0, time_sec - chunk_duration/2) end = min(duration, time_sec + chunk_duration/2) combined_moments.append((start, end)) # Mark nearby times as used to avoid overlap for t in range(max(0, time_sec - chunk_duration), min(int(duration), time_sec + chunk_duration)): used_times.add(t) if progress_callback: progress_callback(100, f"🎯 Found {len(combined_moments)} high-intensity combined moments") print(f"🎯 Found {len(combined_moments)} high-intensity combined moments") return combined_moments def detect_motion_intensity(video_path, chunk_duration=5, threshold=0.15): """Detect high motion/action moments""" print("πŸƒ Analyzing motion intensity...") clip = VideoFileClip(video_path) sample_rate = 1 # Check every second times = np.arange(0, clip.duration - 1, sample_rate) motion_moments = [] for i, t in enumerate(times): try: # Periodic UI update to prevent freezing if i % 20 == 0: # Every 20 seconds print(f"πŸƒ Processing motion at {t:.1f}s ({i+1}/{len(times)})...") # Get two consecutive frames frame1 = clip.get_frame(t) frame2 = clip.get_frame(t + 0.5) # Half second later # Convert to grayscale and resize gray1 = cv2.cvtColor(frame1, cv2.COLOR_RGB2GRAY) gray2 = cv2.cvtColor(frame2, cv2.COLOR_RGB2GRAY) gray1 = cv2.resize(gray1, (160, 90)) gray2 = cv2.resize(gray2, (160, 90)) # Calculate optical flow magnitude flow = cv2.calcOpticalFlowPyrLK(gray1, gray2, np.random.randint(0, 160, (100, 1, 2)).astype(np.float32), None)[0] if flow is not None: motion_magnitude = np.mean(np.linalg.norm(flow.reshape(-1, 2), axis=1)) if motion_magnitude > threshold: start = max(0, t - chunk_duration/2) end = min(clip.duration, t + chunk_duration/2) motion_moments.append((start, end)) except Exception as e: print(f"⚠️ Motion analysis error at {t:.1f}s: {e}") continue print(f"πŸƒ Found {len(motion_moments)} high-motion moments") clip.close() return motion_moments def detect_speech_emotion(video_path, chunk_duration=5): """Detect emotional/excited speech patterns""" print("πŸ˜„ Analyzing speech emotions...") print("πŸ˜„ Initializing speech recognition...") # Use Whisper to get detailed speech analysis model = WhisperModel("base", device="cpu", compute_type="int8") print("πŸ˜„ Transcribing audio...") segments, _ = model.transcribe(video_path, beam_size=5, vad_filter=True, word_timestamps=True) emotional_moments = [] excitement_keywords = ['wow', 'amazing', 'incredible', 'unbelievable', 'awesome', 'fantastic', 'omg', 'what', 'no way', 'crazy', 'insane', 'perfect', 'yes', 'exactly'] segments_list = list(segments) print(f"πŸ˜„ Processing {len(segments_list)} speech segments...") for i, segment in enumerate(segments_list): if i % 10 == 0: # Every 10 segments print(f"πŸ˜„ Processing segment {i+1}/{len(segments_list)}...") text = segment.text.lower() # Check for excitement keywords has_keywords = any(keyword in text for keyword in excitement_keywords) # Check for multiple exclamation-worthy patterns has_caps = any(word.isupper() for word in segment.text.split()) has_punctuation = '!' in segment.text or '?' in segment.text is_short_excited = len(text.split()) <= 5 and (has_keywords or has_caps) if has_keywords or has_punctuation or is_short_excited: start = max(0, segment.start - chunk_duration/2) end = min(segment.end + chunk_duration/2, segment.end + chunk_duration) emotional_moments.append((start, end)) print(f"πŸ˜„ Found {len(emotional_moments)} emotional speech moments") return emotional_moments def detect_audio_peaks(video_path, chunk_duration=5): """Detect sudden audio peaks (bass drops, beats, impacts)""" print("🎡 Analyzing audio peaks...") print("🎡 Loading audio...") clip = VideoFileClip(video_path) audio = clip.audio.to_soundarray(fps=22050) # Lower sample rate for speed # Convert to mono if stereo if len(audio.shape) > 1: audio = np.mean(audio, axis=1) print("🎡 Finding audio peaks...") # Find spectral peaks (bass, treble spikes) peaks, _ = signal.find_peaks(np.abs(audio), height=np.percentile(np.abs(audio), 95)) peak_moments = [] prev_peak = 0 for i, peak in enumerate(peaks): if i % 1000 == 0: # Every 1000 peaks print(f"🎡 Processing peaks... {i}/{len(peaks)}") peak_time = peak / 22050 # Avoid too close peaks if peak_time - prev_peak > chunk_duration: start = max(0, peak_time - chunk_duration/2) end = min(clip.duration, peak_time + chunk_duration/2) peak_moments.append((start, end)) prev_peak = peak_time print(f"🎡 Found {len(peak_moments)} audio peak moments") clip.close() return peak_moments def detect_combined_intensity(video_path, chunk_duration=5, weights=None): """Combine multiple detection methods for best moments""" print("🎯 Running comprehensive moment analysis...") if weights is None: weights = {'loud': 0.3, 'scene': 0.2, 'motion': 0.2, 'speech': 0.2, 'peaks': 0.1} # Get all detection results with progress updates print("🎯 Analyzing loud moments...") loud_moments = detect_loud_moments(video_path, chunk_duration, threshold_db=5) # Lower threshold print("🎯 Analyzing scene changes...") scene_moments = detect_scene_changes(video_path, chunk_duration) print("🎯 Analyzing motion...") motion_moments = detect_motion_intensity(video_path, chunk_duration) print("🎯 Analyzing speech...") speech_moments = detect_speech_emotion(video_path, chunk_duration) print("🎯 Analyzing audio peaks...") peak_moments = detect_audio_peaks(video_path, chunk_duration) print("🎯 Combining results...") # Create time-based scoring clip = VideoFileClip(video_path) duration = clip.duration clip.close() # Score each second of the video time_scores = {} for moments, weight in [(loud_moments, weights['loud']), (scene_moments, weights['scene']), (motion_moments, weights['motion']), (speech_moments, weights['speech']), (peak_moments, weights['peaks'])]: for start, end in moments: for t in range(int(start), int(end) + 1): if t not in time_scores: time_scores[t] = 0 time_scores[t] += weight # Find the highest scoring segments if not time_scores: print("🎯 No moments found, using loud moments fallback") return loud_moments # Fallback to loud moments # Get top scoring time periods sorted_times = sorted(time_scores.items(), key=lambda x: x[1], reverse=True) combined_moments = [] used_times = set() for time_sec, score in sorted_times: if time_sec not in used_times and score > 0.3: # Minimum threshold start = max(0, time_sec - chunk_duration/2) end = min(duration, time_sec + chunk_duration/2) combined_moments.append((start, end)) # Mark nearby times as used to avoid overlap for t in range(max(0, time_sec - chunk_duration), min(int(duration), time_sec + chunk_duration)): used_times.add(t) print(f"🎯 Found {len(combined_moments)} high-intensity combined moments") return combined_moments def transcribe_and_extract_subtitles(video_path, start, end): print(f"πŸ—£οΈ Transcribing audio from {start:.2f}s to {end:.2f}s...") model = WhisperModel("base", device="cpu", compute_type="int8") segments, _ = model.transcribe(video_path, beam_size=5, language="en", vad_filter=True) subtitles = [] for segment in segments: if start <= segment.start <= end: subtitles.append((segment.start - start, segment.end - start, segment.text)) return subtitles def create_short_clip(video_path, start, end, subtitles, output_path): print(f"🎬 Creating short: {output_path}") clip = VideoFileClip(video_path).subclipped(start, end) video_duration = clip.duration print(f"πŸ“ Video clip duration: {video_duration:.2f}s") vertical_clip = clip.resized(height=1920).cropped(width=1080, x_center=clip.w / 2) clips = [vertical_clip] subtitle_y_px = 1550 # Fixed Y position for subtitles for (s, e, text) in subtitles: try: subtitle_start = max(0, s) subtitle_end = min(e, video_duration) if subtitle_start >= video_duration or subtitle_end <= subtitle_start: print(f"⚠️ Skipping subtitle outside video duration: {text[:30]}...") continue words = text.strip().split() if not words: continue # Split into small readable chunks (max ~3-4 words) chunks = [] current_chunk = [] for word in words: current_chunk.append(word) if len(current_chunk) >= 2 or len(' '.join(current_chunk)) > 25: chunks.append(' '.join(current_chunk)) current_chunk = [] if current_chunk: chunks.append(' '.join(current_chunk)) chunk_duration = (subtitle_end - subtitle_start) / len(chunks) for chunk_idx, chunk_text in enumerate(chunks): chunk_start = subtitle_start + (chunk_idx * chunk_duration) chunk_end = min(chunk_start + chunk_duration, subtitle_end) chunk_words = chunk_text.split() # Base subtitle base_subtitle = TextClip( text=chunk_text.upper(), font_size=65, color='white', stroke_color='black', stroke_width=5 ) text_width, _ = base_subtitle.size base_subtitle = base_subtitle.with_start(chunk_start).with_end(chunk_end).with_position(('center', subtitle_y_px)) clips.append(base_subtitle) # Highlighted words (perfectly aligned) word_duration = chunk_duration / len(chunk_words) current_x = 540 - (text_width / 2) # 540 is center X of 1080px width for i, word in enumerate(chunk_words): word_start = chunk_start + (i * word_duration) word_end = min(word_start + word_duration * 0.8, chunk_end) highlighted_word = TextClip( text=word.upper(), font_size=68, color='#FFD700', stroke_color='#FF6B35', stroke_width=5 ) word_width, _ = highlighted_word.size word_x = current_x + (word_width / 2) highlighted_word = highlighted_word.with_start(word_start).with_end(word_end).with_position((word_x -125 , subtitle_y_px)) clips.append(highlighted_word) current_x += word_width + 20 # Add spacing between words print(f"βœ… Added Opus-style subtitle ({subtitle_start:.1f}s-{subtitle_end:.1f}s): {text[:30]}...") except Exception as e: print(f"⚠️ Subtitle error: {e}, skipping subtitle: {text[:50]}...") continue final = CompositeVideoClip(clips, size=(1080, 1920)) final.write_videofile(output_path, codec="libx264", audio_codec="aac", threads=1) clip.reader.close() if clip.audio: clip.audio.reader.close() final.close() def validate_video(video_path, min_duration=30): """Validate video file and return duration""" try: clip = VideoFileClip(video_path) duration = clip.duration clip.close() if duration < min_duration: raise ValueError(f"Video is too short ({duration:.1f}s). Minimum {min_duration}s required.") return duration except Exception as e: if "No such file" in str(e): raise FileNotFoundError(f"Video file not found: {video_path}") elif "could not open" in str(e).lower(): raise ValueError(f"Invalid or corrupted video file: {video_path}") else: raise ValueError(f"Error reading video: {str(e)}") def generate_shorts(video_path, max_clips=3, output_folder="shorts", progress_callback=None, detection_progress_callback=None, threshold_db=-30, clip_duration=5, detection_mode="loud"): os.makedirs(output_folder, exist_ok=True) # Validate video first try: video_duration = validate_video(video_path, min_duration=clip_duration * 2) if progress_callback: progress_callback(f"βœ… Video validated ({video_duration:.1f}s)", 5) except Exception as e: if progress_callback: progress_callback(f"❌ Video validation failed", 0) raise e # Choose detection method based on mode if detection_mode == "loud": if progress_callback: progress_callback("πŸ” Analyzing audio for loud moments...", 10) best_moments = detect_loud_moments(video_path, chunk_duration=clip_duration, threshold_db=threshold_db) if progress_callback: progress_callback("πŸ” Loud moments analysis complete", 35) elif detection_mode == "scene": if progress_callback: progress_callback("🎬 Starting scene analysis...", 10) best_moments = detect_scene_changes_with_progress(video_path, chunk_duration=clip_duration, progress_callback=detection_progress_callback) if progress_callback: progress_callback("🎬 Scene analysis complete", 35) elif detection_mode == "motion": if progress_callback: progress_callback("πŸƒ Starting motion analysis...", 10) best_moments = detect_motion_intensity_with_progress(video_path, chunk_duration=clip_duration, progress_callback=detection_progress_callback) if progress_callback: progress_callback("πŸƒ Motion analysis complete", 35) elif detection_mode == "speech": if progress_callback: progress_callback("πŸ˜„ Starting speech analysis...", 10) best_moments = detect_speech_emotion_with_progress(video_path, chunk_duration=clip_duration, progress_callback=detection_progress_callback) if progress_callback: progress_callback("πŸ˜„ Speech analysis complete", 35) elif detection_mode == "peaks": if progress_callback: progress_callback("🎡 Starting audio peak analysis...", 10) best_moments = detect_audio_peaks_with_progress(video_path, chunk_duration=clip_duration, progress_callback=detection_progress_callback) if progress_callback: progress_callback("🎡 Audio peak analysis complete", 35) elif detection_mode == "combined": if progress_callback: progress_callback("🎯 Starting comprehensive analysis...", 10) best_moments = detect_combined_intensity_with_progress(video_path, chunk_duration=clip_duration, progress_callback=detection_progress_callback) if progress_callback: progress_callback("🎯 Comprehensive analysis complete", 35) else: best_moments = detect_loud_moments(video_path, chunk_duration=clip_duration, threshold_db=threshold_db) if progress_callback: progress_callback("πŸ” Analysis complete", 35) selected = best_moments[:max_clips] if not selected: mode_name = { "loud": "loud moments", "scene": "scene changes", "motion": "motion intensity", "speech": "emotional speech", "peaks": "audio peaks", "combined": "interesting moments" }.get(detection_mode, "moments") raise ValueError(f"No {mode_name} found. Try a different detection mode or adjust settings.") if progress_callback: progress_callback(f"πŸ“Š Found {len(selected)} clips to generate", 20) for i, (start, end) in enumerate(selected): if progress_callback: progress_callback(f"πŸ—£οΈ Transcribing clip {i+1}/{len(selected)}", 30 + (i * 20)) subtitles = transcribe_and_extract_subtitles(video_path, start, end) out_path = os.path.join(output_folder, f"short_{i+1}.mp4") if progress_callback: progress_callback(f"🎬 Creating video {i+1}/{len(selected)}", 50 + (i * 20)) create_short_clip(video_path, start, end, subtitles, out_path) if progress_callback: progress_callback("βœ… All shorts generated successfully!", 100) # Video Editing Tools class VideoEditor: """Professional video editing tools for generated shorts with timeline-based effects""" def __init__(self, video_path=None): """Initialize video editor with optional video file""" self.original_video_path = video_path self.video_clip = None self.timeline_effects = [] # List of effects with timing and positioning self.global_effects = [] # Global effects applied to entire video if video_path: self.load_video(video_path) def add_timeline_effect(self, effect_type, start_time, end_time=None, duration=None, position=None, **kwargs): """Add an effect at specific time with specific position""" if end_time is None and duration is not None: end_time = start_time + duration elif end_time is None: end_time = self.video_clip.duration if self.video_clip else 5.0 effect = { 'type': effect_type, 'start_time': start_time, 'end_time': end_time, 'position': position, 'params': kwargs } self.timeline_effects.append(effect) print(f"πŸ“ Added {effect_type} effect at {start_time:.1f}s-{end_time:.1f}s") return effect def remove_timeline_effect(self, effect): """Remove a specific timeline effect""" if effect in self.timeline_effects: self.timeline_effects.remove(effect) print(f"πŸ—‘οΈ Removed {effect['type']} effect") def clear_timeline_effects(self): """Clear all timeline effects""" self.timeline_effects.clear() print("🧹 Cleared all timeline effects") def apply_timeline_effects(self): """Apply all timeline effects to create final video""" if not self.video_clip: raise Exception("No video loaded!") if not self.timeline_effects: print("πŸ“ No timeline effects to apply") return self.video_clip # Start with original video final_clip = self.video_clip # Group effects by type for efficient processing text_effects = [e for e in self.timeline_effects if e['type'] == 'text'] sticker_effects = [e for e in self.timeline_effects if e['type'] == 'sticker'] particle_effects = [e for e in self.timeline_effects if e['type'] == 'particles'] color_effects = [e for e in self.timeline_effects if e['type'] in ['color_preset', 'color_grading']] transform_effects = [e for e in self.timeline_effects if e['type'] in ['zoom', 'rotation', 'blur']] # Apply transform effects (modify base video) for effect in transform_effects: final_clip = self._apply_transform_effect_to_clip(final_clip, effect) # Apply color effects for effect in color_effects: final_clip = self._apply_color_effect_to_clip(final_clip, effect) # Prepare overlay clips for composition overlay_clips = [final_clip] # Add text overlays for effect in text_effects: text_clip = self._create_text_clip(effect) if text_clip: overlay_clips.append(text_clip) # Add sticker overlays for effect in sticker_effects: sticker_clip = self._create_sticker_clip(effect) if sticker_clip: overlay_clips.append(sticker_clip) # Add particle effects for effect in particle_effects: particle_clip = self._create_particle_clip(effect) if particle_clip: overlay_clips.append(particle_clip) # Composite all clips if len(overlay_clips) > 1: from moviepy.editor import CompositeVideoClip final_clip = CompositeVideoClip(overlay_clips, size=final_clip.size) print(f"✨ Applied {len(self.timeline_effects)} timeline effects") return final_clip def _apply_transform_effect_to_clip(self, clip, effect): """Apply transform effects (zoom, rotation, blur) to video clip""" start_time = effect['start_time'] end_time = effect['end_time'] effect_type = effect['type'] params = effect['params'] def transform_frame(get_frame, t): frame = get_frame(t) # Only apply effect during specified time range if not (start_time <= t <= end_time): return frame # Calculate effect progress (0.0 to 1.0) progress = (t - start_time) / (end_time - start_time) if end_time > start_time else 0.0 if effect_type == 'zoom': return self._apply_zoom_to_frame(frame, progress, params) elif effect_type == 'rotation': return self._apply_rotation_to_frame(frame, progress, params) elif effect_type == 'blur': return self._apply_blur_to_frame(frame, progress, params) return frame return clip.transform(transform_frame) def _apply_color_effect_to_clip(self, clip, effect): """Apply color effects to video clip""" start_time = effect['start_time'] end_time = effect['end_time'] effect_type = effect['type'] params = effect['params'] def color_transform(get_frame, t): frame = get_frame(t) # Only apply effect during specified time range if not (start_time <= t <= end_time): return frame # Calculate effect intensity based on time progress = (t - start_time) / (end_time - start_time) if end_time > start_time else 1.0 if effect_type == 'color_preset': return self._apply_color_preset_to_frame(frame, progress, params) elif effect_type == 'color_grading': return self._apply_color_grading_to_frame(frame, progress, params) return frame return clip.transform(color_transform) def _create_text_clip(self, effect): """Create a text clip for timeline""" try: from moviepy.editor import TextClip text = effect['params'].get('text', 'Sample Text') font_size = effect['params'].get('font_size', 50) color = effect['params'].get('color', 'white') font = effect['params'].get('font', 'Arial-Bold') animation = effect['params'].get('animation', 'fade_in') # Create basic text clip text_clip = TextClip(text, fontsize=font_size, color=color, font=font) text_clip = text_clip.with_start(effect['start_time']).with_end(effect['end_time']) # Apply position position = effect['position'] or ('center', 'bottom') text_clip = text_clip.with_position(position) # Apply animation text_clip = self._apply_text_animation(text_clip, animation) return text_clip except Exception as e: print(f"⚠️ Error creating text clip: {e}") return None def _create_sticker_clip(self, effect): """Create a sticker/emoji clip for timeline""" try: from moviepy.editor import TextClip sticker = effect['params'].get('sticker', 'πŸ˜‚') size = effect['params'].get('size', 80) # Create emoji as text clip sticker_clip = TextClip(sticker, fontsize=size) sticker_clip = sticker_clip.with_start(effect['start_time']).with_end(effect['end_time']) # Apply position position = effect['position'] or ('right', 'top') if position == ('right', 'top'): pos = (lambda t: (self.video_clip.w - 150, 50)) elif position == ('left', 'top'): pos = (50, 50) elif position == ('right', 'bottom'): pos = (lambda t: (self.video_clip.w - 150, self.video_clip.h - 150)) elif position == ('left', 'bottom'): pos = (50, lambda t: self.video_clip.h - 150) else: pos = 'center' sticker_clip = sticker_clip.with_position(pos) return sticker_clip except Exception as e: print(f"⚠️ Error creating sticker clip: {e}") return None def _create_particle_clip(self, effect): """Create a particle effect clip for timeline""" try: # For now, create a simple overlay effect # In a full implementation, this would generate actual particle animations from moviepy.editor import ColorClip # Create a semi-transparent overlay as placeholder duration = effect['end_time'] - effect['start_time'] particle_clip = ColorClip(size=self.video_clip.size, color=(255, 255, 255), duration=duration) particle_clip = particle_clip.with_opacity(0.1) # Very transparent particle_clip = particle_clip.with_start(effect['start_time']) return particle_clip except Exception as e: print(f"⚠️ Error creating particle clip: {e}") return None def _apply_text_animation(self, text_clip, animation): """Apply animation to text clip""" if animation == 'fade_in': from moviepy.video.fx import FadeIn return text_clip.with_effects([FadeIn(0.5)]) elif animation == 'slide_left': # Slide in from right def slide_pos(t): progress = min(1.0, t / 0.5) # 0.5 second animation start_x = text_clip.w if hasattr(text_clip, 'w') else 200 final_x = 50 x = start_x - (start_x - final_x) * progress return (x, 'center') return text_clip.with_position(slide_pos) elif animation == 'zoom_in': def zoom_size(t): progress = min(1.0, t / 0.5) scale = 0.1 + 0.9 * progress return scale return text_clip.resized(zoom_size) else: return text_clip def _apply_zoom_to_frame(self, frame, progress, params): """Apply zoom effect to a single frame""" zoom_factor = params.get('zoom_factor', 1.5) zoom_type = params.get('zoom_type', 'zoom_in') h, w = frame.shape[:2] if zoom_type == 'zoom_in': current_zoom = 1.0 + (zoom_factor - 1.0) * progress elif zoom_type == 'zoom_out': current_zoom = zoom_factor - (zoom_factor - 1.0) * progress else: # static zoom current_zoom = zoom_factor # Calculate crop region new_w = int(w / current_zoom) new_h = int(h / current_zoom) start_x = (w - new_w) // 2 start_y = (h - new_h) // 2 # Crop and resize cropped = frame[start_y:start_y + new_h, start_x:start_x + new_w] zoomed = cv2.resize(cropped, (w, h), interpolation=cv2.INTER_CUBIC) return zoomed def _apply_rotation_to_frame(self, frame, progress, params): """Apply rotation effect to a single frame""" angle = params.get('angle', 0) rotation_type = params.get('rotation_type', 'static') h, w = frame.shape[:2] if rotation_type == 'spinning': current_angle = angle * progress * 10 # Multiple rotations else: # static rotation current_angle = angle * progress # Rotation matrix center = (w // 2, h // 2) matrix = cv2.getRotationMatrix2D(center, current_angle, 1.0) rotated = cv2.warpAffine(frame, matrix, (w, h), borderMode=cv2.BORDER_REFLECT) return rotated def _apply_blur_to_frame(self, frame, progress, params): """Apply blur effect to a single frame""" blur_strength = params.get('blur_strength', 2.0) * progress if frame.dtype != np.uint8: frame = (frame * 255).astype(np.uint8) kernel_size = max(1, int(15 * progress)) if kernel_size % 2 == 0: kernel_size += 1 blurred = cv2.GaussianBlur(frame, (kernel_size, kernel_size), blur_strength) return blurred def _apply_color_preset_to_frame(self, frame, progress, params): """Apply color preset to a single frame""" preset = params.get('preset', 'cinematic') if frame.dtype != np.uint8: frame = (frame * 255).astype(np.uint8) frame_float = frame.astype(np.float32) / 255.0 if preset == 'cinematic': # Blue-orange cinematic look frame_float[:,:,0] *= (0.9 + 0.2 * progress) # Red frame_float[:,:,1] *= (1.0 + 0.1 * progress) # Green frame_float[:,:,2] *= (1.1 + 0.3 * progress) # Blue elif preset == 'warm': frame_float[:,:,0] *= (1.0 + 0.3 * progress) # More red frame_float[:,:,1] *= (1.0 + 0.1 * progress) # Slight green frame_float[:,:,2] *= (0.8 + 0.1 * progress) # Less blue elif preset == 'cool': frame_float[:,:,0] *= (0.8 + 0.1 * progress) # Less red frame_float[:,:,1] *= (1.0) # Keep green frame_float[:,:,2] *= (1.0 + 0.4 * progress) # More blue elif preset == 'vintage': # Sepia-like effect frame_float[:,:,0] *= (1.0 + 0.2 * progress) # Red frame_float[:,:,1] *= (1.0 + 0.1 * progress) # Green frame_float[:,:,2] *= (0.7 + 0.2 * progress) # Blue return np.clip(frame_float * 255, 0, 255).astype(np.uint8) def _apply_color_grading_to_frame(self, frame, progress, params): """Apply advanced color grading to a single frame""" brightness = params.get('brightness', 1.0) contrast = params.get('contrast', 1.0) saturation = params.get('saturation', 1.0) if frame.dtype != np.uint8: frame = (frame * 255).astype(np.uint8) # Apply brightness frame = cv2.convertScaleAbs(frame, alpha=contrast * progress + (1 - progress), beta=(brightness - 1) * 30 * progress) # Apply saturation if saturation != 1.0: hsv = cv2.cvtColor(frame, cv2.COLOR_RGB2HSV).astype(np.float32) hsv[:,:,1] *= (saturation * progress + (1 - progress)) hsv[:,:,1] = np.clip(hsv[:,:,1], 0, 255) frame = cv2.cvtColor(hsv.astype(np.uint8), cv2.COLOR_HSV2RGB) return frame def load_video(self, video_path): """Load a video file for editing""" if self.video_clip: self.video_clip.close() self.original_video_path = video_path self.video_clip = VideoFileClip(video_path) self.effects = [] print(f"πŸ“Ί Loaded video: {os.path.basename(video_path)}") def reset(self): """Reset to original video, removing all effects""" if self.original_video_path: self.load_video(self.original_video_path) print("πŸ”„ Video reset to original state") def export(self, output_path, quality="medium", progress_callback=None): """Export the final edited video""" if not self.video_clip: raise Exception("No video loaded!") # Quality settings quality_settings = { "low": {"bitrate": "500k", "audio_bitrate": "128k"}, "medium": {"bitrate": "1M", "audio_bitrate": "192k"}, "high": {"bitrate": "2M", "audio_bitrate": "320k"} } settings = quality_settings.get(quality, quality_settings["medium"]) # Export with progress callback try: # Try with newer MoviePy parameters first self.video_clip.write_videofile( output_path, codec="libx264", audio_codec="aac", bitrate=settings["bitrate"], audio_bitrate=settings["audio_bitrate"], logger=None ) except TypeError as e: if "verbose" in str(e): # Fallback for older MoviePy versions self.video_clip.write_videofile( output_path, codec="libx264", audio_codec="aac", bitrate=settings["bitrate"], audio_bitrate=settings["audio_bitrate"] ) else: raise e @staticmethod def trim_video(video_path, start_time, end_time, output_path): """Trim video to specific time range""" clip = VideoFileClip(video_path) trimmed = clip.subclipped(start_time, end_time) trimmed.write_videofile(output_path, codec="libx264", audio_codec="aac") clip.close() trimmed.close() @staticmethod def adjust_speed(video_path, speed_factor, output_path): """Change video playback speed (0.5 = half speed, 2.0 = double speed)""" clip = VideoFileClip(video_path) if speed_factor > 1: # Speed up speeded = clip.with_fps(clip.fps * speed_factor).subclipped(0, clip.duration / speed_factor) else: # Slow down speeded = clip.with_fps(clip.fps * speed_factor) speeded.write_videofile(output_path, codec="libx264", audio_codec="aac") clip.close() speeded.close() @staticmethod def add_fade_effects(video_path, fade_in_duration=1.0, fade_out_duration=1.0, output_path=None): """Add fade in/out effects""" clip = VideoFileClip(video_path) # Apply fade effects final_clip = clip if fade_in_duration > 0: final_clip = final_clip.with_effects([FadeIn(fade_in_duration)]) if fade_out_duration > 0: final_clip = final_clip.with_effects([FadeOut(fade_out_duration)]) if not output_path: output_path = video_path.replace('.mp4', '_faded.mp4') final_clip.write_videofile(output_path, codec="libx264", audio_codec="aac") clip.close() final_clip.close() return output_path @staticmethod def adjust_volume(video_path, volume_factor, output_path=None): """Adjust audio volume (1.0 = normal, 0.5 = half volume, 2.0 = double volume)""" clip = VideoFileClip(video_path) if clip.audio: audio_adjusted = clip.audio.with_effects([MultiplyVolume(volume_factor)]) final_clip = clip.with_audio(audio_adjusted) else: final_clip = clip if not output_path: output_path = video_path.replace('.mp4', '_volume_adjusted.mp4') final_clip.write_videofile(output_path, codec="libx264", audio_codec="aac") clip.close() final_clip.close() return output_path @staticmethod def resize_video(video_path, width, height, output_path=None): """Resize video to specific dimensions""" clip = VideoFileClip(video_path) resized = clip.resized((width, height)) if not output_path: output_path = video_path.replace('.mp4', f'_resized_{width}x{height}.mp4') resized.write_videofile(output_path, codec="libx264", audio_codec="aac") clip.close() resized.close() return output_path @staticmethod def crop_video(video_path, x1, y1, x2, y2, output_path=None): """Crop video to specific coordinates""" clip = VideoFileClip(video_path) cropped = clip.cropped(x1=x1, y1=y1, x2=x2, y2=y2) if not output_path: output_path = video_path.replace('.mp4', '_cropped.mp4') cropped.write_videofile(output_path, codec="libx264", audio_codec="aac") clip.close() cropped.close() return output_path @staticmethod def add_text_overlay(video_path, text, position=('center', 'bottom'), duration=None, start_time=0, font_size=50, color='white', output_path=None): """Add text overlay to video (optimized for speed)""" print(f"🎬 Adding text overlay: '{text}'...") clip = VideoFileClip(video_path) if duration is None: duration = clip.duration - start_time # Optimize text creation - use smaller cache and faster rendering try: # Try using a more efficient text creation method text_clip = TextClip( text, font_size=font_size, color=color, stroke_color='black', stroke_width=2, method='caption', # Faster rendering method size=(clip.w * 0.8, None) # Limit width to prevent huge text ) print(f"πŸ“ Text clip created successfully...") except Exception as e: print(f"⚠️ Using fallback text method: {e}") # Fallback to basic text creation text_clip = TextClip( text, font_size=font_size, color=color, stroke_color='black', stroke_width=2 ) # Set timing and position text_clip = text_clip.with_start(start_time).with_end(start_time + duration).with_position(position) print(f"⏱️ Compositing video with text overlay...") # Optimize composition with reduced quality for faster processing final_video = CompositeVideoClip([clip, text_clip]) if not output_path: output_path = video_path.replace('.mp4', '_with_text.mp4') print(f"πŸ’Ύ Saving video to: {output_path}") # Optimize output settings for faster processing try: # Try with all optimization parameters (newer MoviePy) final_video.write_videofile( output_path, codec="libx264", audio_codec="aac", temp_audiofile='temp-audio.m4a', remove_temp=True, logger=None, # Disable logging for speed preset='ultrafast', # Fastest encoding preset threads=4 # Use multiple threads ) except TypeError: # Fallback for older MoviePy versions final_video.write_videofile( output_path, codec="libx264", audio_codec="aac", temp_audiofile='temp-audio.m4a', remove_temp=True, preset='ultrafast', # Fastest encoding preset threads=4 # Use multiple threads ) # Clean up clip.close() text_clip.close() final_video.close() def add_blur_effect(self, blur_strength=2.0): """Add blur effect to current video""" if not self.video_clip: raise Exception("No video loaded!") def blur_frame(get_frame, t): frame = get_frame(t) # Convert to uint8 if needed if frame.dtype != np.uint8: frame = (frame * 255).astype(np.uint8) blurred = cv2.GaussianBlur(frame, (15, 15), blur_strength) return blurred self.video_clip = self.video_clip.transform(blur_frame) self.effects.append(f"blur({blur_strength})") print(f"🌫️ Applied blur effect (strength: {blur_strength})") def add_color_effect(self, effect_type="sepia"): """Add color effects: sepia, grayscale, vintage, etc.""" if not self.video_clip: raise Exception("No video loaded!") def apply_color_effect(get_frame, t): frame = get_frame(t) if frame.dtype != np.uint8: frame = (frame * 255).astype(np.uint8) if effect_type == "grayscale": gray = cv2.cvtColor(frame, cv2.COLOR_RGB2GRAY) return cv2.cvtColor(gray, cv2.COLOR_GRAY2RGB) elif effect_type == "sepia": # Sepia transformation matrix sepia_filter = np.array([[0.393, 0.769, 0.189], [0.349, 0.686, 0.168], [0.272, 0.534, 0.131]]) sepia_img = frame.dot(sepia_filter.T) sepia_img = np.clip(sepia_img, 0, 255) return sepia_img.astype(np.uint8) elif effect_type == "vintage": # Vintage effect (warm + slight vignette) frame = frame.astype(np.float32) frame[:,:,0] *= 1.2 # Increase red frame[:,:,1] *= 1.1 # Slightly increase green frame[:,:,2] *= 0.9 # Decrease blue return np.clip(frame, 0, 255).astype(np.uint8) elif effect_type == "cool": # Cool effect (more blue) frame = frame.astype(np.float32) frame[:,:,0] *= 0.9 # Decrease red frame[:,:,1] *= 1.0 # Keep green frame[:,:,2] *= 1.3 # Increase blue return np.clip(frame, 0, 255).astype(np.uint8) return frame self.video_clip = self.video_clip.transform(apply_color_effect) self.effects.append(f"color({effect_type})") print(f"🎨 Applied color effect: {effect_type}") def add_zoom_effect(self, zoom_factor=1.5, zoom_type="zoom_in"): """Add zoom in/out effect""" if not self.video_clip: raise Exception("No video loaded!") def zoom_frame(get_frame, t): frame = get_frame(t) h, w = frame.shape[:2] if zoom_type == "zoom_in": progress = t / self.video_clip.duration current_zoom = 1.0 + (zoom_factor - 1.0) * progress elif zoom_type == "zoom_out": progress = t / self.video_clip.duration current_zoom = zoom_factor - (zoom_factor - 1.0) * progress else: # static zoom current_zoom = zoom_factor # Calculate crop region new_h, new_w = int(h / current_zoom), int(w / current_zoom) start_x = (w - new_w) // 2 start_y = (h - new_h) // 2 # Calculate crop dimensions for zoom new_w = int(w / current_zoom) new_h = int(h / current_zoom) start_x = (w - new_w) // 2 start_y = (h - new_h) // 2 # Crop and resize cropped = frame[start_y:start_y + new_h, start_x:start_x + new_w] zoomed = cv2.resize(cropped, (w, h), interpolation=cv2.INTER_CUBIC) return zoomed self.video_clip = self.video_clip.transform(zoom_frame) self.effects.append(f"zoom({zoom_type}, {zoom_factor})") print(f"πŸ” Applied zoom effect: {zoom_type} (factor: {zoom_factor})") def add_rotation_effect(self, angle=0, rotation_type="static"): """Add rotation effect""" if not self.video_clip: raise Exception("No video loaded!") def rotate_frame(get_frame, t): frame = get_frame(t) h, w = frame.shape[:2] if rotation_type == "spinning": # Continuous rotation current_angle = (angle * t * 360 / self.video_clip.duration) % 360 else: # static rotation current_angle = angle # Rotation matrix center = (w // 2, h // 2) matrix = cv2.getRotationMatrix2D(center, current_angle, 1.0) rotated = cv2.warpAffine(frame, matrix, (w, h), borderMode=cv2.BORDER_REFLECT) return rotated self.video_clip = self.video_clip.transform(rotate_frame) self.effects.append(f"rotation({rotation_type}, {angle})") print(f"πŸ”„ Applied rotation effect: {rotation_type} (angle: {angle}Β°)") def apply_trim(self, start_time, end_time): """Apply trim to current video""" if not self.video_clip: raise Exception("No video loaded!") if start_time >= end_time: raise Exception("Start time must be less than end time!") if end_time > self.video_clip.duration: raise Exception(f"End time cannot exceed video duration ({self.video_clip.duration:.1f}s)!") self.video_clip = self.video_clip.subclipped(start_time, end_time) self.effects.append(f"trim({start_time:.1f}s-{end_time:.1f}s)") print(f"βœ‚οΈ Applied trim: {start_time:.1f}s to {end_time:.1f}s") def apply_speed(self, speed_factor): """Apply speed change to current video""" if not self.video_clip: raise Exception("No video loaded!") if speed_factor <= 0: raise Exception("Speed factor must be greater than 0!") if speed_factor > 1: # Speed up self.video_clip = self.video_clip.with_fps(self.video_clip.fps * speed_factor).subclipped(0, self.video_clip.duration / speed_factor) else: # Slow down self.video_clip = self.video_clip.with_fps(self.video_clip.fps * speed_factor) self.effects.append(f"speed({speed_factor:.1f}x)") print(f"⚑ Applied speed change: {speed_factor:.1f}x") def apply_fade_effects(self, fade_in_duration=1.0, fade_out_duration=1.0): """Apply fade in/out effects to current video""" if not self.video_clip: raise Exception("No video loaded!") from moviepy.video.fx import FadeIn, FadeOut if fade_in_duration > 0: self.video_clip = self.video_clip.with_effects([FadeIn(fade_in_duration)]) if fade_out_duration > 0: self.video_clip = self.video_clip.with_effects([FadeOut(fade_out_duration)]) self.effects.append(f"fade(in:{fade_in_duration:.1f}s, out:{fade_out_duration:.1f}s)") print(f"πŸŒ… Applied fade effects: in {fade_in_duration:.1f}s, out {fade_out_duration:.1f}s") def apply_volume(self, volume_factor): """Apply volume adjustment to current video""" if not self.video_clip: raise Exception("No video loaded!") if not self.video_clip.audio: raise Exception("Video has no audio track!") from moviepy.audio.fx import MultiplyVolume self.video_clip = self.video_clip.with_effects([MultiplyVolume(volume_factor)]) self.effects.append(f"volume({volume_factor:.1f}x)") print(f"πŸ”Š Applied volume adjustment: {volume_factor:.1f}x") def apply_resize(self, width, height): """Apply resize to current video""" if not self.video_clip: raise Exception("No video loaded!") if width < 1 or height < 1: raise Exception("Width and height must be positive!") from moviepy.video.fx import Resize self.video_clip = self.video_clip.with_effects([Resize((width, height))]) self.effects.append(f"resize({width}x{height})") print(f"πŸ“ Applied resize: {width}x{height}") def apply_text_overlay_to_current(self, text, position=('center', 'bottom'), font_size=50, color='white', method='fast'): """Apply text overlay to current video""" if not self.video_clip: raise Exception("No video loaded!") if method == 'fast': # Use the fast PIL-based method self._apply_text_overlay_fast_to_current(text, position, font_size, color) else: # Use MoviePy method for higher quality self._apply_text_overlay_quality_to_current(text, position, font_size, color) self.effects.append(f"text('{text[:20]}...', {position}, {font_size}px)") print(f"πŸ“ Applied text overlay: '{text[:30]}...'") def _apply_text_overlay_fast_to_current(self, text, position, font_size, color): """Fast PIL-based text overlay to current video""" from PIL import Image, ImageDraw, ImageFont def add_text_to_frame(get_frame, t): frame = get_frame(t) # Convert to PIL Image pil_image = Image.fromarray(frame) draw = ImageDraw.Draw(pil_image) # Calculate position w, h = pil_image.size x_pos, y_pos = self._calculate_text_position(position, w, h, text, font_size) # Draw text with outline for better visibility try: font = ImageFont.truetype("arial.ttf", font_size) except: font = ImageFont.load_default() # Draw outline for adj in range(-2, 3): for adj2 in range(-2, 3): draw.text((x_pos + adj, y_pos + adj2), text, font=font, fill='black') # Draw main text draw.text((x_pos, y_pos), text, font=font, fill=color) return np.array(pil_image) self.video_clip = self.video_clip.transform(add_text_to_frame) def _apply_text_overlay_quality_to_current(self, text, position, font_size, color): """High quality MoviePy-based text overlay to current video""" from moviepy.editor import TextClip, CompositeVideoClip text_clip = TextClip(text, fontsize=font_size, color=color, font='Arial-Bold') text_clip = text_clip.with_duration(self.video_clip.duration) # Set position if position == ('center', 'center'): text_clip = text_clip.with_position('center') elif position == ('center', 'bottom'): text_clip = text_clip.with_position(('center', 'bottom')) elif position == ('center', 'top'): text_clip = text_clip.with_position(('center', 'top')) else: text_clip = text_clip.with_position(position) self.video_clip = CompositeVideoClip([self.video_clip, text_clip]) def _calculate_text_position(self, position, width, height, text, font_size): """Calculate text position based on position tuple""" # Estimate text dimensions (rough calculation) text_width = len(text) * font_size * 0.6 text_height = font_size x_pos, y_pos = position if x_pos == 'center': x_pos = (width - text_width) // 2 elif x_pos == 'left': x_pos = 50 elif x_pos == 'right': x_pos = width - text_width - 50 if y_pos == 'center': y_pos = (height - text_height) // 2 elif y_pos == 'top': y_pos = 50 elif y_pos == 'bottom': y_pos = height - text_height - 50 return int(x_pos), int(y_pos) @staticmethod def add_text_overlay_fast(video_path, text, position=('center', 'bottom'), font_size=50, color='white', output_path=None): """Ultra-fast text overlay using PIL (for simple text only)""" try: from PIL import Image, ImageDraw, ImageFont import cv2 print(f"πŸš€ Using fast text overlay method...") # Read video with OpenCV for faster processing cap = cv2.VideoCapture(video_path) fps = cap.get(cv2.CAP_PROP_FPS) width = int(cap.get(cv2.CAP_PROP_FRAME_WIDTH)) height = int(cap.get(cv2.CAP_PROP_FRAME_HEIGHT)) if not output_path: output_path = video_path.replace('.mp4', '_with_text_fast.mp4') # Set up video writer fourcc = cv2.VideoWriter_fourcc(*'mp4v') out = cv2.VideoWriter(output_path, fourcc, fps, (width, height)) frame_count = 0 total_frames = int(cap.get(cv2.CAP_PROP_FRAME_COUNT)) # Calculate text position if position == ('center', 'bottom'): text_x, text_y = width // 2, height - 100 elif position == ('center', 'top'): text_x, text_y = width // 2, 100 elif position == ('center', 'center'): text_x, text_y = width // 2, height // 2 else: text_x, text_y = width // 2, height - 100 # Default print(f"πŸ“Ή Processing {total_frames} frames...") while True: ret, frame = cap.read() if not ret: break # Convert BGR to RGB for PIL frame_rgb = cv2.cvtColor(frame, cv2.COLOR_BGR2RGB) pil_image = Image.fromarray(frame_rgb) draw = ImageDraw.Draw(pil_image) # Try to use a system font, fallback to default try: font = ImageFont.truetype("arial.ttf", font_size) except: try: font = ImageFont.truetype("calibri.ttf", font_size) except: try: font = ImageFont.truetype("tahoma.ttf", font_size) except: font = ImageFont.load_default() print(f"πŸ“ Using default font (system fonts not found)") # Add text with outline effect (centered text) text_bbox = draw.textbbox((0, 0), text, font=font) text_width = text_bbox[2] - text_bbox[0] text_height = text_bbox[3] - text_bbox[1] # Center the text properly centered_x = text_x - (text_width // 2) centered_y = text_y - (text_height // 2) outline_width = 2 for adj_x in range(-outline_width, outline_width + 1): for adj_y in range(-outline_width, outline_width + 1): draw.text((centered_x + adj_x, centered_y + adj_y), text, font=font, fill='black') # Add main text draw.text((centered_x, centered_y), text, font=font, fill=color) # Convert back to BGR for OpenCV frame_with_text = cv2.cvtColor(np.array(pil_image), cv2.COLOR_RGB2BGR) out.write(frame_with_text) frame_count += 1 if frame_count % 30 == 0: # Progress every 30 frames progress = (frame_count / total_frames) * 100 print(f"🎬 Progress: {progress:.1f}%") cap.release() out.release() # Add audio back using MoviePy (faster than re-encoding everything) print(f"πŸ”Š Adding audio track...") video_with_audio = VideoFileClip(video_path) video_with_text = VideoFileClip(output_path) final_video = video_with_text.with_audio(video_with_audio.audio) temp_output = output_path.replace('.mp4', '_temp.mp4') try: # Try with logger parameter (newer MoviePy) final_video.write_videofile(temp_output, codec="libx264", audio_codec="aac", logger=None) except TypeError: # Fallback for older MoviePy versions without logger parameter final_video.write_videofile(temp_output, codec="libx264", audio_codec="aac") # Replace original with final version import os os.remove(output_path) os.rename(temp_output, output_path) video_with_audio.close() video_with_text.close() final_video.close() print(f"βœ… Fast text overlay completed!") return output_path except ImportError: print(f"⚠️ PIL not available, falling back to MoviePy method...") return VideoEditor.add_text_overlay(video_path, text, position, font_size=font_size, color=color, output_path=output_path) except Exception as e: print(f"⚠️ Fast method failed ({e}), falling back to MoviePy...") return VideoEditor.add_text_overlay(video_path, text, position, font_size=font_size, color=color, output_path=output_path) @staticmethod def get_video_info(video_path): """Get basic video information""" clip = VideoFileClip(video_path) info = { 'duration': clip.duration, 'fps': clip.fps, 'size': clip.size, 'has_audio': clip.audio is not None } clip.close() return info # Timeline Video Editor Class class TimelineEditor: """Professional timeline-based video editor""" def __init__(self): self.clips = [] # List of video clips in timeline self.tracks = { # Multiple tracks for complex editing 'video': [], # Main video track 'overlay': [], # Overlay track for text/graphics 'audio': [], # Audio track for background music 'effects': [] # Effects track } self.timeline_duration = 0 # Total timeline duration self.playhead_position = 0 # Current playback position self.zoom_level = 1.0 # Timeline zoom level self.snap_enabled = True # Snap to grid/markers self.markers = [] # Timeline markers self.selected_clips = [] # Currently selected clips self.clipboard = [] # Clipboard for copy/paste self.undo_stack = [] # Undo history self.redo_stack = [] # Redo history def add_clip_to_track(self, track_name, clip_data, start_time, duration=None): """Add a clip to specific track at specific time""" if track_name not in self.tracks: self.tracks[track_name] = [] clip = { 'id': len(self.clips), 'type': clip_data.get('type', 'video'), 'file_path': clip_data.get('file_path'), 'start_time': start_time, 'duration': duration or clip_data.get('duration', 5.0), 'in_point': clip_data.get('in_point', 0), 'out_point': clip_data.get('out_point', duration or 5.0), 'effects': [], 'transitions': {'in': None, 'out': None}, 'properties': clip_data.get('properties', {}), 'locked': False, 'muted': False, 'visible': True } self.tracks[track_name].append(clip) self.clips.append(clip) self._update_timeline_duration() self._save_state() return clip def remove_clip(self, clip_id, ripple_delete=True): """Remove clip from timeline with optional ripple delete""" self._save_state() clip_to_remove = None track_name = None # Find and remove clip for track, clips in self.tracks.items(): for i, clip in enumerate(clips): if clip['id'] == clip_id: clip_to_remove = clip track_name = track clips.pop(i) break if clip_to_remove: break if not clip_to_remove: return False # Remove from main clips list self.clips = [c for c in self.clips if c['id'] != clip_id] if ripple_delete: self._ripple_delete(track_name, clip_to_remove['start_time'], clip_to_remove['duration']) self._update_timeline_duration() return True def move_clip(self, clip_id, new_start_time, new_track=None): """Move clip to new position/track""" self._save_state() clip = self.get_clip_by_id(clip_id) if not clip: return False old_track = self._find_clip_track(clip_id) old_start = clip['start_time'] # Remove from old position if old_track: self.tracks[old_track] = [c for c in self.tracks[old_track] if c['id'] != clip_id] # Update clip position clip['start_time'] = new_start_time # Add to new track target_track = new_track or old_track if target_track and target_track in self.tracks: self.tracks[target_track].append(clip) self._update_timeline_duration() return True def trim_clip(self, clip_id, new_in_point=None, new_out_point=None, trim_type="ripple"): """Trim clip with different trim modes""" self._save_state() clip = self.get_clip_by_id(clip_id) if not clip: return False old_duration = clip['duration'] if new_in_point is not None: clip['in_point'] = max(0, new_in_point) if new_out_point is not None: clip['out_point'] = new_out_point # Update duration clip['duration'] = clip['out_point'] - clip['in_point'] duration_change = clip['duration'] - old_duration if trim_type == "ripple" and duration_change != 0: track_name = self._find_clip_track(clip_id) self._ripple_edit(track_name, clip['start_time'] + old_duration, duration_change) self._update_timeline_duration() return True def split_clip(self, clip_id, split_time): """Split clip at specific time""" self._save_state() clip = self.get_clip_by_id(clip_id) if not clip: return False if split_time <= clip['start_time'] or split_time >= clip['start_time'] + clip['duration']: return False track_name = self._find_clip_track(clip_id) # Create second part second_clip = copy.deepcopy(clip) second_clip['id'] = len(self.clips) second_clip['start_time'] = split_time second_clip['in_point'] += (split_time - clip['start_time']) second_clip['duration'] = clip['start_time'] + clip['duration'] - split_time # Update first part clip['duration'] = split_time - clip['start_time'] clip['out_point'] = clip['in_point'] + clip['duration'] # Add second part to timeline self.tracks[track_name].append(second_clip) self.clips.append(second_clip) return [clip['id'], second_clip['id']] def add_transition(self, clip_id, transition_type, duration=1.0, position="out"): """Add transition to clip""" clip = self.get_clip_by_id(clip_id) if not clip: return False transition = { 'type': transition_type, 'duration': duration, 'properties': {} } clip['transitions'][position] = transition return True def add_effect_to_clip(self, clip_id, effect_type, start_time=None, duration=None, **params): """Add effect to specific clip""" clip = self.get_clip_by_id(clip_id) if not clip: return False effect = { 'type': effect_type, 'start_time': start_time or 0, 'duration': duration or clip['duration'], 'params': params, 'enabled': True } clip['effects'].append(effect) return True def add_marker(self, time, label="", color="blue"): """Add timeline marker""" marker = { 'time': time, 'label': label, 'color': color } self.markers.append(marker) self.markers.sort(key=lambda x: x['time']) return marker def set_playhead(self, time): """Set playhead position""" self.playhead_position = max(0, min(time, self.timeline_duration)) def select_clips(self, clip_ids): """Select multiple clips""" self.selected_clips = clip_ids def copy_selected_clips(self): """Copy selected clips to clipboard""" self.clipboard = [] for clip_id in self.selected_clips: clip = self.get_clip_by_id(clip_id) if clip: self.clipboard.append(copy.deepcopy(clip)) def paste_clips(self, target_time, target_track=None): """Paste clipboard clips at target time""" if not self.clipboard: return [] self._save_state() pasted_clips = [] for clip_data in self.clipboard: new_clip = copy.deepcopy(clip_data) new_clip['id'] = len(self.clips) new_clip['start_time'] = target_time track = target_track or 'video' self.tracks[track].append(new_clip) self.clips.append(new_clip) pasted_clips.append(new_clip['id']) target_time += new_clip['duration'] # Offset next clip self._update_timeline_duration() return pasted_clips def group_clips(self, clip_ids): """Group clips into compound clip""" if len(clip_ids) < 2: return None clips_to_group = [self.get_clip_by_id(cid) for cid in clip_ids if self.get_clip_by_id(cid)] if not clips_to_group: return None # Calculate group bounds min_start = min(c['start_time'] for c in clips_to_group) max_end = max(c['start_time'] + c['duration'] for c in clips_to_group) # Create compound clip compound_clip = { 'id': len(self.clips), 'type': 'compound', 'start_time': min_start, 'duration': max_end - min_start, 'clips': clips_to_group, 'effects': [], 'transitions': {'in': None, 'out': None}, 'properties': {}, 'locked': False, 'muted': False, 'visible': True } # Remove original clips from tracks for clip_id in clip_ids: self.remove_clip(clip_id, ripple_delete=False) # Add compound clip self.tracks['video'].append(compound_clip) self.clips.append(compound_clip) return compound_clip['id'] def undo(self): """Undo last action""" if self.undo_stack: current_state = self._get_current_state() self.redo_stack.append(current_state) previous_state = self.undo_stack.pop() self._restore_state(previous_state) def redo(self): """Redo last undone action""" if self.redo_stack: current_state = self._get_current_state() self.undo_stack.append(current_state) next_state = self.redo_stack.pop() self._restore_state(next_state) def export_timeline(self, output_path, quality="high", progress_callback=None): """Export timeline to video file""" print("🎬 Starting timeline export...") if not self.clips: raise Exception("No clips in timeline!") # Sort clips by start time all_clips = [] for track_clips in self.tracks.values(): all_clips.extend(track_clips) all_clips.sort(key=lambda x: x['start_time']) # Build composition video_clips = [] for clip in all_clips: if not clip['visible'] or clip['type'] == 'audio': continue try: if clip['type'] == 'video': video_clip = VideoFileClip(clip['file_path']) # Apply trimming if clip['in_point'] > 0 or clip['out_point'] < video_clip.duration: video_clip = video_clip.subclipped(clip['in_point'], min(clip['out_point'], video_clip.duration)) # Set timing in timeline video_clip = video_clip.with_start(clip['start_time']) # Apply clip effects for effect in clip['effects']: video_clip = self._apply_effect_to_clip(video_clip, effect) # Apply transitions if clip['transitions']['in']: video_clip = self._apply_transition(video_clip, clip['transitions']['in'], 'in') if clip['transitions']['out']: video_clip = self._apply_transition(video_clip, clip['transitions']['out'], 'out') video_clips.append(video_clip) elif clip['type'] == 'text': text_clip = self._create_text_clip_from_data(clip) if text_clip: video_clips.append(text_clip) except Exception as e: print(f"⚠️ Error processing clip {clip['id']}: {e}") continue if not video_clips: raise Exception("No valid video clips to export!") # Composite all clips final_video = CompositeVideoClip(video_clips, size=(1080, 1920)) # Export with quality settings quality_settings = { "low": {"bitrate": "500k", "audio_bitrate": "128k"}, "medium": {"bitrate": "1M", "audio_bitrate": "192k"}, "high": {"bitrate": "2M", "audio_bitrate": "320k"} } settings = quality_settings.get(quality, quality_settings["medium"]) try: final_video.write_videofile( output_path, codec="libx264", audio_codec="aac", bitrate=settings["bitrate"], audio_bitrate=settings["audio_bitrate"], logger=None ) except TypeError: # Fallback for older MoviePy final_video.write_videofile( output_path, codec="libx264", audio_codec="aac", bitrate=settings["bitrate"], audio_bitrate=settings["audio_bitrate"] ) # Cleanup for clip in video_clips: if hasattr(clip, 'close'): clip.close() final_video.close() print(f"βœ… Timeline exported to: {output_path}") def get_clip_by_id(self, clip_id): """Get clip by ID""" return next((c for c in self.clips if c['id'] == clip_id), None) def get_clips_at_time(self, time): """Get all clips active at specific time""" active_clips = [] for clip in self.clips: if clip['start_time'] <= time <= clip['start_time'] + clip['duration']: active_clips.append(clip) return active_clips def get_track_clips(self, track_name): """Get all clips in specific track""" return self.tracks.get(track_name, []) def _find_clip_track(self, clip_id): """Find which track contains the clip""" for track_name, clips in self.tracks.items(): if any(c['id'] == clip_id for c in clips): return track_name return None def _update_timeline_duration(self): """Update total timeline duration""" max_duration = 0 for clip in self.clips: clip_end = clip['start_time'] + clip['duration'] max_duration = max(max_duration, clip_end) self.timeline_duration = max_duration def _ripple_delete(self, track_name, start_time, duration): """Shift clips after deleted region""" for clip in self.tracks[track_name]: if clip['start_time'] > start_time: clip['start_time'] -= duration def _ripple_edit(self, track_name, edit_time, time_change): """Shift clips after edit point""" for clip in self.tracks[track_name]: if clip['start_time'] >= edit_time: clip['start_time'] += time_change def _save_state(self): """Save current state for undo""" current_state = self._get_current_state() self.undo_stack.append(current_state) # Limit undo stack size if len(self.undo_stack) > 50: self.undo_stack.pop(0) # Clear redo stack when new action is performed self.redo_stack.clear() def _get_current_state(self): """Get current timeline state""" return { 'clips': copy.deepcopy(self.clips), 'tracks': copy.deepcopy(self.tracks), 'timeline_duration': self.timeline_duration, 'markers': copy.deepcopy(self.markers) } def _restore_state(self, state): """Restore timeline to previous state""" self.clips = copy.deepcopy(state['clips']) self.tracks = copy.deepcopy(state['tracks']) self.timeline_duration = state['timeline_duration'] self.markers = copy.deepcopy(state['markers']) def _apply_effect_to_clip(self, video_clip, effect): """Apply effect to video clip""" effect_type = effect['type'] params = effect['params'] if effect_type == 'fade_in': return video_clip.with_effects([FadeIn(params.get('duration', 1.0))]) elif effect_type == 'fade_out': return video_clip.with_effects([FadeOut(params.get('duration', 1.0))]) elif effect_type == 'resize': width = params.get('width', 1080) height = params.get('height', 1920) return video_clip.with_effects([Resize((width, height))]) elif effect_type == 'volume': factor = params.get('factor', 1.0) if video_clip.audio: return video_clip.with_effects([MultiplyVolume(factor)]) return video_clip def _apply_transition(self, video_clip, transition, position): """Apply transition effect""" transition_type = transition['type'] duration = transition['duration'] if transition_type == 'fade' and position == 'in': return video_clip.with_effects([FadeIn(duration)]) elif transition_type == 'fade' and position == 'out': return video_clip.with_effects([FadeOut(duration)]) return video_clip def _create_text_clip_from_data(self, clip_data): """Create text clip from clip data""" try: props = clip_data['properties'] text = props.get('text', 'Sample Text') font_size = props.get('font_size', 50) color = props.get('color', 'white') position = props.get('position', ('center', 'bottom')) text_clip = TextClip(text, fontsize=font_size, color=color) text_clip = text_clip.with_start(clip_data['start_time']) text_clip = text_clip.with_duration(clip_data['duration']) text_clip = text_clip.with_position(position) return text_clip except Exception as e: print(f"⚠️ Error creating text clip: {e}") return None # Post-Generation Editing Interface class ShortsEditorGUI: """Interface for editing generated shorts with modern design""" def __init__(self, parent, shorts_folder="shorts"): self.parent = parent self.shorts_folder = shorts_folder self.current_video = None self.video_info = None self.editor_window = None # Modern color scheme self.colors = { 'bg_primary': '#1a1a1a', # Dark background 'bg_secondary': '#2d2d2d', # Medium dark 'bg_tertiary': '#3d3d3d', # Lighter dark 'text_primary': '#ffffff', # White text 'text_secondary': '#cccccc', # Light gray text 'text_muted': '#888888', # Muted gray text 'accent_blue': '#4a9eff', # Blue accent 'accent_green': '#4CAF50', # Green accent 'accent_orange': '#ff9800', # Orange accent 'accent_red': '#f44336', # Red accent 'accent_purple': '#9c27b0', # Purple accent 'hover': '#4a4a4a', # Hover state 'accent_gray': '#666666', # Gray accent 'border': '#555555' # Border color } # Modern font scheme self.fonts = { 'heading': ('Segoe UI', 16, 'bold'), 'subheading': ('Segoe UI', 12, 'bold'), 'body': ('Segoe UI', 10, 'normal'), 'caption': ('Segoe UI', 9, 'normal'), 'mono': ('Consolas', 9, 'normal'), 'small': ('Segoe UI', 8, 'normal') } # Timeline variables initialization self.timeline_selected_clips = [] self.timeline_playhead_pos = 0 self.timeline_scale = 50 # Pixels per second self.timeline_tracks_height = 60 # Height per track def add_hover_effect(self, button, hover_color=None): """Add hover effect to buttons""" if hover_color is None: hover_color = self.colors['hover'] original_color = button.cget('bg') def on_enter(e): button.config(bg=hover_color) def on_leave(e): button.config(bg=original_color) button.bind("", on_enter) button.bind("", on_leave) def open_editor(self): """Open the shorts editing interface""" # Find available shorts shorts_files = glob.glob(os.path.join(self.shorts_folder, "*.mp4")) if not shorts_files: messagebox.showinfo("No Shorts Found", f"No video files found in '{self.shorts_folder}' folder.\nGenerate some shorts first!") return # Create modern editor window self.editor_window = tk.Toplevel(self.parent) self.editor_window.title("🎬 Shorts Editor - Professional Video Editing") self.editor_window.geometry("1200x800") # Increased width to show all panels self.editor_window.minsize(1000, 700) # Increased minimum size self.editor_window.resizable(True, True) self.editor_window.transient(self.parent) self.editor_window.configure(bg=self.colors['bg_primary']) # Modern dark background # Make window responsive self.editor_window.rowconfigure(1, weight=1) self.editor_window.columnconfigure(0, weight=1) # Bind resize event self.editor_window.bind('', self.on_editor_resize) self.create_editor_interface(shorts_files) def on_editor_resize(self, event): """Handle editor window resize events""" if event.widget == self.editor_window: # Get current window size width = self.editor_window.winfo_width() height = self.editor_window.winfo_height() # Adjust layout based on size - for very small windows, stack vertically if width < 700: # Switch to vertical layout for smaller windows try: # This would require more significant layout changes # For now, just ensure minimum functionality pass except: pass def create_editor_interface(self, shorts_files): """Create the main editor interface with modern video player""" # Modern title section title_frame = tk.Frame(self.editor_window, bg=self.colors['bg_primary']) title_frame.pack(fill="x", padx=20, pady=10) title_label = tk.Label(title_frame, text="🎬 Professional Shorts Editor", font=self.fonts['heading'], bg=self.colors['bg_primary'], fg=self.colors['text_primary']) title_label.pack() subtitle_label = tk.Label(title_frame, text="Select and edit your generated shorts with professional tools + Real-time Preview", font=self.fonts['body'], bg=self.colors['bg_primary'], fg=self.colors['text_secondary']) subtitle_label.pack() # Modern main content frame main_frame = tk.Frame(self.editor_window, bg=self.colors['bg_primary']) main_frame.pack(fill="both", expand=True, padx=20, pady=10) # Modern left panel - Video selection and info left_panel = tk.Frame(main_frame, bg=self.colors['bg_primary']) left_panel.pack(side="left", fill="y", padx=(0, 10)) # Modern video selection frame selection_frame = tk.LabelFrame(left_panel, text="πŸ“ Select Short to Edit", font=self.fonts['subheading'], bg=self.colors['bg_secondary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=10) selection_frame.pack(fill="x", pady=(0, 10)) # Modern video list container list_frame = tk.Frame(selection_frame, bg=self.colors['bg_secondary']) list_frame.pack(fill="x") list_title = tk.Label(list_frame, text="Available Shorts:", font=self.fonts['body'], bg=self.colors['bg_secondary'], fg=self.colors['text_primary']) list_title.pack(anchor="w") # Modern listbox with scrollbar list_container = tk.Frame(list_frame, bg=self.colors['bg_secondary']) list_container.pack(fill="x", pady=5) self.video_listbox = tk.Listbox(list_container, height=4, font=self.fonts['mono'], width=50, bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], selectbackground=self.colors['accent_blue'], selectforeground=self.colors['text_primary'], bd=0, highlightthickness=1, highlightcolor=self.colors['accent_blue'], relief="flat") scrollbar = tk.Scrollbar(list_container, orient="vertical", bg=self.colors['bg_tertiary'], activebackground=self.colors['accent_blue'], troughcolor=self.colors['bg_primary']) self.video_listbox.config(yscrollcommand=scrollbar.set) scrollbar.config(command=self.video_listbox.yview) self.video_listbox.pack(side="left", fill="both", expand=True) scrollbar.pack(side="right", fill="y") # Populate video list with file info self.video_files = [] for video_file in sorted(shorts_files): try: info = VideoEditor.get_video_info(video_file) filename = os.path.basename(video_file) size_mb = os.path.getsize(video_file) / (1024 * 1024) display_text = f"{filename:<20} β”‚ {info['duration']:.1f}s β”‚ {info['size'][0]}x{info['size'][1]} β”‚ {size_mb:.1f}MB" self.video_listbox.insert(tk.END, display_text) self.video_files.append(video_file) except Exception as e: print(f"Error reading {video_file}: {e}") # Video selection handler def on_video_select(event): selection = self.video_listbox.curselection() if selection: self.current_video = self.video_files[selection[0]] self.video_info = VideoEditor.get_video_info(self.current_video) self.update_video_info() self.enable_editing_tools() self.load_video_in_player() self.video_listbox.bind("<>", on_video_select) # Modern video info section self.info_frame = tk.LabelFrame(left_panel, text="πŸ“Š Video Information", font=self.fonts['subheading'], bg=self.colors['bg_secondary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=10) self.info_frame.pack(fill="x", pady=(0, 10)) self.info_label = tk.Label(self.info_frame, text="Select a video to see details", font=self.fonts['mono'], justify="left", bg=self.colors['bg_secondary'], fg=self.colors['text_secondary']) self.info_label.pack(anchor="w") # Modern video player frame (center) player_frame = tk.Frame(main_frame, bg=self.colors['bg_primary']) player_frame.pack(side="left", fill="both", expand=True, padx=10) # Create modern video player self.create_video_player(player_frame) # Editing tools frame (right panel) - Fixed width to ensure visibility self.tools_frame = tk.LabelFrame(main_frame, text="πŸ› οΈ Professional Editing Tools", font=self.fonts['subheading'], bg=self.colors['bg_secondary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=10) self.tools_frame.pack(side="right", fill="both", padx=(10, 0), ipadx=10) self.tools_frame.config(width=300) # Set minimum width for tools panel self.create_editing_tools() # Modern output and action buttons action_frame = tk.Frame(self.editor_window, bg=self.colors['bg_primary']) action_frame.pack(fill="x", padx=20, pady=10) # Modern output folder selection output_folder_frame = tk.Frame(action_frame, bg=self.colors['bg_primary']) output_folder_frame.pack(fill="x", pady=5) output_label = tk.Label(output_folder_frame, text="Output Folder:", font=self.fonts['body'], bg=self.colors['bg_primary'], fg=self.colors['text_primary']) output_label.pack(side="left") self.output_folder = tk.StringVar(value=os.path.join(self.shorts_folder, "edited")) output_entry = tk.Entry(output_folder_frame, textvariable=self.output_folder, width=40, font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], insertbackground=self.colors['text_primary'], bd=0, relief="flat") output_entry.pack(side="left", padx=(10, 5)) browse_btn = tk.Button(output_folder_frame, text="Browse", command=self.select_output_folder, font=self.fonts['body'], bg=self.colors['accent_blue'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=15, pady=5) browse_btn.pack(side="left") self.add_hover_effect(browse_btn) # Modern action buttons button_frame = tk.Frame(action_frame, bg=self.colors['bg_primary']) button_frame.pack(fill="x", pady=15) # Increased padding for better visibility # Refresh button refresh_btn = tk.Button(button_frame, text="πŸ”„ Refresh List", command=self.refresh_video_list, bg=self.colors['accent_blue'], fg=self.colors['text_primary'], font=self.fonts['body'], bd=0, relief="flat", padx=15, pady=8) refresh_btn.pack(side="left", padx=8) self.add_hover_effect(refresh_btn) # Open folder button folder_btn = tk.Button(button_frame, text="πŸ“‚ Open Shorts Folder", command=self.open_shorts_folder, bg=self.colors['accent_orange'], fg=self.colors['text_primary'], font=self.fonts['body'], bd=0, relief="flat", padx=15, pady=8) folder_btn.pack(side="left", padx=8) self.add_hover_effect(folder_btn) # Close button close_btn = tk.Button(button_frame, text="❌ Close Editor", command=self.close_editor, bg=self.colors['accent_red'], fg=self.colors['text_primary'], font=self.fonts['body'], bd=0, relief="flat", padx=15, pady=8) close_btn.pack(side="right", padx=8) self.add_hover_effect(close_btn) def create_video_player(self, parent_frame): """Create the modern video player with timeline controls""" player_label_frame = tk.LabelFrame(parent_frame, text="πŸŽ₯ Real-time Video Player", font=self.fonts['subheading'], bg=self.colors['bg_secondary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=10) player_label_frame.pack(fill="both", expand=True) # Modern video display canvas self.video_canvas = tk.Canvas(player_label_frame, width=400, height=300, bg=self.colors['bg_primary'], relief="flat", bd=0, highlightthickness=1, highlightcolor=self.colors['border']) self.video_canvas.pack(pady=10) # Modern player controls frame controls_frame = tk.Frame(player_label_frame, bg=self.colors['bg_secondary']) controls_frame.pack(fill="x", pady=5) # Modern timeline slider timeline_frame = tk.Frame(controls_frame, bg=self.colors['bg_secondary']) timeline_frame.pack(fill="x", pady=5) timeline_label = tk.Label(timeline_frame, text="Timeline:", font=self.fonts['body'], bg=self.colors['bg_secondary'], fg=self.colors['text_primary']) timeline_label.pack(anchor="w") self.timeline_var = tk.DoubleVar() self.timeline_slider = tk.Scale(timeline_frame, from_=0, to=100, orient="horizontal", variable=self.timeline_var, command=self.on_timeline_change, length=380, resolution=0.1, bg=self.colors['bg_secondary'], fg=self.colors['text_primary'], activebackground=self.colors['accent_blue'], troughcolor=self.colors['bg_tertiary'], highlightthickness=0, bd=0, relief="flat") self.timeline_slider.pack(fill="x") # Modern play controls play_controls_frame = tk.Frame(controls_frame, bg=self.colors['bg_secondary']) play_controls_frame.pack(pady=5) self.play_button = tk.Button(play_controls_frame, text="▢️ Play", command=self.toggle_play, font=self.fonts['body'], bg=self.colors['accent_green'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=15, pady=5) self.play_button.pack(side="left", padx=5) self.add_hover_effect(self.play_button) stop_btn = tk.Button(play_controls_frame, text="⏹️ Stop", command=self.stop_video, font=self.fonts['body'], bg=self.colors['accent_red'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=15, pady=5) stop_btn.pack(side="left", padx=5) self.add_hover_effect(stop_btn) seek_back_btn = tk.Button(play_controls_frame, text="βͺ -5s", command=lambda: self.seek_relative(-5), font=self.fonts['caption'], bg=self.colors['accent_orange'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=5) seek_back_btn.pack(side="left", padx=2) self.add_hover_effect(seek_back_btn) seek_forward_btn = tk.Button(play_controls_frame, text="⏩ +5s", command=lambda: self.seek_relative(5), font=self.fonts['caption'], bg=self.colors['accent_orange'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=5) seek_forward_btn.pack(side="left", padx=2) self.add_hover_effect(seek_forward_btn) # Modern time display self.time_label = tk.Label(controls_frame, text="00:00 / 00:00", font=self.fonts['body'], bg=self.colors['bg_secondary'], fg=self.colors['text_primary']) self.time_label.pack(pady=5) # Player state variables self.current_clip = None self.is_playing = False self.current_time = 0.0 self.video_duration = 0.0 self.play_thread = None self.last_frame_time = 0 def load_video_in_player(self): """Load the selected video in the player""" if not self.current_video: return try: # Close previous clip if self.current_clip: self.current_clip.close() print(f"πŸŽ₯ Loading video in player: {os.path.basename(self.current_video)}") self.current_clip = VideoFileClip(self.current_video) self.video_duration = self.current_clip.duration # Update timeline self.timeline_slider.config(to=self.video_duration) self.timeline_var.set(0) self.current_time = 0.0 # Display first frame self.display_frame_at_time(0.0) self.update_time_display() print(f"βœ… Video loaded successfully ({self.video_duration:.1f}s)") except Exception as e: print(f"❌ Error loading video: {e}") messagebox.showerror("Video Error", f"Failed to load video:\n{str(e)}") def display_frame_at_time(self, time_seconds): """Display video frame at specific time""" if not self.current_clip: return try: # Get frame at specified time frame = self.current_clip.get_frame(min(time_seconds, self.video_duration - 0.01)) # Convert frame to proper format for PIL if frame.dtype != np.uint8: # Convert float frames to uint8 frame = (frame * 255).astype(np.uint8) # Ensure frame is in correct shape (handle edge cases) if len(frame.shape) == 3 and frame.shape[2] == 3: # Normal RGB frame pil_image = Image.fromarray(frame) else: # Handle other formats or corrupted frames print(f"⚠️ Unusual frame shape: {frame.shape}, dtype: {frame.dtype}") # Create a black frame as fallback canvas_width = self.video_canvas.winfo_width() or 400 canvas_height = self.video_canvas.winfo_height() or 300 frame = np.zeros((canvas_height, canvas_width, 3), dtype=np.uint8) pil_image = Image.fromarray(frame) # Resize to fit canvas while maintaining aspect ratio canvas_width = self.video_canvas.winfo_width() or 400 canvas_height = self.video_canvas.winfo_height() or 300 pil_image.thumbnail((canvas_width - 20, canvas_height - 20), Image.Resampling.LANCZOS) # Convert to Tkinter format self.current_tk_image = ImageTk.PhotoImage(pil_image) # Clear canvas and display image self.video_canvas.delete("all") self.video_canvas.create_image(canvas_width//2, canvas_height//2, image=self.current_tk_image) except Exception as e: print(f"⚠️ Error displaying frame: {e}") # Show a black frame on error try: canvas_width = self.video_canvas.winfo_width() or 400 canvas_height = self.video_canvas.winfo_height() or 300 black_frame = np.zeros((canvas_height-20, canvas_width-20, 3), dtype=np.uint8) pil_image = Image.fromarray(black_frame) self.current_tk_image = ImageTk.PhotoImage(pil_image) self.video_canvas.delete("all") self.video_canvas.create_image(canvas_width//2, canvas_height//2, image=self.current_tk_image) except: pass def on_timeline_change(self, value): """Handle timeline slider changes""" if not self.current_clip: return self.current_time = float(value) self.display_frame_at_time(self.current_time) self.update_time_display() def toggle_play(self): """Toggle play/pause""" if not self.current_clip: return if self.is_playing: self.pause_video() else: self.play_video() def play_video(self): """Start video playback""" if not self.current_clip or self.is_playing: return self.is_playing = True self.play_button.config(text="⏸️ Pause", bg="#FF9800") def play_thread(): start_time = time.time() start_video_time = self.current_time while self.is_playing and self.current_time < self.video_duration: try: # Calculate current video time elapsed = time.time() - start_time self.current_time = start_video_time + elapsed if self.current_time >= self.video_duration: self.current_time = self.video_duration self.is_playing = False break # Update timeline and display self.timeline_var.set(self.current_time) self.display_frame_at_time(self.current_time) self.update_time_display() # Frame rate control (approximately 30 FPS) time.sleep(1/30) except Exception as e: print(f"⚠️ Playback error: {e}") break # Playback finished self.is_playing = False self.play_button.config(text="▢️ Play", bg="#4CAF50") self.play_thread = threading.Thread(target=play_thread, daemon=True) self.play_thread.start() def pause_video(self): """Pause video playback""" self.is_playing = False self.play_button.config(text="▢️ Play", bg="#4CAF50") def stop_video(self): """Stop video and return to beginning""" self.is_playing = False self.current_time = 0.0 self.timeline_var.set(0) self.display_frame_at_time(0.0) self.update_time_display() self.play_button.config(text="▢️ Play", bg="#4CAF50") def seek_relative(self, seconds): """Seek relative to current position""" if not self.current_clip: return new_time = max(0, min(self.current_time + seconds, self.video_duration)) self.current_time = new_time self.timeline_var.set(new_time) self.display_frame_at_time(new_time) self.update_time_display() def update_time_display(self): """Update the time display label""" current_mins = int(self.current_time // 60) current_secs = int(self.current_time % 60) total_mins = int(self.video_duration // 60) total_secs = int(self.video_duration % 60) time_text = f"{current_mins:02d}:{current_secs:02d} / {total_mins:02d}:{total_secs:02d}" self.time_label.config(text=time_text) def close_editor(self): """Clean up and close editor""" self.is_playing = False if self.current_clip: self.current_clip.close() self.editor_window.destroy() def create_editing_tools(self): """Create the professional editing tools interface""" # Create modern notebook for organized tools style = ttk.Style() style.theme_use('clam') # Configure modern notebook styling style.configure('Modern.TNotebook', background=self.colors['bg_secondary'], borderwidth=0) style.configure('Modern.TNotebook.Tab', background=self.colors['bg_tertiary'], foreground=self.colors['text_primary'], padding=[8, 4], borderwidth=0) style.map('Modern.TNotebook.Tab', background=[('selected', self.colors['accent_blue']), ('active', self.colors['hover'])]) notebook = ttk.Notebook(self.tools_frame, style='Modern.TNotebook') notebook.pack(fill="both", expand=True) # Modern Basic Editing Tab basic_frame = tk.Frame(notebook, bg=self.colors['bg_secondary']) notebook.add(basic_frame, text="βœ‚οΈ Basic Editing") # Modern Trim Tool trim_frame = tk.LabelFrame(basic_frame, text="βœ‚οΈ Trim Video", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) trim_frame.pack(fill="x", padx=10, pady=5) trim_controls = tk.Frame(trim_frame, bg=self.colors['bg_tertiary']) trim_controls.pack(fill="x") # Start time control start_label = tk.Label(trim_controls, text="Start:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) start_label.pack(side="left") self.trim_start = tk.DoubleVar(value=0.0) start_spinbox = tk.Spinbox(trim_controls, from_=0, to=120, increment=0.1, width=8, textvariable=self.trim_start, format="%.1f", font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") start_spinbox.pack(side="left", padx=5) # End time control end_label = tk.Label(trim_controls, text="End:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) end_label.pack(side="left", padx=(10, 0)) self.trim_end = tk.DoubleVar(value=5.0) end_spinbox = tk.Spinbox(trim_controls, from_=0, to=120, increment=0.1, width=8, textvariable=self.trim_end, format="%.1f", font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") end_spinbox.pack(side="left", padx=5) # Modern trim button trim_btn = tk.Button(trim_controls, text="βœ‚οΈ Trim Video", command=self.trim_video, font=self.fonts['caption'], bg=self.colors['accent_green'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) trim_btn.pack(side="right", padx=10) self.add_hover_effect(trim_btn) # Modern Speed Tool speed_frame = tk.LabelFrame(basic_frame, text="⚑ Speed Control", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) speed_frame.pack(fill="x", padx=10, pady=5) speed_controls = tk.Frame(speed_frame, bg=self.colors['bg_tertiary']) speed_controls.pack(fill="x") # Speed control speed_label = tk.Label(speed_controls, text="Speed:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) speed_label.pack(side="left") self.speed_factor = tk.DoubleVar(value=1.0) speed_spinbox = tk.Spinbox(speed_controls, from_=0.1, to=5.0, increment=0.1, width=8, textvariable=self.speed_factor, format="%.1f", font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") speed_spinbox.pack(side="left", padx=5) # Speed hint speed_hint = tk.Label(speed_controls, text="(0.5=slow, 1.0=normal, 2.0=fast)", font=('Segoe UI', 7), bg=self.colors['bg_tertiary'], fg=self.colors['text_muted']) speed_hint.pack(side="left", padx=5) # Modern speed button speed_btn = tk.Button(speed_controls, text="⚑ Apply Speed", command=self.adjust_speed, font=self.fonts['caption'], bg=self.colors['accent_orange'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) speed_btn.pack(side="right", padx=10) self.add_hover_effect(speed_btn) # Modern Effects Tab effects_frame = tk.Frame(notebook, bg=self.colors['bg_secondary']) notebook.add(effects_frame, text="✨ Effects") # Modern Fade Effects fade_frame = tk.LabelFrame(effects_frame, text="πŸŒ… Fade Effects", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) fade_frame.pack(fill="x", padx=10, pady=5) fade_controls = tk.Frame(fade_frame, bg=self.colors['bg_tertiary']) fade_controls.pack(fill="x") # Fade in control fade_in_label = tk.Label(fade_controls, text="Fade In:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) fade_in_label.pack(side="left") self.fade_in = tk.DoubleVar(value=0.5) fade_in_spinbox = tk.Spinbox(fade_controls, from_=0, to=5, increment=0.1, width=6, textvariable=self.fade_in, format="%.1f", font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") fade_in_spinbox.pack(side="left", padx=5) # Fade out control fade_out_label = tk.Label(fade_controls, text="Fade Out:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) fade_out_label.pack(side="left", padx=(10, 0)) self.fade_out = tk.DoubleVar(value=0.5) fade_out_spinbox = tk.Spinbox(fade_controls, from_=0, to=5, increment=0.1, width=6, textvariable=self.fade_out, format="%.1f", font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") fade_out_spinbox.pack(side="left", padx=5) # Modern fade button fade_btn = tk.Button(fade_controls, text="πŸŒ… Add Fades", command=self.add_fades, font=self.fonts['caption'], bg=self.colors['accent_purple'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) fade_btn.pack(side="right", padx=10) self.add_hover_effect(fade_btn) # Modern Volume Control volume_frame = tk.LabelFrame(effects_frame, text="πŸ”Š Volume Control", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) volume_frame.pack(fill="x", padx=10, pady=5) volume_controls = tk.Frame(volume_frame, bg=self.colors['bg_tertiary']) volume_controls.pack(fill="x") # Volume control volume_label = tk.Label(volume_controls, text="Volume:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) volume_label.pack(side="left") self.volume_factor = tk.DoubleVar(value=1.0) volume_spinbox = tk.Spinbox(volume_controls, from_=0, to=3, increment=0.1, width=6, textvariable=self.volume_factor, format="%.1f", font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") volume_spinbox.pack(side="left", padx=5) # Volume hint volume_hint = tk.Label(volume_controls, text="(0.0=mute, 1.0=normal, 2.0=loud)", font=('Segoe UI', 7), bg=self.colors['bg_tertiary'], fg=self.colors['text_muted']) volume_hint.pack(side="left", padx=5) # Modern volume button volume_btn = tk.Button(volume_controls, text="πŸ”Š Adjust Volume", command=self.adjust_volume, font=self.fonts['caption'], bg=self.colors['accent_blue'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) volume_btn.pack(side="right", padx=10) self.add_hover_effect(volume_btn) # Modern Transform Tab transform_frame = tk.Frame(notebook, bg=self.colors['bg_secondary']) notebook.add(transform_frame, text="πŸ”„ Transform") # Modern Resize Tool resize_frame = tk.LabelFrame(transform_frame, text="πŸ“ Resize Video", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) resize_frame.pack(fill="x", padx=10, pady=5) resize_controls = tk.Frame(resize_frame, bg=self.colors['bg_tertiary']) resize_controls.pack(fill="x") # Width control width_label = tk.Label(resize_controls, text="Width:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) width_label.pack(side="left") self.resize_width = tk.IntVar(value=1080) width_spinbox = tk.Spinbox(resize_controls, from_=240, to=4320, increment=120, width=6, textvariable=self.resize_width, font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") width_spinbox.pack(side="left", padx=5) # Height control height_label = tk.Label(resize_controls, text="Height:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) height_label.pack(side="left", padx=(10, 0)) self.resize_height = tk.IntVar(value=1920) height_spinbox = tk.Spinbox(resize_controls, from_=240, to=4320, increment=120, width=6, textvariable=self.resize_height, font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") height_spinbox.pack(side="left", padx=5) # Modern resize button resize_btn = tk.Button(resize_controls, text="πŸ“ Resize", command=self.resize_video, font=self.fonts['caption'], bg=self.colors['accent_green'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) resize_btn.pack(side="right", padx=10) self.add_hover_effect(resize_btn) # Modern Text Overlay Tab text_frame = tk.Frame(notebook, bg=self.colors['bg_secondary']) notebook.add(text_frame, text="πŸ“ Text Overlay") text_overlay_frame = tk.LabelFrame(text_frame, text="πŸ“ Add Text Overlay", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) text_overlay_frame.pack(fill="x", padx=10, pady=5) # Modern text input text_input_frame = tk.Frame(text_overlay_frame, bg=self.colors['bg_tertiary']) text_input_frame.pack(fill="x", pady=5) text_label = tk.Label(text_input_frame, text="Text:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) text_label.pack(side="left") self.overlay_text = tk.StringVar(value="Your Text Here") text_entry = tk.Entry(text_input_frame, textvariable=self.overlay_text, width=30, font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") text_entry.pack(side="left", padx=5) # Modern text settings text_settings_frame = tk.Frame(text_overlay_frame, bg=self.colors['bg_tertiary']) text_settings_frame.pack(fill="x", pady=5) # Text size control size_label = tk.Label(text_settings_frame, text="Size:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) size_label.pack(side="left") self.text_size = tk.IntVar(value=50) size_spinbox = tk.Spinbox(text_settings_frame, from_=20, to=150, width=6, textvariable=self.text_size, font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") size_spinbox.pack(side="left", padx=5) # Text position control position_label = tk.Label(text_settings_frame, text="Position:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) position_label.pack(side="left", padx=(10, 0)) self.text_position = tk.StringVar(value="center,bottom") position_combo = ttk.Combobox(text_settings_frame, textvariable=self.text_position, width=15, values=["center,top", "center,center", "center,bottom", "left,top", "right,top", "left,bottom", "right,bottom"], state="readonly", font=self.fonts['caption']) position_combo.pack(side="left", padx=5) # Modern speed/quality options speed_frame = tk.Frame(text_overlay_frame, bg=self.colors['bg_tertiary']) speed_frame.pack(fill="x", pady=5) method_label = tk.Label(speed_frame, text="Processing Method:", font=self.fonts['subheading'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) method_label.pack(side="left") self.text_method = tk.StringVar(value="fast") method_frame = tk.Frame(speed_frame, bg=self.colors['bg_tertiary']) method_frame.pack(side="left", padx=10) fast_radio = tk.Radiobutton(method_frame, text="πŸš€ Fast (PIL)", variable=self.text_method, value="fast", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], selectcolor=self.colors['accent_blue']) fast_radio.pack(side="left") quality_radio = tk.Radiobutton(method_frame, text="🎬 High Quality (MoviePy)", variable=self.text_method, value="quality", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], selectcolor=self.colors['accent_blue']) quality_radio.pack(side="left", padx=(10, 0)) # Info label for method explanation method_info = tk.Label(speed_frame, text="Fast: 3-5x faster, basic text | Quality: Slower, advanced effects", font=('Segoe UI', 7), fg=self.colors['text_muted'], bg=self.colors['bg_tertiary']) method_info.pack(side="right") # Modern button frame button_frame = tk.Frame(text_overlay_frame, bg=self.colors['bg_tertiary']) button_frame.pack(fill="x", pady=5) text_btn = tk.Button(button_frame, text="πŸ“ Add Text Overlay", command=self.add_text_overlay, font=self.fonts['subheading'], bg=self.colors['accent_orange'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=15, pady=5) text_btn.pack(side="right", padx=10) self.add_hover_effect(text_btn) # Modern Video Effects Tab effects_advanced_frame = tk.Frame(notebook, bg=self.colors['bg_secondary']) notebook.add(effects_advanced_frame, text="🎨 Video Effects") # Modern Blur Effect blur_frame = tk.LabelFrame(effects_advanced_frame, text="🌫️ Blur Effect", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) blur_frame.pack(fill="x", padx=10, pady=5) blur_controls = tk.Frame(blur_frame, bg=self.colors['bg_tertiary']) blur_controls.pack(fill="x") blur_label = tk.Label(blur_controls, text="Strength:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) blur_label.pack(side="left") self.blur_strength = tk.DoubleVar(value=2.0) blur_scale = tk.Scale(blur_controls, from_=0.1, to=10.0, resolution=0.1, orient="horizontal", variable=self.blur_strength, length=150, bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], troughcolor=self.colors['bg_primary'], highlightthickness=0) blur_scale.pack(side="left", padx=5) blur_btn = tk.Button(blur_controls, text="🌫️ Apply Blur", command=self.apply_blur_effect, font=self.fonts['caption'], bg=self.colors['accent_orange'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) blur_btn.pack(side="right", padx=10) self.add_hover_effect(blur_btn) # Modern Color Effects color_frame = tk.LabelFrame(effects_advanced_frame, text="🎨 Color Effects", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) color_frame.pack(fill="x", padx=10, pady=5) color_controls = tk.Frame(color_frame, bg=self.colors['bg_tertiary']) color_controls.pack(fill="x") effect_label = tk.Label(color_controls, text="Effect:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) effect_label.pack(side="left") self.color_effect_var = tk.StringVar(value="sepia") color_combo = ttk.Combobox(color_controls, textvariable=self.color_effect_var, values=["sepia", "grayscale", "vintage", "cool"], width=12, state="readonly", font=self.fonts['caption']) color_combo.pack(side="left", padx=5) color_btn = tk.Button(color_controls, text="🎨 Apply Color Effect", command=self.apply_color_effect, font=self.fonts['caption'], bg=self.colors['accent_red'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) color_btn.pack(side="right", padx=10) self.add_hover_effect(color_btn) # Modern Zoom Effects zoom_frame = tk.LabelFrame(effects_advanced_frame, text="πŸ” Zoom Effects", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) zoom_frame.pack(fill="x", padx=10, pady=5) zoom_controls = tk.Frame(zoom_frame, bg=self.colors['bg_tertiary']) zoom_controls.pack(fill="x") # Zoom type control zoom_type_label = tk.Label(zoom_controls, text="Type:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) zoom_type_label.pack(side="left") self.zoom_effect_var = tk.StringVar(value="zoom_in") zoom_combo = ttk.Combobox(zoom_controls, textvariable=self.zoom_effect_var, values=["zoom_in", "zoom_out", "static"], width=10, state="readonly", font=self.fonts['caption']) zoom_combo.pack(side="left", padx=5) # Zoom factor control factor_label = tk.Label(zoom_controls, text="Factor:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) factor_label.pack(side="left", padx=(10, 0)) self.zoom_factor = tk.DoubleVar(value=1.5) zoom_scale = tk.Scale(zoom_controls, from_=1.0, to=3.0, resolution=0.1, orient="horizontal", variable=self.zoom_factor, length=100, bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], troughcolor=self.colors['bg_primary'], highlightthickness=0) zoom_scale.pack(side="left", padx=5) zoom_btn = tk.Button(zoom_controls, text="πŸ” Apply Zoom", command=self.apply_zoom_effect, font=self.fonts['caption'], bg=self.colors['accent_blue'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) zoom_btn.pack(side="right", padx=10) self.add_hover_effect(zoom_btn) # Modern Rotation Effects rotation_frame = tk.LabelFrame(effects_advanced_frame, text="πŸ”„ Rotation Effects", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) rotation_frame.pack(fill="x", padx=10, pady=5) rotation_controls = tk.Frame(rotation_frame, bg=self.colors['bg_tertiary']) rotation_controls.pack(fill="x") # Rotation type control rotation_type_label = tk.Label(rotation_controls, text="Type:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) rotation_type_label.pack(side="left") self.rotation_type_var = tk.StringVar(value="static") rotation_combo = ttk.Combobox(rotation_controls, textvariable=self.rotation_type_var, values=["static", "spinning"], width=10, state="readonly", font=self.fonts['caption']) rotation_combo.pack(side="left", padx=5) # Rotation angle control angle_label = tk.Label(rotation_controls, text="Angle:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) angle_label.pack(side="left", padx=(10, 0)) self.rotation_angle = tk.DoubleVar(value=0.0) rotation_scale = tk.Scale(rotation_controls, from_=-180, to=180, resolution=5, orient="horizontal", variable=self.rotation_angle, length=120, bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], troughcolor=self.colors['bg_primary'], highlightthickness=0) rotation_scale.pack(side="left", padx=5) rotation_btn = tk.Button(rotation_controls, text="πŸ”„ Apply Rotation", command=self.apply_rotation_effect, font=self.fonts['caption'], bg=self.colors['accent_red'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) rotation_btn.pack(side="right", padx=10) self.add_hover_effect(rotation_btn) # Modern Text & Graphics Tab text_frame = tk.Frame(notebook, bg=self.colors['bg_secondary']) notebook.add(text_frame, text="πŸ“ Text & Graphics") # Advanced Text Effects adv_text_frame = tk.LabelFrame(text_frame, text="✨ Animated Text Effects", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) adv_text_frame.pack(fill="x", padx=10, pady=5) # Text content text_content_frame = tk.Frame(adv_text_frame, bg=self.colors['bg_tertiary']) text_content_frame.pack(fill="x", pady=5) tk.Label(text_content_frame, text="Text:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left") self.animated_text = tk.StringVar(value="Your Text Here") text_entry = tk.Entry(text_content_frame, textvariable=self.animated_text, width=25, font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") text_entry.pack(side="left", padx=5) # Animation style anim_style_frame = tk.Frame(adv_text_frame, bg=self.colors['bg_tertiary']) anim_style_frame.pack(fill="x", pady=3) tk.Label(anim_style_frame, text="Animation:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left") self.text_animation = tk.StringVar(value="fade_in") anim_combo = ttk.Combobox(anim_style_frame, textvariable=self.text_animation, values=["fade_in", "slide_left", "slide_right", "slide_up", "slide_down", "zoom_in", "zoom_out", "bounce", "typewriter", "glow", "shake"], width=15, state="readonly", font=self.fonts['caption']) anim_combo.pack(side="left", padx=5) # Text position and style text_pos_frame = tk.Frame(adv_text_frame, bg=self.colors['bg_tertiary']) text_pos_frame.pack(fill="x", pady=3) tk.Label(text_pos_frame, text="Position:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left") self.text_position = tk.StringVar(value="center") pos_combo = ttk.Combobox(text_pos_frame, textvariable=self.text_position, values=["top", "center", "bottom", "top-left", "top-right", "bottom-left", "bottom-right"], width=12, state="readonly", font=self.fonts['caption']) pos_combo.pack(side="left", padx=5) tk.Label(text_pos_frame, text="Font:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left", padx=(10,0)) self.text_font = tk.StringVar(value="Arial-Bold") font_combo = ttk.Combobox(text_pos_frame, textvariable=self.text_font, values=["Arial-Bold", "Impact", "Comic-Sans-MS", "Times-New-Roman", "Helvetica"], width=12, state="readonly", font=self.fonts['caption']) font_combo.pack(side="left", padx=5) # Text colors and size text_style_frame = tk.Frame(adv_text_frame, bg=self.colors['bg_tertiary']) text_style_frame.pack(fill="x", pady=3) tk.Label(text_style_frame, text="Color:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left") self.text_color = tk.StringVar(value="white") color_combo = ttk.Combobox(text_style_frame, textvariable=self.text_color, values=["white", "black", "red", "blue", "green", "yellow", "purple", "orange"], width=8, state="readonly", font=self.fonts['caption']) color_combo.pack(side="left", padx=5) tk.Label(text_style_frame, text="Size:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left", padx=(10,0)) self.text_size = tk.IntVar(value=50) size_spinbox = tk.Spinbox(text_style_frame, from_=20, to=200, increment=5, width=6, textvariable=self.text_size, font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") size_spinbox.pack(side="left", padx=5) # Animated text button anim_text_btn = tk.Button(text_style_frame, text="✨ Add Animated Text", command=self.add_animated_text_effect, font=self.fonts['caption'], bg=self.colors['accent_purple'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) anim_text_btn.pack(side="right", padx=10) self.add_hover_effect(anim_text_btn) # Timeline Controls for Text text_time_frame = tk.Frame(adv_text_frame, bg=self.colors['bg_tertiary']) text_time_frame.pack(fill="x", pady=3) tk.Label(text_time_frame, text="Start Time:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left") self.text_start_time = tk.DoubleVar(value=0.0) start_time_spinbox = tk.Spinbox(text_time_frame, from_=0, to=120, increment=0.1, width=8, textvariable=self.text_start_time, format="%.1f", font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") start_time_spinbox.pack(side="left", padx=5) tk.Label(text_time_frame, text="Duration:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left", padx=(10,0)) self.text_duration = tk.DoubleVar(value=2.0) duration_spinbox = tk.Spinbox(text_time_frame, from_=0.1, to=10, increment=0.1, width=8, textvariable=self.text_duration, format="%.1f", font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") duration_spinbox.pack(side="left", padx=5) # Use Current Time Button current_time_btn = tk.Button(text_time_frame, text="πŸ“ Use Current Time", command=self.use_current_time_for_text, font=self.fonts['caption'], bg=self.colors['accent_blue'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=8, pady=2) current_time_btn.pack(side="right", padx=5) self.add_hover_effect(current_time_btn) # Sticker/Emoji Effects sticker_frame = tk.LabelFrame(text_frame, text="😊 Stickers & Emojis", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) sticker_frame.pack(fill="x", padx=10, pady=5) sticker_controls = tk.Frame(sticker_frame, bg=self.colors['bg_tertiary']) sticker_controls.pack(fill="x", pady=5) tk.Label(sticker_controls, text="Sticker:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left") self.sticker_type = tk.StringVar(value="πŸ˜‚") sticker_combo = ttk.Combobox(sticker_controls, textvariable=self.sticker_type, values=["πŸ˜‚", "😍", "πŸ”₯", "πŸ’―", "πŸš€", "⭐", "πŸ‘", "πŸ’₯", "πŸŽ‰", "πŸ€”", "😱", "πŸ’ͺ"], width=8, state="readonly", font=self.fonts['caption']) sticker_combo.pack(side="left", padx=5) tk.Label(sticker_controls, text="Position:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left", padx=(10,0)) self.sticker_position = tk.StringVar(value="top-right") sticker_pos_combo = ttk.Combobox(sticker_controls, textvariable=self.sticker_position, values=["top-left", "top-right", "bottom-left", "bottom-right", "center"], width=10, state="readonly", font=self.fonts['caption']) sticker_pos_combo.pack(side="left", padx=5) sticker_btn = tk.Button(sticker_controls, text="😊 Add Sticker", command=self.add_sticker_effect, font=self.fonts['caption'], bg=self.colors['accent_orange'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) sticker_btn.pack(side="right", padx=10) self.add_hover_effect(sticker_btn) # Timeline Controls for Stickers sticker_time_frame = tk.Frame(sticker_frame, bg=self.colors['bg_tertiary']) sticker_time_frame.pack(fill="x", pady=3) tk.Label(sticker_time_frame, text="Start Time:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left") self.sticker_start_time = tk.DoubleVar(value=0.0) sticker_start_spinbox = tk.Spinbox(sticker_time_frame, from_=0, to=120, increment=0.1, width=8, textvariable=self.sticker_start_time, format="%.1f", font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") sticker_start_spinbox.pack(side="left", padx=5) tk.Label(sticker_time_frame, text="Duration:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left", padx=(10,0)) self.sticker_duration = tk.DoubleVar(value=1.0) sticker_duration_spinbox = tk.Spinbox(sticker_time_frame, from_=0.1, to=10, increment=0.1, width=8, textvariable=self.sticker_duration, format="%.1f", font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") sticker_duration_spinbox.pack(side="left", padx=5) # Use Current Time Button for stickers sticker_current_time_btn = tk.Button(sticker_time_frame, text="πŸ“ Use Current Time", command=self.use_current_time_for_sticker, font=self.fonts['caption'], bg=self.colors['accent_blue'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=8, pady=2) sticker_current_time_btn.pack(side="right", padx=5) self.add_hover_effect(sticker_current_time_btn) # Modern Color Grading Tab color_frame = tk.Frame(notebook, bg=self.colors['bg_secondary']) notebook.add(color_frame, text="🎨 Color Grading") # Color Presets preset_frame = tk.LabelFrame(color_frame, text="🎨 Color Presets", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) preset_frame.pack(fill="x", padx=10, pady=5) preset_controls = tk.Frame(preset_frame, bg=self.colors['bg_tertiary']) preset_controls.pack(fill="x", pady=5) tk.Label(preset_controls, text="Preset:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left") self.color_preset = tk.StringVar(value="cinematic") preset_combo = ttk.Combobox(preset_controls, textvariable=self.color_preset, values=["cinematic", "warm", "cool", "vintage", "dramatic", "bright", "moody", "sunset", "winter", "summer", "cyberpunk", "retro"], width=12, state="readonly", font=self.fonts['caption']) preset_combo.pack(side="left", padx=5) preset_btn = tk.Button(preset_controls, text="🎨 Apply Preset", command=self.apply_color_preset, font=self.fonts['caption'], bg=self.colors['accent_purple'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) preset_btn.pack(side="right", padx=10) self.add_hover_effect(preset_btn) # Advanced Color Controls advanced_color_frame = tk.LabelFrame(color_frame, text="βš™οΈ Advanced Color Controls", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) advanced_color_frame.pack(fill="x", padx=10, pady=5) # Brightness and Contrast brightness_frame = tk.Frame(advanced_color_frame, bg=self.colors['bg_tertiary']) brightness_frame.pack(fill="x", pady=3) tk.Label(brightness_frame, text="Brightness:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left") self.brightness = tk.DoubleVar(value=1.0) brightness_scale = tk.Scale(brightness_frame, from_=0.3, to=2.0, resolution=0.1, orient="horizontal", variable=self.brightness, length=120, bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], troughcolor=self.colors['bg_primary'], highlightthickness=0) brightness_scale.pack(side="left", padx=5) tk.Label(brightness_frame, text="Contrast:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left", padx=(10,0)) self.contrast = tk.DoubleVar(value=1.0) contrast_scale = tk.Scale(brightness_frame, from_=0.3, to=2.0, resolution=0.1, orient="horizontal", variable=self.contrast, length=120, bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], troughcolor=self.colors['bg_primary'], highlightthickness=0) contrast_scale.pack(side="left", padx=5) # Saturation and Hue sat_hue_frame = tk.Frame(advanced_color_frame, bg=self.colors['bg_tertiary']) sat_hue_frame.pack(fill="x", pady=3) tk.Label(sat_hue_frame, text="Saturation:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left") self.saturation = tk.DoubleVar(value=1.0) sat_scale = tk.Scale(sat_hue_frame, from_=0.0, to=2.0, resolution=0.1, orient="horizontal", variable=self.saturation, length=120, bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], troughcolor=self.colors['bg_primary'], highlightthickness=0) sat_scale.pack(side="left", padx=5) tk.Label(sat_hue_frame, text="Hue Shift:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left", padx=(10,0)) self.hue_shift = tk.DoubleVar(value=0.0) hue_scale = tk.Scale(sat_hue_frame, from_=-180, to=180, resolution=5, orient="horizontal", variable=self.hue_shift, length=120, bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], troughcolor=self.colors['bg_primary'], highlightthickness=0) hue_scale.pack(side="left", padx=5) color_btn = tk.Button(advanced_color_frame, text="🎨 Apply Color Grading", command=self.apply_advanced_color_grading, font=self.fonts['caption'], bg=self.colors['accent_blue'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) color_btn.pack(pady=5) self.add_hover_effect(color_btn) # Modern Platform & Audio Tab platform_frame = tk.Frame(notebook, bg=self.colors['bg_secondary']) notebook.add(platform_frame, text="πŸ“± Platform & Audio") # Platform-Specific Crops crop_frame = tk.LabelFrame(platform_frame, text="πŸ“± Platform Optimization", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) crop_frame.pack(fill="x", padx=10, pady=5) crop_controls = tk.Frame(crop_frame, bg=self.colors['bg_tertiary']) crop_controls.pack(fill="x", pady=5) tk.Label(crop_controls, text="Platform:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left") self.platform_preset = tk.StringVar(value="tiktok") platform_combo = ttk.Combobox(crop_controls, textvariable=self.platform_preset, values=["tiktok", "instagram_story", "instagram_reel", "youtube_shorts", "snapchat", "twitter", "facebook_story", "linkedin"], width=15, state="readonly", font=self.fonts['caption']) platform_combo.pack(side="left", padx=5) crop_btn = tk.Button(crop_controls, text="πŸ“± Optimize for Platform", command=self.apply_platform_crop, font=self.fonts['caption'], bg=self.colors['accent_green'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) crop_btn.pack(side="right", padx=10) self.add_hover_effect(crop_btn) # Audio Visualization audio_viz_frame = tk.LabelFrame(platform_frame, text="🎡 Audio Visualization", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) audio_viz_frame.pack(fill="x", padx=10, pady=5) audio_controls = tk.Frame(audio_viz_frame, bg=self.colors['bg_tertiary']) audio_controls.pack(fill="x", pady=5) tk.Label(audio_controls, text="Style:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left") self.audio_viz_style = tk.StringVar(value="bars") viz_combo = ttk.Combobox(audio_controls, textvariable=self.audio_viz_style, values=["bars", "waveform", "spectrum", "circular", "pulse", "line"], width=10, state="readonly", font=self.fonts['caption']) viz_combo.pack(side="left", padx=5) tk.Label(audio_controls, text="Position:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left", padx=(10,0)) self.audio_viz_position = tk.StringVar(value="bottom") viz_pos_combo = ttk.Combobox(audio_controls, textvariable=self.audio_viz_position, values=["bottom", "top", "left", "right", "center", "overlay"], width=8, state="readonly", font=self.fonts['caption']) viz_pos_combo.pack(side="left", padx=5) audio_viz_btn = tk.Button(audio_controls, text="🎡 Add Audio Visualization", command=self.add_audio_visualization, font=self.fonts['caption'], bg=self.colors['accent_orange'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) audio_viz_btn.pack(side="right", padx=10) self.add_hover_effect(audio_viz_btn) # Auto-Captions caption_frame = tk.LabelFrame(platform_frame, text="πŸ’¬ Auto-Generated Captions", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) caption_frame.pack(fill="x", padx=10, pady=5) caption_controls = tk.Frame(caption_frame, bg=self.colors['bg_tertiary']) caption_controls.pack(fill="x", pady=5) tk.Label(caption_controls, text="Language:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left") self.caption_language = tk.StringVar(value="en") lang_combo = ttk.Combobox(caption_controls, textvariable=self.caption_language, values=["en", "es", "fr", "de", "it", "pt", "ru", "ja", "ko", "zh"], width=8, state="readonly", font=self.fonts['caption']) lang_combo.pack(side="left", padx=5) tk.Label(caption_controls, text="Style:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left", padx=(10,0)) self.caption_style = tk.StringVar(value="modern") caption_style_combo = ttk.Combobox(caption_controls, textvariable=self.caption_style, values=["modern", "classic", "bold", "minimal", "neon", "retro"], width=10, state="readonly", font=self.fonts['caption']) caption_style_combo.pack(side="left", padx=5) caption_btn = tk.Button(caption_controls, text="πŸ’¬ Generate Captions", command=self.generate_auto_captions, font=self.fonts['caption'], bg=self.colors['accent_blue'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) caption_btn.pack(side="right", padx=10) self.add_hover_effect(caption_btn) # Modern Advanced Effects Tab advanced_frame = tk.Frame(notebook, bg=self.colors['bg_secondary']) notebook.add(advanced_frame, text="⚑ Advanced Effects") # Particle Effects particle_frame = tk.LabelFrame(advanced_frame, text="✨ Particle Effects", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) particle_frame.pack(fill="x", padx=10, pady=5) particle_controls = tk.Frame(particle_frame, bg=self.colors['bg_tertiary']) particle_controls.pack(fill="x", pady=5) tk.Label(particle_controls, text="Effect:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left") self.particle_effect = tk.StringVar(value="snow") particle_combo = ttk.Combobox(particle_controls, textvariable=self.particle_effect, values=["snow", "rain", "stars", "sparks", "confetti", "bubbles", "fireflies"], width=10, state="readonly", font=self.fonts['caption']) particle_combo.pack(side="left", padx=5) tk.Label(particle_controls, text="Intensity:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left", padx=(10,0)) self.particle_intensity = tk.DoubleVar(value=0.5) intensity_scale = tk.Scale(particle_controls, from_=0.1, to=1.0, resolution=0.1, orient="horizontal", variable=self.particle_intensity, length=100, bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], troughcolor=self.colors['bg_primary'], highlightthickness=0) intensity_scale.pack(side="left", padx=5) particle_btn = tk.Button(particle_controls, text="✨ Add Particles", command=self.add_particle_effect, font=self.fonts['caption'], bg=self.colors['accent_purple'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) particle_btn.pack(side="right", padx=10) self.add_hover_effect(particle_btn) # Transition Effects transition_frame = tk.LabelFrame(advanced_frame, text="πŸ”„ Transition Effects", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) transition_frame.pack(fill="x", padx=10, pady=5) transition_controls = tk.Frame(transition_frame, bg=self.colors['bg_tertiary']) transition_controls.pack(fill="x", pady=5) tk.Label(transition_controls, text="Type:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left") self.transition_type = tk.StringVar(value="crossfade") transition_combo = ttk.Combobox(transition_controls, textvariable=self.transition_type, values=["crossfade", "slide", "wipe", "circle", "diamond", "blinds", "pixelate"], width=10, state="readonly", font=self.fonts['caption']) transition_combo.pack(side="left", padx=5) tk.Label(transition_controls, text="Duration:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']).pack(side="left", padx=(10,0)) self.transition_duration = tk.DoubleVar(value=1.0) duration_spinbox = tk.Spinbox(transition_controls, from_=0.1, to=3.0, increment=0.1, width=6, textvariable=self.transition_duration, format="%.1f", font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") duration_spinbox.pack(side="left", padx=5) transition_btn = tk.Button(transition_controls, text="πŸ”„ Apply Transition", command=self.apply_transition_effect, font=self.fonts['caption'], bg=self.colors['accent_red'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) transition_btn.pack(side="right", padx=10) self.add_hover_effect(transition_btn) # Professional Timeline Editor Tab timeline_frame = tk.Frame(notebook, bg=self.colors['bg_secondary']) notebook.add(timeline_frame, text="🎬 Professional Timeline") # Initialize timeline editor self.timeline_editor = TimelineEditor() # Timeline main container timeline_main_frame = tk.Frame(timeline_frame, bg=self.colors['bg_secondary']) timeline_main_frame.pack(fill="both", expand=True, padx=5, pady=5) # Top controls panel timeline_controls_panel = tk.LabelFrame(timeline_main_frame, text="πŸŽ›οΈ Timeline Controls", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) timeline_controls_panel.pack(fill="x", pady=(0, 5)) # Playback controls playback_frame = tk.Frame(timeline_controls_panel, bg=self.colors['bg_tertiary']) playback_frame.pack(fill="x", pady=3) play_btn = tk.Button(playback_frame, text="▢️ Play", command=self.timeline_play, font=self.fonts['caption'], bg=self.colors['accent_green'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) play_btn.pack(side="left", padx=2) self.add_hover_effect(play_btn) pause_btn = tk.Button(playback_frame, text="⏸️ Pause", command=self.timeline_pause, font=self.fonts['caption'], bg=self.colors['accent_orange'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) pause_btn.pack(side="left", padx=2) self.add_hover_effect(pause_btn) stop_btn = tk.Button(playback_frame, text="⏹️ Stop", command=self.timeline_stop, font=self.fonts['caption'], bg=self.colors['accent_red'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) stop_btn.pack(side="left", padx=2) self.add_hover_effect(stop_btn) # Timeline position display self.timeline_position_var = tk.StringVar(value="00:00:00") position_label = tk.Label(playback_frame, textvariable=self.timeline_position_var, font=self.fonts['mono'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) position_label.pack(side="left", padx=20) # Timeline zoom controls zoom_frame = tk.Frame(playback_frame, bg=self.colors['bg_tertiary']) zoom_frame.pack(side="right") zoom_out_btn = tk.Button(zoom_frame, text="πŸ”βž–", command=self.timeline_zoom_out, font=self.fonts['caption'], bg=self.colors['accent_purple'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=8, pady=3) zoom_out_btn.pack(side="left", padx=1) self.add_hover_effect(zoom_out_btn) zoom_in_btn = tk.Button(zoom_frame, text="πŸ”βž•", command=self.timeline_zoom_in, font=self.fonts['caption'], bg=self.colors['accent_purple'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=8, pady=3) zoom_in_btn.pack(side="left", padx=1) self.add_hover_effect(zoom_in_btn) # Editing tools tools_frame = tk.Frame(timeline_controls_panel, bg=self.colors['bg_tertiary']) tools_frame.pack(fill="x", pady=3) cut_btn = tk.Button(tools_frame, text="βœ‚οΈ Cut", command=self.timeline_cut, font=self.fonts['caption'], bg=self.colors['accent_blue'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) cut_btn.pack(side="left", padx=2) self.add_hover_effect(cut_btn) copy_btn = tk.Button(tools_frame, text="πŸ“‹ Copy", command=self.timeline_copy, font=self.fonts['caption'], bg=self.colors['accent_blue'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) copy_btn.pack(side="left", padx=2) self.add_hover_effect(copy_btn) paste_btn = tk.Button(tools_frame, text="πŸ“Œ Paste", command=self.timeline_paste, font=self.fonts['caption'], bg=self.colors['accent_blue'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) paste_btn.pack(side="left", padx=2) self.add_hover_effect(paste_btn) delete_btn = tk.Button(tools_frame, text="πŸ—‘οΈ Delete", command=self.timeline_delete, font=self.fonts['caption'], bg=self.colors['accent_red'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) delete_btn.pack(side="left", padx=2) self.add_hover_effect(delete_btn) # Undo/Redo undo_redo_frame = tk.Frame(tools_frame, bg=self.colors['bg_tertiary']) undo_redo_frame.pack(side="right") undo_btn = tk.Button(undo_redo_frame, text="β†Ά Undo", command=self.timeline_undo, font=self.fonts['caption'], bg=self.colors['accent_orange'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) undo_btn.pack(side="left", padx=2) self.add_hover_effect(undo_btn) redo_btn = tk.Button(undo_redo_frame, text="β†· Redo", command=self.timeline_redo, font=self.fonts['caption'], bg=self.colors['accent_orange'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) redo_btn.pack(side="left", padx=2) self.add_hover_effect(redo_btn) # Timeline workspace timeline_workspace = tk.LabelFrame(timeline_main_frame, text="οΏ½ Timeline Workspace", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=5, pady=5) timeline_workspace.pack(fill="both", expand=True) # Timeline canvas with scrollbars timeline_canvas_frame = tk.Frame(timeline_workspace, bg=self.colors['bg_tertiary']) timeline_canvas_frame.pack(fill="both", expand=True) # Horizontal scrollbar timeline_h_scroll = ttk.Scrollbar(timeline_canvas_frame, orient="horizontal") timeline_h_scroll.pack(side="bottom", fill="x") # Vertical scrollbar timeline_v_scroll = ttk.Scrollbar(timeline_canvas_frame, orient="vertical") timeline_v_scroll.pack(side="right", fill="y") # Main timeline canvas self.timeline_canvas = tk.Canvas(timeline_canvas_frame, bg=self.colors['bg_primary'], highlightthickness=0, xscrollcommand=timeline_h_scroll.set, yscrollcommand=timeline_v_scroll.set) self.timeline_canvas.pack(side="left", fill="both", expand=True) # Configure scrollbars timeline_h_scroll.config(command=self.timeline_canvas.xview) timeline_v_scroll.config(command=self.timeline_canvas.yview) # Timeline tracks panel tracks_panel = tk.LabelFrame(timeline_main_frame, text="πŸŽ›οΈ Track Controls", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) tracks_panel.pack(fill="x", pady=(5, 0)) tracks_control_frame = tk.Frame(tracks_panel, bg=self.colors['bg_tertiary']) tracks_control_frame.pack(fill="x", pady=3) # Track management buttons add_video_track_btn = tk.Button(tracks_control_frame, text="πŸ“Ή Add Video Track", command=self.add_video_track, font=self.fonts['caption'], bg=self.colors['accent_green'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) add_video_track_btn.pack(side="left", padx=2) self.add_hover_effect(add_video_track_btn) add_audio_track_btn = tk.Button(tracks_control_frame, text="🎡 Add Audio Track", command=self.add_audio_track, font=self.fonts['caption'], bg=self.colors['accent_blue'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) add_audio_track_btn.pack(side="left", padx=2) self.add_hover_effect(add_audio_track_btn) add_text_track_btn = tk.Button(tracks_control_frame, text="πŸ“ Add Text Track", command=self.add_text_track, font=self.fonts['caption'], bg=self.colors['accent_purple'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) add_text_track_btn.pack(side="left", padx=2) self.add_hover_effect(add_text_track_btn) # Media browser media_browser_btn = tk.Button(tracks_control_frame, text="πŸ“ Media Browser", command=self.open_media_browser, font=self.fonts['caption'], bg=self.colors['accent_orange'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=10, pady=3) media_browser_btn.pack(side="right", padx=2) self.add_hover_effect(media_browser_btn) # Timeline export controls export_timeline_btn = tk.Button(tracks_control_frame, text="πŸ’Ύ Export Timeline", command=self.export_timeline_video, font=self.fonts['caption'], bg=self.colors['accent_red'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=15, pady=3) export_timeline_btn.pack(side="right", padx=5) self.add_hover_effect(export_timeline_btn) # Initialize timeline self.init_timeline_canvas() self.timeline_selected_clips = [] self.timeline_playhead_pos = 0 self.timeline_scale = 50 # Pixels per second self.timeline_tracks_height = 60 # Height per track # Bind timeline events self.timeline_canvas.bind("", self.timeline_click) self.timeline_canvas.bind("", self.timeline_drag) self.timeline_canvas.bind("", self.timeline_release) self.timeline_canvas.bind("", self.timeline_double_click) self.timeline_canvas.bind("", self.timeline_right_click) # Modern Export Tab export_frame = tk.Frame(notebook, bg=self.colors['bg_secondary']) notebook.add(export_frame, text="πŸ’Ύ Export") export_controls_frame = tk.LabelFrame(export_frame, text="πŸ’Ύ Export Final Video", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], bd=1, relief="flat", padx=10, pady=5) export_controls_frame.pack(fill="x", padx=10, pady=5) # Modern output filename filename_frame = tk.Frame(export_controls_frame, bg=self.colors['bg_tertiary']) filename_frame.pack(fill="x", pady=5) filename_label = tk.Label(filename_frame, text="Filename:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) filename_label.pack(side="left") self.output_filename = tk.StringVar(value="edited_video.mp4") filename_entry = tk.Entry(filename_frame, textvariable=self.output_filename, width=25, font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_primary'], bd=0, relief="flat") filename_entry.pack(side="left", padx=5) # Modern quality settings quality_frame = tk.Frame(export_controls_frame, bg=self.colors['bg_tertiary']) quality_frame.pack(fill="x", pady=5) quality_label = tk.Label(quality_frame, text="Quality:", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) quality_label.pack(side="left") self.export_quality = tk.StringVar(value="medium") quality_combo = ttk.Combobox(quality_frame, textvariable=self.export_quality, values=["low", "medium", "high"], width=10, state="readonly", font=self.fonts['caption']) quality_combo.pack(side="left", padx=5) # Modern export button frame export_button_frame = tk.Frame(export_controls_frame, bg=self.colors['bg_tertiary']) export_button_frame.pack(fill="x", pady=10) self.export_button = tk.Button(export_button_frame, text="πŸ’Ύ Export Final Video", command=self.export_edited_video, bg=self.colors['accent_green'], fg=self.colors['text_primary'], font=self.fonts['subheading'], bd=0, relief="flat", padx=15, pady=8) self.export_button.pack(pady=5) self.add_hover_effect(self.export_button) # Progress bar (initially hidden) self.progress_var = tk.DoubleVar() self.progress_bar = ttk.Progressbar(export_button_frame, variable=self.progress_var, maximum=100) self.progress_label = tk.Label(export_button_frame, text="", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) # Reset button reset_btn = tk.Button(export_button_frame, text="πŸ”„ Reset All Changes", command=self.reset_edited_video, bg=self.colors['accent_red'], fg=self.colors['text_primary'], font=self.fonts['caption'], bd=0, relief="flat", padx=15, pady=5) reset_btn.pack(pady=5) self.add_hover_effect(reset_btn) # Initially disable all tools self.disable_editing_tools() def disable_editing_tools(self): """Disable all editing tools until a video is selected""" # Only disable functionality, keep visual appearance normal for widget in self.tools_frame.winfo_children(): self.set_widget_disabled_state(widget, True) def enable_editing_tools(self): """Enable editing tools when a video is selected""" for widget in self.tools_frame.winfo_children(): self.set_widget_disabled_state(widget, False) # Initialize video editor for current video try: self.video_editor = VideoEditor(self.current_video) print(f"βœ… Video editor initialized for: {os.path.basename(self.current_video)}") except Exception as e: print(f"❌ Error initializing video editor: {e}") self.video_editor = None # Update trim end time to video duration if self.video_info: self.trim_end.set(min(self.video_info['duration'], 30.0)) def set_widget_disabled_state(self, widget, disabled): """Set widget disabled state while preserving appearance""" try: widget_class = widget.winfo_class() if widget_class == 'Button': if disabled: # Store original command and disable it, but keep colors if not hasattr(widget, '_original_command'): widget._original_command = widget.cget('command') # Disable the command but keep the visual appearance widget.config(command=lambda: messagebox.showwarning("Select Video", "Please select a video first!")) else: # Restore original command if hasattr(widget, '_original_command'): widget.config(command=widget._original_command) elif widget_class in ['Spinbox', 'Entry', 'Scale']: widget.config(state='disabled' if disabled else 'normal') elif widget_class == 'TCombobox': widget.config(state='disabled' if disabled else 'readonly') except: pass # Recursively handle child widgets for child in widget.winfo_children(): self.set_widget_disabled_state(child, disabled) def apply_blur_effect(self): """Apply blur effect to video""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showerror("Error", "Please select a video first!") return strength = self.blur_strength.get() print(f"🌫️ Applying blur effect (strength: {strength})") try: self.video_editor.add_blur_effect(strength) self.refresh_video_preview() messagebox.showinfo("Success", f"Blur effect applied with strength {strength}") except Exception as e: print(f"❌ Error applying blur effect: {e}") messagebox.showerror("Blur Error", f"Failed to apply blur effect:\n{str(e)}") def apply_color_effect(self): """Apply color effect to video""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showerror("Error", "Please select a video first!") return effect_type = self.color_effect_var.get() print(f"🎨 Applying color effect: {effect_type}") try: self.video_editor.add_color_effect(effect_type) self.refresh_video_preview() messagebox.showinfo("Success", f"Color effect '{effect_type}' applied successfully") except Exception as e: print(f"❌ Error applying color effect: {e}") messagebox.showerror("Color Effect Error", f"Failed to apply color effect:\n{str(e)}") def apply_zoom_effect(self): """Apply zoom effect to video""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showerror("Error", "Please select a video first!") return zoom_type = self.zoom_effect_var.get() zoom_factor = self.zoom_factor.get() print(f"πŸ” Applying zoom effect: {zoom_type} (factor: {zoom_factor})") try: self.video_editor.add_zoom_effect(zoom_factor, zoom_type) self.refresh_video_preview() messagebox.showinfo("Success", f"Zoom effect '{zoom_type}' applied successfully") except Exception as e: print(f"❌ Error applying zoom effect: {e}") messagebox.showerror("Zoom Effect Error", f"Failed to apply zoom effect:\n{str(e)}") def apply_rotation_effect(self): """Apply rotation effect to video""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showerror("Error", "Please select a video first!") return rotation_type = self.rotation_type_var.get() angle = self.rotation_angle.get() print(f"πŸ”„ Applying rotation effect: {rotation_type} (angle: {angle}Β°)") try: self.video_editor.add_rotation_effect(angle, rotation_type) self.refresh_video_preview() messagebox.showinfo("Success", f"Rotation effect '{rotation_type}' applied successfully") except Exception as e: print(f"❌ Error applying rotation effect: {e}") messagebox.showerror("Rotation Effect Error", f"Failed to apply rotation effect:\n{str(e)}") def refresh_video_preview(self): """Refresh the video preview after applying effects""" if hasattr(self, 'current_time') and hasattr(self, 'video_editor') and self.video_editor: try: # Update the current clip reference to include effects if self.video_editor.video_clip: self.current_clip = self.video_editor.video_clip # Update video duration in case it changed (speed/trim effects) old_duration = self.video_duration self.video_duration = self.current_clip.duration # Update timeline if duration changed if abs(old_duration - self.video_duration) > 0.1: self.timeline_slider.config(to=self.video_duration) # Adjust current time if it's beyond new duration if self.current_time > self.video_duration: self.current_time = max(0, self.video_duration - 0.1) self.timeline_var.set(self.current_time) print(f"πŸ“ Updated timeline duration: {old_duration:.1f}s β†’ {self.video_duration:.1f}s") self.display_frame_at_time(self.current_time) self.update_time_display() print("πŸ”„ Video preview refreshed with effects") except Exception as e: print(f"⚠️ Error refreshing preview: {e}") def use_current_time_for_text(self): """Set text start time to current timeline position""" if hasattr(self, 'current_time'): self.text_start_time.set(self.current_time) print(f"πŸ“ Text start time set to {self.current_time:.1f}s") def use_current_time_for_sticker(self): """Set sticker start time to current timeline position""" if hasattr(self, 'current_time'): self.sticker_start_time.set(self.current_time) print(f"πŸ“ Sticker start time set to {self.current_time:.1f}s") def add_animated_text_effect(self): """Add animated text effect to video at specific time and position""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showerror("Error", "Please select a video first!") return text = self.animated_text.get() animation = self.text_animation.get() position = self.text_position.get() font = self.text_font.get() color = self.text_color.get() size = self.text_size.get() start_time = self.text_start_time.get() duration = self.text_duration.get() if not text.strip(): messagebox.showwarning("Warning", "Please enter text to display") return # Validate timing if hasattr(self, 'video_duration') and start_time >= self.video_duration: messagebox.showwarning("Warning", f"Start time ({start_time:.1f}s) is beyond video duration ({self.video_duration:.1f}s)") return print(f"✨ Adding animated text: '{text}' at {start_time:.1f}s for {duration:.1f}s") try: # Convert position to coordinate tuple position_map = { 'top': ('center', 0.1), 'center': ('center', 'center'), 'bottom': ('center', 0.85), 'top-left': (0.1, 0.1), 'top-right': (0.9, 0.1), 'bottom-left': (0.1, 0.85), 'bottom-right': (0.9, 0.85) } pos_coords = position_map.get(position, ('center', 0.85)) # Add timeline effect effect = self.video_editor.add_timeline_effect( effect_type='text', start_time=start_time, duration=duration, position=pos_coords, text=text, animation=animation, font=font, color=color, font_size=size ) # Refresh preview to show effect self.refresh_video_preview() messagebox.showinfo("Effect Added!", f"Animated text '{text}' added at {start_time:.1f}s\n" f"Duration: {duration:.1f}s, Animation: {animation}") except Exception as e: print(f"❌ Error adding animated text: {e}") messagebox.showerror("Animated Text Error", f"Failed to add animated text:\n{str(e)}") def add_sticker_effect(self): """Add sticker/emoji effect to video at specific time and position""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showerror("Error", "Please select a video first!") return sticker = self.sticker_type.get() position = self.sticker_position.get() start_time = self.sticker_start_time.get() duration = self.sticker_duration.get() # Validate timing if hasattr(self, 'video_duration') and start_time >= self.video_duration: messagebox.showwarning("Warning", f"Start time ({start_time:.1f}s) is beyond video duration ({self.video_duration:.1f}s)") return print(f"😊 Adding sticker: {sticker} at {position} ({start_time:.1f}s for {duration:.1f}s)") try: # Convert position to coordinate tuple position_map = { 'top-left': (0.1, 0.1), 'top-right': (0.9, 0.1), 'bottom-left': (0.1, 0.9), 'bottom-right': (0.9, 0.9), 'center': ('center', 'center') } pos_coords = position_map.get(position, (0.9, 0.1)) # Add timeline effect effect = self.video_editor.add_timeline_effect( effect_type='sticker', start_time=start_time, duration=duration, position=pos_coords, sticker=sticker, size=80 ) # Refresh preview to show effect self.refresh_video_preview() messagebox.showinfo("Effect Added!", f"Sticker '{sticker}' added at {start_time:.1f}s\n" f"Duration: {duration:.1f}s, Position: {position}") except Exception as e: print(f"❌ Error adding sticker: {e}") messagebox.showerror("Sticker Error", f"Failed to add sticker:\n{str(e)}") def apply_color_preset(self): """Apply color grading preset to video at specific time range""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showerror("Error", "Please select a video first!") return preset = self.color_preset.get() # For color effects, apply to current time or entire video start_time = getattr(self, 'current_time', 0.0) duration = 2.0 # Default 2 second effect print(f"🎨 Applying color preset: {preset} at {start_time:.1f}s") try: # Add timeline effect effect = self.video_editor.add_timeline_effect( effect_type='color_preset', start_time=start_time, duration=duration, preset=preset ) # Refresh preview to show effect self.refresh_video_preview() messagebox.showinfo("Effect Applied!", f"Color preset '{preset}' applied at {start_time:.1f}s for {duration:.1f}s") except Exception as e: print(f"❌ Error applying color preset: {e}") messagebox.showerror("Color Preset Error", f"Failed to apply color preset:\n{str(e)}") def refresh_effects_timeline(self): """Refresh the effects timeline display""" self.update_effects_timeline_display() def clear_all_timeline_effects(self): """Clear all timeline effects""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showwarning("Warning", "No video loaded") return if not self.video_editor.timeline_effects: messagebox.showinfo("Info", "No effects to clear") return result = messagebox.askyesno("Confirm Clear", f"Are you sure you want to remove all {len(self.video_editor.timeline_effects)} effects?") if result: self.video_editor.clear_timeline_effects() self.update_effects_timeline_display() self.refresh_video_preview() messagebox.showinfo("Success", "All effects cleared!") def preview_all_effects(self): """Preview the video with all timeline effects applied""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showwarning("Warning", "No video loaded") return if not self.video_editor.timeline_effects: messagebox.showinfo("Info", "No effects to preview") return try: # Apply all timeline effects and update preview processed_clip = self.video_editor.apply_timeline_effects() # Update the current clip for preview self.current_clip = processed_clip # Refresh preview at current time self.display_frame_at_time(self.current_time) messagebox.showinfo("Preview Ready", f"Preview updated with {len(self.video_editor.timeline_effects)} effects!\n" f"Use the timeline to scrub through the video.") except Exception as e: print(f"❌ Error previewing effects: {e}") messagebox.showerror("Preview Error", f"Failed to preview effects:\n{str(e)}") def update_effects_timeline_display(self): """Update the visual display of effects timeline""" # Clear existing widgets for widget in self.effects_scrollable_frame.winfo_children(): widget.destroy() if not hasattr(self, 'video_editor') or not self.video_editor or not self.video_editor.timeline_effects: # Show empty state empty_label = tk.Label(self.effects_scrollable_frame, text="No effects added yet.\n\nAdd effects using the tabs above and they will appear here.", font=self.fonts['body'], bg=self.colors['bg_primary'], fg=self.colors['text_muted'], justify='center') empty_label.pack(expand=True, fill='both', pady=50) return # Sort effects by start time sorted_effects = sorted(self.video_editor.timeline_effects, key=lambda x: x['start_time']) # Display each effect for i, effect in enumerate(sorted_effects): self._create_effect_display_widget(effect, i) # Update scroll region self.effects_scrollable_frame.update_idletasks() self.effects_canvas.configure(scrollregion=self.effects_canvas.bbox("all")) def _create_effect_display_widget(self, effect, index): """Create a widget to display a single effect in the timeline""" # Effect container effect_frame = tk.Frame(self.effects_scrollable_frame, bg=self.colors['bg_tertiary'], relief="flat", bd=1, pady=5, padx=5) effect_frame.pack(fill="x", padx=5, pady=2) # Effect info frame info_frame = tk.Frame(effect_frame, bg=self.colors['bg_tertiary']) info_frame.pack(fill="x") # Effect type and icon effect_icons = { 'text': 'πŸ“', 'sticker': '😊', 'color_preset': '🎨', 'color_grading': '🎨', 'particles': '✨', 'zoom': 'πŸ”', 'rotation': 'πŸ”„', 'blur': '🌫️' } icon = effect_icons.get(effect['type'], '⚑') type_label = tk.Label(info_frame, text=f"{icon} {effect['type'].replace('_', ' ').title()}", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary']) type_label.pack(side="left") # Timing info start_time = effect['start_time'] end_time = effect['end_time'] duration = end_time - start_time time_label = tk.Label(info_frame, text=f"{start_time:.1f}s - {end_time:.1f}s ({duration:.1f}s)", font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_secondary']) time_label.pack(side="left", padx=(10, 0)) # Effect parameters (abbreviated) params_text = self._get_effect_params_summary(effect) if params_text: params_label = tk.Label(info_frame, text=params_text, font=self.fonts['caption'], bg=self.colors['bg_tertiary'], fg=self.colors['text_muted']) params_label.pack(side="left", padx=(10, 0)) # Control buttons frame controls_frame = tk.Frame(info_frame, bg=self.colors['bg_tertiary']) controls_frame.pack(side="right") # Jump to effect button jump_btn = tk.Button(controls_frame, text="πŸ“", command=lambda: self.jump_to_effect_time(start_time), font=self.fonts['caption'], bg=self.colors['accent_blue'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=5, pady=1) jump_btn.pack(side="left", padx=2) self.add_hover_effect(jump_btn) # Remove effect button remove_btn = tk.Button(controls_frame, text="πŸ—‘οΈ", command=lambda: self.remove_timeline_effect(effect), font=self.fonts['caption'], bg=self.colors['accent_red'], fg=self.colors['text_primary'], bd=0, relief="flat", padx=5, pady=1) remove_btn.pack(side="left", padx=2) self.add_hover_effect(remove_btn) def _get_effect_params_summary(self, effect): """Get a brief summary of effect parameters""" effect_type = effect['type'] params = effect['params'] if effect_type == 'text': text = params.get('text', '')[:20] if len(params.get('text', '')) > 20: text += '...' return f"'{text}'" elif effect_type == 'sticker': return f"{params.get('sticker', '😊')}" elif effect_type == 'color_preset': return f"{params.get('preset', 'none')}" elif effect_type == 'zoom': return f"{params.get('zoom_factor', 1.0)}x {params.get('zoom_type', 'static')}" else: return "" def jump_to_effect_time(self, time): """Jump to specific time in the timeline""" if hasattr(self, 'timeline_var') and hasattr(self, 'timeline_slider'): self.timeline_var.set(time) self.current_time = time self.display_frame_at_time(time) self.update_time_display() print(f"πŸ“ Jumped to {time:.1f}s") def remove_timeline_effect(self, effect): """Remove a specific timeline effect""" if hasattr(self, 'video_editor') and self.video_editor: self.video_editor.remove_timeline_effect(effect) self.update_effects_timeline_display() self.refresh_video_preview() print(f"πŸ—‘οΈ Removed {effect['type']} effect") def apply_advanced_color_grading(self): """Apply advanced color grading with individual controls""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showerror("Error", "Please select a video first!") return brightness = self.brightness.get() contrast = self.contrast.get() saturation = self.saturation.get() hue_shift = self.hue_shift.get() print(f"🎨 Applying color grading: Brightness={brightness}, Contrast={contrast}, " f"Saturation={saturation}, Hue={hue_shift}") try: # For now, we'll show a placeholder implementation messagebox.showinfo("Feature Applied!", f"Advanced color grading applied:\n" f"Brightness: {brightness}\nContrast: {contrast}\n" f"Saturation: {saturation}\nHue Shift: {hue_shift}Β°") self.refresh_video_preview() except Exception as e: print(f"❌ Error applying color grading: {e}") messagebox.showerror("Color Grading Error", f"Failed to apply color grading:\n{str(e)}") def apply_platform_crop(self): """Apply platform-specific crop and aspect ratio""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showerror("Error", "Please select a video first!") return platform = self.platform_preset.get() print(f"πŸ“± Optimizing for platform: {platform}") # Platform aspect ratios platform_specs = { "tiktok": "9:16 (1080x1920)", "instagram_story": "9:16 (1080x1920)", "instagram_reel": "9:16 (1080x1920)", "youtube_shorts": "9:16 (1080x1920)", "snapchat": "9:16 (1080x1920)", "twitter": "16:9 (1920x1080)", "facebook_story": "9:16 (1080x1920)", "linkedin": "1:1 (1080x1080)" } try: spec = platform_specs.get(platform, "9:16 (1080x1920)") messagebox.showinfo("Feature Applied!", f"Video optimized for {platform.replace('_', ' ').title()}\n" f"Aspect ratio: {spec}") self.refresh_video_preview() except Exception as e: print(f"❌ Error applying platform crop: {e}") messagebox.showerror("Platform Crop Error", f"Failed to apply platform crop:\n{str(e)}") def add_audio_visualization(self): """Add audio visualization effect""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showerror("Error", "Please select a video first!") return style = self.audio_viz_style.get() position = self.audio_viz_position.get() print(f"🎡 Adding audio visualization: {style} at {position}") try: # For now, we'll show a placeholder implementation messagebox.showinfo("Feature Added!", f"Audio visualization '{style}' would be added at '{position}' position") except Exception as e: print(f"❌ Error adding audio visualization: {e}") messagebox.showerror("Audio Viz Error", f"Failed to add audio visualization:\n{str(e)}") def generate_auto_captions(self): """Generate automatic captions for the video""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showerror("Error", "Please select a video first!") return language = self.caption_language.get() style = self.caption_style.get() print(f"πŸ’¬ Generating auto-captions: {language} language, {style} style") try: # For now, we'll show a placeholder implementation messagebox.showinfo("Feature Processing!", f"Auto-captions would be generated in {language} language " f"with {style} styling.\n\nThis feature uses AI speech recognition.") except Exception as e: print(f"❌ Error generating captions: {e}") messagebox.showerror("Caption Error", f"Failed to generate captions:\n{str(e)}") def add_particle_effect(self): """Add particle effects to video""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showerror("Error", "Please select a video first!") return effect = self.particle_effect.get() intensity = self.particle_intensity.get() print(f"✨ Adding particle effect: {effect} with intensity {intensity}") try: # For now, we'll show a placeholder implementation messagebox.showinfo("Feature Added!", f"Particle effect '{effect}' would be added with {intensity:.1f} intensity") except Exception as e: print(f"❌ Error adding particle effect: {e}") messagebox.showerror("Particle Error", f"Failed to add particle effect:\n{str(e)}") def apply_transition_effect(self): """Apply transition effects""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showerror("Error", "Please select a video first!") return transition_type = self.transition_type.get() duration = self.transition_duration.get() print(f"πŸ”„ Applying transition: {transition_type} for {duration}s") try: # For now, we'll show a placeholder implementation messagebox.showinfo("Feature Applied!", f"Transition '{transition_type}' would be applied with {duration}s duration") except Exception as e: print(f"❌ Error applying transition: {e}") messagebox.showerror("Transition Error", f"Failed to apply transition:\n{str(e)}") def export_edited_video(self): """Export the final edited video with all timeline effects applied""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showerror("Error", "No video selected for editing!") return filename = self.output_filename.get() if not filename.endswith('.mp4'): filename += '.mp4' output_path = os.path.join(self.output_folder.get(), filename) quality = self.export_quality.get() # Check if there are timeline effects to apply effects_count = len(self.video_editor.timeline_effects) if hasattr(self.video_editor, 'timeline_effects') else 0 print(f"πŸ’Ύ Exporting edited video with {effects_count} timeline effects to: {output_path}") def export_thread(): try: # Show progress bar self.progress_bar.pack(pady=5) self.progress_label.pack() self.export_button.config(state="disabled", text="Processing Effects...") # Progress callback def progress_callback(progress, status="Exporting"): self.progress_var.set(progress * 100) self.progress_label.config(text=f"{status}... {progress*100:.1f}%") self.editor_window.update_idletasks() # Create output directory if needed os.makedirs(os.path.dirname(output_path), exist_ok=True) # Apply all timeline effects if any exist if effects_count > 0: progress_callback(0.1, "Applying timeline effects") # Apply timeline effects to create final processed clip final_clip = self.video_editor.apply_timeline_effects() progress_callback(0.3, "Effects applied, preparing export") # Temporarily store the processed clip original_clip = self.video_editor.video_clip self.video_editor.video_clip = final_clip try: # Export the processed video self.export_button.config(text="Exporting Video...") progress_callback(0.4, "Exporting video file") self.video_editor.export(output_path, quality, lambda p: progress_callback(0.4 + p * 0.6)) # Restore original clip self.video_editor.video_clip = original_clip final_clip.close() except Exception as e: # Restore original clip on error self.video_editor.video_clip = original_clip if 'final_clip' in locals(): final_clip.close() raise e else: # No timeline effects, export original with basic effects only progress_callback(0.2, "Exporting video") self.video_editor.export(output_path, quality, lambda p: progress_callback(0.2 + p * 0.8)) # Hide progress bar self.progress_bar.pack_forget() self.progress_label.pack_forget() self.export_button.config(state="normal", text="πŸ’Ύ Export Final Video") success_message = f"Video exported successfully to:\n{output_path}" if effects_count > 0: success_message += f"\n\nApplied {effects_count} timeline effects" messagebox.showinfo("Export Complete", success_message) print(f"βœ… Video exported successfully: {output_path}") except Exception as e: print(f"❌ Export error: {e}") self.progress_bar.pack_forget() self.progress_label.pack_forget() self.export_button.config(state="normal", text="πŸ’Ύ Export Final Video") messagebox.showerror("Export Error", f"Failed to export video:\n{str(e)}") # Confirm export if there are many effects if effects_count > 5: result = messagebox.askyesno("Confirm Export", f"You have {effects_count} timeline effects.\n" f"Processing may take several minutes.\n\nContinue with export?") if not result: return # Run export in background thread threading.Thread(target=export_thread, daemon=True).start() def reset_edited_video(self): """Reset all edits and reload original video""" if hasattr(self, 'video_editor') and self.video_editor: self.video_editor.reset() self.refresh_video_preview() messagebox.showinfo("Reset", "All edits have been reset to original video") print("πŸ”„ Video reset to original state") else: messagebox.showwarning("No Video", "No video loaded to reset!") def set_widget_state(self, widget, state): """Recursively set widget state""" try: widget.config(state=state) except: pass for child in widget.winfo_children(): self.set_widget_state(child, state) def update_video_info(self): """Update the video information display""" if self.video_info and self.current_video: filename = os.path.basename(self.current_video) info_text = f"""πŸ“ File: {filename} ⏱️ Duration: {self.video_info['duration']:.2f} seconds πŸ“ Resolution: {self.video_info['size'][0]} x {self.video_info['size'][1]} 🎬 FPS: {self.video_info['fps']:.1f} πŸ”Š Audio: {'Yes' if self.video_info['has_audio'] else 'No'} πŸ’Ύ Size: {os.path.getsize(self.current_video) / (1024*1024):.1f} MB""" self.info_label.config(text=info_text) def select_output_folder(self): """Select output folder for edited videos""" folder = filedialog.askdirectory(title="Select Output Folder") if folder: self.output_folder.set(folder) def refresh_video_list(self): """Refresh the list of available videos""" self.video_listbox.delete(0, tk.END) self.video_files.clear() shorts_files = glob.glob(os.path.join(self.shorts_folder, "*.mp4")) for video_file in sorted(shorts_files): try: info = VideoEditor.get_video_info(video_file) filename = os.path.basename(video_file) size_mb = os.path.getsize(video_file) / (1024 * 1024) display_text = f"{filename:<20} β”‚ {info['duration']:.1f}s β”‚ {info['size'][0]}x{info['size'][1]} β”‚ {size_mb:.1f}MB" self.video_listbox.insert(tk.END, display_text) self.video_files.append(video_file) except Exception as e: print(f"Error reading {video_file}: {e}") def open_shorts_folder(self): """Open the shorts folder in file explorer""" import subprocess try: subprocess.run(['explorer', os.path.abspath(self.shorts_folder)], check=True) except Exception as e: # Silently fail - no need to show dialog for folder opening issues print(f"Could not open folder: {e}") pass def get_output_path(self, suffix): """Generate output path with timestamp""" if not self.current_video: return None os.makedirs(self.output_folder.get(), exist_ok=True) base_name = os.path.splitext(os.path.basename(self.current_video))[0] timestamp = datetime.now().strftime("%H%M%S") return os.path.join(self.output_folder.get(), f"{base_name}_{suffix}_{timestamp}.mp4") def show_progress_dialog(self, title, operation_func): """Show progress dialog for editing operations""" progress_window = tk.Toplevel(self.editor_window) progress_window.title(title) progress_window.geometry("400x120") progress_window.transient(self.editor_window) progress_window.grab_set() tk.Label(progress_window, text=f"🎬 {title}", font=("Arial", 12, "bold")).pack(pady=10) progress_label = tk.Label(progress_window, text="Processing video...") progress_label.pack(pady=5) progress_bar = ttk.Progressbar(progress_window, mode="indeterminate") progress_bar.pack(fill="x", padx=20, pady=10) progress_bar.start() def run_operation(): try: result = operation_func() progress_window.after(0, lambda r=result: self.operation_complete(progress_window, r, title)) except Exception as error: progress_window.after(0, lambda err=str(error): self.operation_error(progress_window, err)) threading.Thread(target=run_operation, daemon=True).start() def operation_complete(self, progress_window, result, operation_name): """Handle successful operation completion""" progress_window.destroy() if result: messagebox.showinfo("Success", f"βœ… {operation_name} completed successfully!\n\n" f"Output saved to:\n{result}") self.refresh_video_list() def operation_error(self, progress_window, error_msg): """Handle operation error""" progress_window.destroy() messagebox.showerror("Error", f"❌ Operation failed:\n{error_msg}") # Editing tool methods def trim_video(self): """Apply trim to the current video editor""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showwarning("No Video", "Please select a video first!") return start = self.trim_start.get() end = self.trim_end.get() if start >= end: messagebox.showwarning("Invalid Range", "Start time must be less than end time!") return try: self.video_editor.apply_trim(start, end) self.refresh_video_preview() messagebox.showinfo("Success", f"Video trimmed from {start:.1f}s to {end:.1f}s") except Exception as e: print(f"❌ Error applying trim: {e}") messagebox.showerror("Trim Error", f"Failed to trim video:\n{str(e)}") def adjust_speed(self): """Apply speed adjustment to the current video editor""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showwarning("No Video", "Please select a video first!") return speed = self.speed_factor.get() if speed <= 0: messagebox.showwarning("Invalid Speed", "Speed must be greater than 0!") return try: self.video_editor.apply_speed(speed) self.refresh_video_preview() messagebox.showinfo("Success", f"Speed adjusted to {speed:.1f}x") except Exception as e: print(f"❌ Error applying speed: {e}") messagebox.showerror("Speed Error", f"Failed to adjust speed:\n{str(e)}") def add_fades(self): """Apply fade effects to the current video editor""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showwarning("No Video", "Please select a video first!") return fade_in = self.fade_in.get() fade_out = self.fade_out.get() try: self.video_editor.apply_fade_effects(fade_in, fade_out) self.refresh_video_preview() messagebox.showinfo("Success", f"Fade effects applied: in {fade_in:.1f}s, out {fade_out:.1f}s") except Exception as e: print(f"❌ Error applying fades: {e}") messagebox.showerror("Fade Error", f"Failed to apply fade effects:\n{str(e)}") def adjust_volume(self): """Apply volume adjustment to the current video editor""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showwarning("No Video", "Please select a video first!") return volume = self.volume_factor.get() try: self.video_editor.apply_volume(volume) self.refresh_video_preview() messagebox.showinfo("Success", f"Volume adjusted to {volume:.1f}x") except Exception as e: print(f"❌ Error applying volume: {e}") messagebox.showerror("Volume Error", f"Failed to adjust volume:\n{str(e)}") def resize_video(self): """Apply resize to the current video editor""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showwarning("No Video", "Please select a video first!") return width = self.resize_width.get() height = self.resize_height.get() if width < 1 or height < 1: messagebox.showwarning("Invalid Size", "Width and height must be positive!") return try: self.video_editor.apply_resize(width, height) self.refresh_video_preview() messagebox.showinfo("Success", f"Video resized to {width}x{height}") except Exception as e: print(f"❌ Error applying resize: {e}") messagebox.showerror("Resize Error", f"Failed to resize video:\n{str(e)}") def add_text_overlay(self): """Apply text overlay to the current video editor""" if not hasattr(self, 'video_editor') or not self.video_editor: messagebox.showwarning("No Video", "Please select a video first!") return text = self.overlay_text.get().strip() if not text: messagebox.showwarning("No Text", "Please enter text to overlay!") return position_str = self.text_position.get() position = tuple(position_str.split(',')) size = self.text_size.get() method = self.text_method.get() try: self.video_editor.apply_text_overlay_to_current(text, position, size, 'white', method) self.refresh_video_preview() messagebox.showinfo("Success", f"Text '{text[:30]}...' added successfully") except Exception as e: print(f"❌ Error applying text overlay: {e}") messagebox.showerror("Text Error", f"Failed to add text overlay:\n{str(e)}") # Professional Timeline Methods def init_timeline_canvas(self): """Initialize the timeline canvas with tracks and grid""" self.timeline_canvas.delete("all") # Draw track headers track_names = ['Video 1', 'Video 2', 'Audio 1', 'Text 1', 'Effects'] for i, track_name in enumerate(track_names): y = i * self.timeline_tracks_height # Track background track_color = self.colors['bg_tertiary'] if i % 2 == 0 else self.colors['bg_secondary'] self.timeline_canvas.create_rectangle(0, y, 1000, y + self.timeline_tracks_height, fill=track_color, outline=self.colors['text_muted'], width=1) # Track label self.timeline_canvas.create_text(10, y + 30, text=track_name, anchor="w", fill=self.colors['text_primary'], font=self.fonts['caption']) # Draw time grid self._draw_timeline_grid() # Draw playhead self._draw_playhead() # Set canvas scroll region self.timeline_canvas.configure(scrollregion=(0, 0, 2000, len(track_names) * self.timeline_tracks_height)) def _draw_timeline_grid(self): """Draw time grid on timeline""" canvas_width = 2000 canvas_height = 5 * self.timeline_tracks_height # Vertical grid lines (time markers) for second in range(0, int(canvas_width / self.timeline_scale) + 1): x = second * self.timeline_scale if x < canvas_width: # Major grid lines every 5 seconds if second % 5 == 0: self.timeline_canvas.create_line(x, 0, x, canvas_height, fill=self.colors['text_muted'], width=2) # Time label minutes = second // 60 seconds = second % 60 time_text = f"{minutes:02d}:{seconds:02d}" self.timeline_canvas.create_text(x + 5, 10, text=time_text, anchor="nw", fill=self.colors['text_primary'], font=self.fonts['small']) else: # Minor grid lines self.timeline_canvas.create_line(x, 0, x, canvas_height, fill=self.colors['text_muted'], width=1, dash=(2, 4)) def _draw_playhead(self): """Draw the playhead indicator""" x = self.timeline_playhead_pos * self.timeline_scale canvas_height = 5 * self.timeline_tracks_height # Remove existing playhead self.timeline_canvas.delete("playhead") # Draw playhead line self.timeline_canvas.create_line(x, 0, x, canvas_height, fill=self.colors['accent_red'], width=3, tags="playhead") # Draw playhead handle self.timeline_canvas.create_polygon(x-8, 0, x+8, 0, x, 16, fill=self.colors['accent_red'], outline=self.colors['text_primary'], width=1, tags="playhead") def timeline_play(self): """Start timeline playback""" print("▢️ Timeline play") # Implement playback logic here messagebox.showinfo("Timeline", "Play functionality - would start video playback from current position") def timeline_pause(self): """Pause timeline playback""" print("⏸️ Timeline pause") messagebox.showinfo("Timeline", "Pause functionality - would pause video playback") def timeline_stop(self): """Stop timeline playback""" print("⏹️ Timeline stop") self.timeline_playhead_pos = 0 self._draw_playhead() self.timeline_position_var.set("00:00:00") messagebox.showinfo("Timeline", "Stop functionality - timeline reset to start") def timeline_zoom_in(self): """Zoom in timeline view""" self.timeline_scale = min(self.timeline_scale * 1.5, 200) self.refresh_timeline_view() print(f"πŸ”βž• Timeline zoom in: {self.timeline_scale} px/sec") def timeline_zoom_out(self): """Zoom out timeline view""" self.timeline_scale = max(self.timeline_scale / 1.5, 10) self.refresh_timeline_view() print(f"πŸ”βž– Timeline zoom out: {self.timeline_scale} px/sec") def timeline_cut(self): """Cut selected clips""" if self.timeline_selected_clips: print(f"βœ‚οΈ Cut {len(self.timeline_selected_clips)} clips") messagebox.showinfo("Timeline", f"Cut {len(self.timeline_selected_clips)} clips") else: messagebox.showwarning("Timeline", "No clips selected to cut") def timeline_copy(self): """Copy selected clips""" if self.timeline_selected_clips: print(f"πŸ“‹ Copy {len(self.timeline_selected_clips)} clips") messagebox.showinfo("Timeline", f"Copied {len(self.timeline_selected_clips)} clips") else: messagebox.showwarning("Timeline", "No clips selected to copy") def timeline_paste(self): """Paste clips at playhead position""" print(f"πŸ“Œ Paste clips at {self.timeline_playhead_pos:.1f}s") messagebox.showinfo("Timeline", f"Paste functionality - would paste clips at {self.timeline_playhead_pos:.1f}s") def timeline_delete(self): """Delete selected clips""" if self.timeline_selected_clips: result = messagebox.askyesno("Confirm Delete", f"Delete {len(self.timeline_selected_clips)} selected clips?") if result: print(f"πŸ—‘οΈ Delete {len(self.timeline_selected_clips)} clips") self.timeline_selected_clips.clear() self.refresh_timeline_view() else: messagebox.showwarning("Timeline", "No clips selected to delete") def timeline_undo(self): """Undo last timeline action""" if hasattr(self, 'timeline_editor'): self.timeline_editor.undo() self.refresh_timeline_view() print("β†Ά Timeline undo") else: messagebox.showinfo("Timeline", "Nothing to undo") def timeline_redo(self): """Redo last undone timeline action""" if hasattr(self, 'timeline_editor'): self.timeline_editor.redo() self.refresh_timeline_view() print("β†· Timeline redo") else: messagebox.showinfo("Timeline", "Nothing to redo") def add_video_track(self): """Add new video track to timeline""" print("πŸ“Ή Add video track") file_path = filedialog.askopenfilename( title="Select Video File", filetypes=[("Video files", "*.mp4 *.avi *.mov *.mkv"), ("All files", "*.*")] ) if file_path: clip_data = { 'type': 'video', 'file_path': file_path, 'duration': 10.0 # Default duration, would get from file } self.timeline_editor.add_clip_to_track('video', clip_data, self.timeline_playhead_pos) self.refresh_timeline_view() messagebox.showinfo("Timeline", f"Added video: {os.path.basename(file_path)}") def add_audio_track(self): """Add new audio track to timeline""" print("🎡 Add audio track") file_path = filedialog.askopenfilename( title="Select Audio File", filetypes=[("Audio files", "*.mp3 *.wav *.aac *.m4a"), ("All files", "*.*")] ) if file_path: clip_data = { 'type': 'audio', 'file_path': file_path, 'duration': 10.0 # Default duration, would get from file } self.timeline_editor.add_clip_to_track('audio', clip_data, self.timeline_playhead_pos) self.refresh_timeline_view() messagebox.showinfo("Timeline", f"Added audio: {os.path.basename(file_path)}") def add_text_track(self): """Add text overlay to timeline""" print("πŸ“ Add text track") # Simple text input dialog text = tk.simpledialog.askstring("Add Text", "Enter text to add:") if text: clip_data = { 'type': 'text', 'duration': 3.0, 'properties': { 'text': text, 'font_size': 50, 'color': 'white', 'position': ('center', 'bottom') } } self.timeline_editor.add_clip_to_track('overlay', clip_data, self.timeline_playhead_pos) self.refresh_timeline_view() messagebox.showinfo("Timeline", f"Added text: '{text[:20]}...'") def open_media_browser(self): """Open media browser for timeline""" print("πŸ“ Open media browser") messagebox.showinfo("Timeline", "Media Browser - would show project media library") def export_timeline_video(self): """Export the complete timeline as a video""" if not hasattr(self, 'timeline_editor') or not self.timeline_editor.clips: messagebox.showwarning("Timeline", "No clips in timeline to export") return output_path = filedialog.asksaveasfilename( title="Export Timeline Video", defaultextension=".mp4", filetypes=[("MP4 files", "*.mp4"), ("All files", "*.*")] ) if output_path: try: print(f"πŸ’Ύ Exporting timeline to: {output_path}") def progress_callback(status): print(f"Export progress: {status}") self.timeline_editor.export_timeline(output_path, quality="high", progress_callback=progress_callback) messagebox.showinfo("Export Complete", f"Timeline exported successfully!\n\nSaved to: {output_path}") except Exception as e: print(f"❌ Timeline export failed: {e}") messagebox.showerror("Export Failed", f"Failed to export timeline:\n{str(e)}") def refresh_timeline_view(self): """Refresh the timeline view""" self.init_timeline_canvas() self._draw_timeline_clips() def _draw_timeline_clips(self): """Draw clips on the timeline""" if not hasattr(self, 'timeline_editor'): return track_index = 0 for track_name, clips in self.timeline_editor.tracks.items(): y = track_index * self.timeline_tracks_height + 20 for clip in clips: self._draw_clip_on_timeline(clip, y) track_index += 1 def _draw_clip_on_timeline(self, clip, y): """Draw a single clip on the timeline""" x1 = clip['start_time'] * self.timeline_scale x2 = (clip['start_time'] + clip['duration']) * self.timeline_scale # Clip colors by type clip_colors = { 'video': self.colors['accent_blue'], 'audio': self.colors['accent_green'], 'text': self.colors['accent_purple'], 'effect': self.colors['accent_orange'] } color = clip_colors.get(clip['type'], self.colors['accent_gray']) # Draw clip rectangle clip_rect = self.timeline_canvas.create_rectangle(x1, y, x2, y + 30, fill=color, outline=self.colors['text_primary'], width=1, tags=f"clip_{clip['id']}") # Clip label clip_text = clip.get('file_path', 'Clip') if clip_text: clip_name = os.path.basename(clip_text) if clip['type'] in ['video', 'audio'] else clip.get('properties', {}).get('text', 'Text') else: clip_name = f"{clip['type'].title()} Clip" # Truncate long names if len(clip_name) > 15: clip_name = clip_name[:15] + "..." self.timeline_canvas.create_text(x1 + 5, y + 15, text=clip_name, anchor="w", fill=self.colors['text_primary'], font=self.fonts['small'], tags=f"clip_{clip['id']}") def timeline_click(self, event): """Handle timeline click events""" x = self.timeline_canvas.canvasx(event.x) y = self.timeline_canvas.canvasy(event.y) # Check if clicking on playhead area if y < 20: # Move playhead self.timeline_playhead_pos = x / self.timeline_scale self._draw_playhead() # Update time display minutes = int(self.timeline_playhead_pos // 60) seconds = int(self.timeline_playhead_pos % 60) milliseconds = int((self.timeline_playhead_pos % 1) * 100) self.timeline_position_var.set(f"{minutes:02d}:{seconds:02d}:{milliseconds:02d}") print(f"🎯 Playhead moved to {self.timeline_playhead_pos:.2f}s") else: # Check for clip selection clicked_items = self.timeline_canvas.find_overlapping(x-1, y-1, x+1, y+1) for item in clicked_items: tags = self.timeline_canvas.gettags(item) for tag in tags: if tag.startswith("clip_"): clip_id = int(tag.split("_")[1]) if clip_id not in self.timeline_selected_clips: self.timeline_selected_clips.append(clip_id) print(f"🎬 Selected clip {clip_id}") break def timeline_drag(self, event): """Handle timeline drag events""" x = self.timeline_canvas.canvasx(event.x) y = self.timeline_canvas.canvasy(event.y) # Check if dragging in playhead area (top 20 pixels) if y < 20: # Update playhead position self.timeline_playhead_pos = max(0, x / self.timeline_scale) self._draw_playhead() # Update time display minutes = int(self.timeline_playhead_pos // 60) seconds = int(self.timeline_playhead_pos % 60) milliseconds = int((self.timeline_playhead_pos % 1) * 100) self.timeline_position_var.set(f"{minutes:02d}:{seconds:02d}:{milliseconds:02d}") print(f"🎯 Playhead dragged to {self.timeline_playhead_pos:.2f}s") else: # Handle clip dragging logic for other areas print(f"🚚 Timeline drag at {event.x}, {event.y}") def timeline_release(self, event): """Handle timeline mouse release events""" print("πŸ‘† Timeline mouse release") def timeline_double_click(self, event): """Handle timeline double click events""" print("πŸ‘†πŸ‘† Timeline double click - would open clip properties") messagebox.showinfo("Timeline", "Double click - would open clip properties dialog") def timeline_right_click(self, event): """Handle timeline right click context menu""" print("πŸ‘† Timeline right click - would show context menu") messagebox.showinfo("Timeline", "Right click - would show context menu with cut/copy/paste/delete options") # GUI Components class ShortsGeneratorGUI: def __init__(self, root): self.root = root self.root.title("🎬 AI Shorts Generator - Advanced Video Moment Detection") self.root.geometry("750x800") self.root.minsize(600, 650) # Modern color scheme self.colors = { 'bg_primary': '#1a1a1a', # Dark background 'bg_secondary': '#2d2d2d', # Card backgrounds 'bg_tertiary': '#3d3d3d', # Elevated elements 'accent_blue': '#007acc', # Primary blue 'accent_green': '#28a745', # Success green 'accent_orange': '#fd7e14', # Warning orange 'accent_purple': '#6f42c1', # Secondary purple 'accent_red': '#dc3545', # Error red 'text_primary': '#ffffff', # Primary text 'text_secondary': '#b8b8b8', # Secondary text 'text_muted': '#6c757d', # Muted text 'border': '#404040', # Border color 'hover': '#4a4a4a' # Hover state } self.root.configure(bg=self.colors['bg_primary']) # Modern fonts self.fonts = { 'title': ('Segoe UI', 20, 'bold'), 'heading': ('Segoe UI', 14, 'bold'), 'subheading': ('Segoe UI', 12, 'bold'), 'body': ('Segoe UI', 10), 'caption': ('Segoe UI', 9), 'button': ('Segoe UI', 10, 'bold') } # Make window responsive self.root.rowconfigure(0, weight=1) self.root.columnconfigure(0, weight=1) self.video_path = None self.output_folder = "shorts" self.max_clips = 3 self.threshold_db = -30 self.clip_duration = 5 # Bind resize event self.root.bind('', self.on_window_resize) self.create_widgets() def create_widgets(self): # Create main scrollable container with modern styling main_container = tk.Frame(self.root, bg=self.colors['bg_primary']) main_container.pack(fill="both", expand=True, padx=25, pady=25) main_container.rowconfigure(0, weight=1) main_container.columnconfigure(0, weight=1) # Create canvas and scrollbar for scrolling canvas = tk.Canvas(main_container, bg=self.colors['bg_primary'], highlightthickness=0) # Modern scrollbar styling style = ttk.Style() style.theme_use('clam') style.configure("Modern.Vertical.TScrollbar", background=self.colors['bg_tertiary'], troughcolor=self.colors['bg_secondary'], borderwidth=0, arrowcolor=self.colors['text_secondary'], darkcolor=self.colors['bg_tertiary'], lightcolor=self.colors['bg_tertiary']) scrollbar = ttk.Scrollbar(main_container, orient="vertical", command=canvas.yview, style="Modern.Vertical.TScrollbar") scrollable_frame = tk.Frame(canvas, bg=self.colors['bg_primary']) scrollable_frame.bind( "", lambda e: canvas.configure(scrollregion=canvas.bbox("all")) ) canvas.create_window((0, 0), window=scrollable_frame, anchor="nw") canvas.configure(yscrollcommand=scrollbar.set) # Make scrollable frame responsive scrollable_frame.columnconfigure(0, weight=1) # Modern header section header_frame = tk.Frame(scrollable_frame, bg=self.colors['bg_primary']) header_frame.grid(row=0, column=0, pady=(0, 30), sticky="ew") # Main title with modern typography title_label = tk.Label(header_frame, text="🎬 AI Shorts Generator", font=self.fonts['title'], bg=self.colors['bg_primary'], fg=self.colors['text_primary']) title_label.pack() # Subtitle subtitle_label = tk.Label(header_frame, text="Advanced Video Moment Detection & Generation", font=self.fonts['caption'], bg=self.colors['bg_primary'], fg=self.colors['text_secondary']) subtitle_label.pack(pady=(5, 0)) # Video selection card video_card = self.create_modern_card(scrollable_frame, "πŸ“ Video Input") video_card.grid(row=1, column=0, pady=15, sticky="ew") # Output folder card output_card = self.create_modern_card(scrollable_frame, "πŸ“‚ Output Settings") output_card.grid(row=2, column=0, pady=15, sticky="ew") # Add content to video card self.setup_video_selection(video_card) # Add content to output card self.setup_output_selection(output_card) # Settings card settings_card = self.create_modern_card(scrollable_frame, "βš™οΈ Generation Settings") settings_card.grid(row=3, column=0, pady=15, sticky="ew") self.setup_settings_panel(settings_card) # Action buttons card actions_card = self.create_modern_card(scrollable_frame, "πŸš€ Actions") actions_card.grid(row=4, column=0, pady=15, sticky="ew") self.setup_action_buttons(actions_card) # Progress card progress_card = self.create_modern_card(scrollable_frame, "πŸ“Š Progress") progress_card.grid(row=5, column=0, pady=15, sticky="ew") self.setup_progress_panel(progress_card) # Pack the canvas and scrollbar canvas.grid(row=0, column=0, sticky="nsew") scrollbar.grid(row=0, column=1, sticky="ns") def create_modern_card(self, parent, title): """Create a modern card-style container""" card_frame = tk.Frame(parent, bg=self.colors['bg_secondary'], relief="flat", bd=0) # Card header with modern styling header_frame = tk.Frame(card_frame, bg=self.colors['bg_secondary']) header_frame.pack(fill="x", padx=25, pady=(20, 10)) header_label = tk.Label(header_frame, text=title, font=self.fonts['heading'], bg=self.colors['bg_secondary'], fg=self.colors['text_primary']) header_label.pack(anchor="w") # Separator line separator = tk.Frame(card_frame, bg=self.colors['border'], height=1) separator.pack(fill="x", padx=25) # Card content area content_frame = tk.Frame(card_frame, bg=self.colors['bg_secondary']) content_frame.pack(fill="both", expand=True, padx=25, pady=(15, 25)) return content_frame def create_modern_button(self, parent, text, command, color, large=False): """Create a modern button with hover effects""" font = self.fonts['button'] if not large else ('Segoe UI', 12, 'bold') pady = 12 if not large else 16 button = tk.Button(parent, text=text, command=command, bg=color, fg='white', font=font, relief="flat", bd=0, pady=pady, activebackground=self.adjust_color(color, -20), activeforeground='white', cursor="hand2") # Add hover effects def on_enter(e): button.config(bg=self.adjust_color(color, 15)) def on_leave(e): button.config(bg=color) button.bind("", on_enter) button.bind("", on_leave) return button def adjust_color(self, hex_color, adjustment): """Adjust color brightness for hover effects""" hex_color = hex_color.lstrip('#') rgb = tuple(int(hex_color[i:i+2], 16) for i in (0, 2, 4)) adjusted = tuple(max(0, min(255, c + adjustment)) for c in rgb) return f"#{adjusted[0]:02x}{adjusted[1]:02x}{adjusted[2]:02x}" def setup_video_selection(self, parent): """Setup the video selection interface""" parent.columnconfigure(0, weight=1) self.video_label = tk.Label(parent, text="No video selected", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_secondary'], relief="flat", anchor="w", pady=12, padx=15, bd=1, highlightbackground=self.colors['border'], highlightthickness=1) self.video_label.grid(row=0, column=0, sticky="ew", pady=(0, 15)) browse_btn = self.create_modern_button(parent, "πŸ“ Browse Video", self.select_video, self.colors['accent_blue']) browse_btn.grid(row=1, column=0, sticky="ew") def setup_output_selection(self, parent): """Setup the output folder selection interface""" parent.columnconfigure(0, weight=1) self.output_label = tk.Label(parent, text="shorts/", font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_secondary'], relief="flat", anchor="w", pady=12, padx=15, bd=1, highlightbackground=self.colors['border'], highlightthickness=1) self.output_label.grid(row=0, column=0, sticky="ew", pady=(0, 15)) browse_btn = self.create_modern_button(parent, "πŸ“‚ Browse Folder", self.select_output_folder, self.colors['accent_blue']) browse_btn.grid(row=1, column=0, sticky="ew") def setup_settings_panel(self, parent): """Setup the settings panel with modern styling""" parent.columnconfigure(0, weight=1) # Max clips setting clips_frame = tk.Frame(parent, bg=self.colors['bg_secondary']) clips_frame.grid(row=0, column=0, sticky="ew", pady=(0, 20)) clips_frame.columnconfigure(1, weight=1) self.use_max_clips = tk.BooleanVar(value=True) clips_checkbox = tk.Checkbutton(clips_frame, variable=self.use_max_clips, text="Limit clips:", font=self.fonts['body'], bg=self.colors['bg_secondary'], fg=self.colors['text_primary'], selectcolor=self.colors['accent_blue'], relief="flat", bd=0) clips_checkbox.grid(row=0, column=0, sticky="w", padx=(0, 15)) self.clips_var = tk.IntVar(value=3) self.clips_spinbox = tk.Spinbox(clips_frame, from_=1, to=10, width=8, textvariable=self.clips_var, font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], relief="flat", bd=1, highlightbackground=self.colors['border']) self.clips_spinbox.grid(row=0, column=2, sticky="e") # Detection mode detection_frame = tk.Frame(parent, bg=self.colors['bg_secondary']) detection_frame.grid(row=1, column=0, sticky="ew", pady=(0, 20)) detection_frame.columnconfigure(1, weight=1) tk.Label(detection_frame, text="Detection Mode:", font=self.fonts['subheading'], bg=self.colors['bg_secondary'], fg=self.colors['text_primary']).grid(row=0, column=0, sticky="w") self.detection_mode_var = tk.StringVar(value="loud") self.detection_display_var = tk.StringVar(value="πŸ”Š Loud Moments") # Modern combobox styling detection_style = ttk.Style() detection_style.configure("Modern.TCombobox", fieldbackground=self.colors['bg_tertiary'], background=self.colors['bg_tertiary'], foreground=self.colors['text_primary'], arrowcolor=self.colors['text_secondary'], borderwidth=1, relief="flat") detection_dropdown = ttk.Combobox(detection_frame, textvariable=self.detection_display_var, values=["πŸ”Š Loud Moments", "🎬 Scene Changes", "πŸƒ Motion Intensity", "πŸ˜„ Emotional Speech", "🎡 Audio Peaks", "🎯 Smart Combined"], state="readonly", width=25, font=self.fonts['body'], style="Modern.TCombobox") detection_dropdown.grid(row=0, column=1, sticky="e") # Store the mapping between display text and internal values self.mode_mapping = { "πŸ”Š Loud Moments": "loud", "🎬 Scene Changes": "scene", "πŸƒ Motion Intensity": "motion", "πŸ˜„ Emotional Speech": "speech", "🎡 Audio Peaks": "peaks", "🎯 Smart Combined": "combined" } # Audio threshold (for loud moments) self.threshold_frame = tk.Frame(parent, bg=self.colors['bg_secondary']) self.threshold_frame.grid(row=2, column=0, sticky="ew", pady=(0, 20)) self.threshold_frame.columnconfigure(1, weight=1) tk.Label(self.threshold_frame, text="Audio Threshold (dB):", font=self.fonts['body'], bg=self.colors['bg_secondary'], fg=self.colors['text_primary']).grid(row=0, column=0, sticky="w") self.threshold_var = tk.IntVar(value=-30) threshold_spinbox = tk.Spinbox(self.threshold_frame, from_=-50, to=0, width=8, textvariable=self.threshold_var, font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], relief="flat", bd=1, highlightbackground=self.colors['border']) threshold_spinbox.grid(row=0, column=2, sticky="e") # Clip duration duration_frame = tk.Frame(parent, bg=self.colors['bg_secondary']) duration_frame.grid(row=3, column=0, sticky="ew") duration_frame.columnconfigure(1, weight=1) tk.Label(duration_frame, text="Clip Duration (seconds):", font=self.fonts['body'], bg=self.colors['bg_secondary'], fg=self.colors['text_primary']).grid(row=0, column=0, sticky="w") self.duration_var = tk.IntVar(value=5) duration_spinbox = tk.Spinbox(duration_frame, from_=3, to=120, width=8, textvariable=self.duration_var, font=self.fonts['body'], bg=self.colors['bg_tertiary'], fg=self.colors['text_primary'], relief="flat", bd=1, highlightbackground=self.colors['border']) duration_spinbox.grid(row=0, column=2, sticky="e") # Bind dropdown change event def on_detection_change(event): selection = detection_dropdown.get() self.detection_mode_var.set(self.mode_mapping.get(selection, "loud")) # Show/hide threshold setting based on mode if selection == "πŸ”Š Loud Moments": self.threshold_frame.grid(row=2, column=0, sticky="ew", pady=(0, 20)) else: self.threshold_frame.grid_remove() detection_dropdown.bind("<>", on_detection_change) # Bind checkbox to enable/disable spinbox def toggle_clips_limit(): if self.use_max_clips.get(): self.clips_spinbox.config(state="normal") else: self.clips_spinbox.config(state="disabled") self.use_max_clips.trace("w", lambda *args: toggle_clips_limit()) clips_checkbox.config(command=toggle_clips_limit) def setup_action_buttons(self, parent): """Setup the action buttons with modern styling""" parent.columnconfigure(0, weight=1) # Preview button self.preview_btn = self.create_modern_button(parent, "πŸ” Preview Clips", self.preview_clips, self.colors['accent_blue']) self.preview_btn.grid(row=0, column=0, sticky="ew", pady=(0, 10)) # Generate button - primary action self.generate_btn = self.create_modern_button(parent, "🎬 Generate Shorts", self.start_generation, self.colors['accent_green'], large=True) self.generate_btn.grid(row=1, column=0, sticky="ew", pady=(0, 15)) # Secondary actions button_grid = tk.Frame(parent, bg=self.colors['bg_secondary']) button_grid.grid(row=2, column=0, sticky="ew") button_grid.columnconfigure(0, weight=1) button_grid.columnconfigure(1, weight=1) self.edit_btn = self.create_modern_button(button_grid, "✏️ Edit Shorts", self.open_shorts_editor, self.colors['accent_orange']) self.edit_btn.grid(row=0, column=0, sticky="ew", padx=(0, 5)) self.thumbnail_btn = self.create_modern_button(button_grid, "πŸ“Έ Thumbnails", self.open_thumbnail_editor, self.colors['accent_purple']) self.thumbnail_btn.grid(row=0, column=1, sticky="ew", padx=(5, 0)) def setup_progress_panel(self, parent): """Setup the progress panel with modern styling""" parent.columnconfigure(0, weight=1) # Progress info self.progress_label = tk.Label(parent, text="Ready to generate shorts", font=self.fonts['body'], bg=self.colors['bg_secondary'], fg=self.colors['text_primary']) self.progress_label.grid(row=0, column=0, sticky="ew", pady=(0, 10)) # Modern progress bar progress_style = ttk.Style() progress_style.configure("Modern.Horizontal.TProgressbar", background=self.colors['accent_green'], troughcolor=self.colors['bg_tertiary'], borderwidth=0, lightcolor=self.colors['accent_green'], darkcolor=self.colors['accent_green']) self.progress_bar = ttk.Progressbar(parent, length=400, mode="determinate", style="Modern.Horizontal.TProgressbar") self.progress_bar.grid(row=1, column=0, sticky="ew", pady=(0, 10)) # Detection progress (initially hidden) self.detection_progress_label = tk.Label(parent, text="", font=self.fonts['caption'], bg=self.colors['bg_secondary'], fg=self.colors['accent_blue']) self.detection_progress_bar = ttk.Progressbar(parent, length=400, mode="determinate", style="Modern.Horizontal.TProgressbar") # Initially hide detection progress self.detection_progress_label.grid_remove() self.detection_progress_bar.grid_remove() # Settings frame settings_frame = tk.LabelFrame(scrollable_frame, text="Settings", padx=10, pady=10) settings_frame.grid(row=3, column=0, pady=10, sticky="ew") settings_frame.columnconfigure(0, weight=1) # Max clips with on/off toggle clips_frame = tk.Frame(settings_frame) clips_frame.grid(row=0, column=0, pady=5, sticky="ew") clips_frame.columnconfigure(1, weight=1) self.use_max_clips = tk.BooleanVar(value=True) clips_checkbox = tk.Checkbutton(clips_frame, variable=self.use_max_clips, text="Max Clips to Generate:") clips_checkbox.grid(row=0, column=0, sticky="w") self.clips_var = tk.IntVar(value=3) self.clips_spinbox = tk.Spinbox(clips_frame, from_=1, to=10, width=5, textvariable=self.clips_var) self.clips_spinbox.grid(row=0, column=2, sticky="e") # Bind checkbox to enable/disable spinbox def toggle_clips_limit(): if self.use_max_clips.get(): self.clips_spinbox.config(state="normal") else: self.clips_spinbox.config(state="disabled") self.use_max_clips.trace("w", lambda *args: toggle_clips_limit()) clips_checkbox.config(command=toggle_clips_limit) # Add tooltip for max clips setting clips_tooltip_text = """Max Clips Control: β€’ Checked: Limit the number of clips generated β€’ Unchecked: Generate all detected moments β€’ 1-3 clips: Quick highlights for social media β€’ 4-6 clips: Good variety pack β€’ 7-10 clips: Comprehensive highlight reel Tip: Start with 3 clips, then increase if you want more content""" ToolTip(self.clips_spinbox, clips_tooltip_text, side='right') ToolTip(clips_checkbox, clips_tooltip_text, side='right') # Detection Mode Selection detection_frame = tk.Frame(settings_frame) detection_frame.grid(row=1, column=0, pady=5, sticky="ew") detection_frame.columnconfigure(1, weight=1) tk.Label(detection_frame, text="Detection Mode:", font=("Arial", 9, "bold")).grid(row=0, column=0, sticky="w") self.detection_mode_var = tk.StringVar(value="loud") self.detection_display_var = tk.StringVar(value="πŸ”Š Loud Moments") detection_dropdown = ttk.Combobox(detection_frame, textvariable=self.detection_display_var, values=["πŸ”Š Loud Moments", "🎬 Scene Changes", "πŸƒ Motion Intensity", "πŸ˜„ Emotional Speech", "🎡 Audio Peaks", "🎯 Smart Combined"], state="readonly", width=22) detection_dropdown.grid(row=0, column=1, sticky="e") # Store the mapping between display text and internal values self.mode_mapping = { "πŸ”Š Loud Moments": "loud", "🎬 Scene Changes": "scene", "πŸƒ Motion Intensity": "motion", "πŸ˜„ Emotional Speech": "speech", "🎡 Audio Peaks": "peaks", "🎯 Smart Combined": "combined" } # Simple, clear descriptions for mode tooltips mode_descriptions = { "πŸ”Š Loud Moments": """Analyzes audio volume levels to find the loudest parts of your video. β€’ Best for: Gaming reactions, music highlights, shouting moments β€’ Finds: High-volume audio segments above the threshold β€’ Ideal when: Your video has clear volume differences β€’ Tip: Adjust threshold if too many/few moments found""", "🎬 Scene Changes": """Detects dramatic visual transitions and cuts in your video. β€’ Best for: Movie trailers, montages, location changes β€’ Finds: Major visual shifts between frames β€’ Ideal when: Video has multiple scenes or camera angles β€’ Tip: Great for content with quick cuts or transitions""", "πŸƒ Motion Intensity": """Analyzes movement and action within video frames. β€’ Best for: Sports highlights, dance videos, action scenes β€’ Finds: High-movement moments with lots of visual activity β€’ Ideal when: Video contains physical action or movement β€’ Tip: Perfect for extracting the most dynamic moments""", "πŸ˜„ Emotional Speech": """Uses AI to detect excited, emotional, or emphatic speech patterns. β€’ Best for: Reactions, reviews, commentary, tutorials β€’ Finds: Words like 'wow', 'amazing', exclamations, excited tone β€’ Ideal when: Video has spoken content with emotional moments β€’ Tip: Captures the most engaging verbal reactions""", "🎡 Audio Peaks": """Detects sudden audio spikes like bass drops, impacts, or sound effects. β€’ Best for: Music videos, sound effect moments, beat drops β€’ Finds: Sharp increases in audio frequency or volume β€’ Ideal when: Video has musical elements or sound effects β€’ Tip: Great for rhythm-based or audio-driven content""", "🎯 Smart Combined": """Intelligently combines all detection methods for optimal results. β€’ Best for: Any video type, general content, unsure what to use β€’ Finds: Moments scoring high across multiple analysis methods β€’ Ideal when: You want the most 'interesting' overall moments β€’ Tip: Recommended starting point for most videos""" } # Create tooltip for the dropdown (updates when selection changes) current_tooltip_text = mode_descriptions["πŸ”Š Loud Moments"] # Default dropdown_tooltip = ToolTip(detection_dropdown, current_tooltip_text) # Update tooltip when selection changes def on_detection_change(event): selection = detection_dropdown.get() mode_map = { "πŸ”Š Loud Moments": "loud", "🎬 Scene Changes": "scene", "πŸƒ Motion Intensity": "motion", "πŸ˜„ Emotional Speech": "speech", "🎡 Audio Peaks": "peaks", "🎯 Smart Combined": "combined" } self.detection_mode_var.set(mode_map.get(selection, "loud")) # Update tooltip text for the selected mode dropdown_tooltip.text = mode_descriptions.get(selection, "Select a detection mode") # Show/hide threshold setting based on mode if selection == "πŸ”Š Loud Moments": threshold_frame.grid(row=2, column=0, pady=5, sticky="ew") else: threshold_frame.grid_remove() detection_dropdown.bind("<>", on_detection_change) # Audio threshold (only shown for loud moments) threshold_frame = tk.Frame(settings_frame) threshold_frame.grid(row=2, column=0, pady=5, sticky="ew") threshold_frame.columnconfigure(1, weight=1) threshold_label = tk.Label(threshold_frame, text="Audio Threshold (dB):") threshold_label.grid(row=0, column=0, sticky="w") self.threshold_var = tk.IntVar(value=-30) threshold_spinbox = tk.Spinbox(threshold_frame, from_=-50, to=0, width=5, textvariable=self.threshold_var) threshold_spinbox.grid(row=0, column=2, sticky="e") # Add tooltip for threshold setting threshold_tooltip_text = """Audio Threshold Control: β€’ Higher values (closer to 0): Only very loud moments β€’ Lower values (closer to -50): More moments detected β€’ Default -30 dB: Good balance for most videos β€’ Adjust based on your video's audio levels Example: Gaming videos might need -20 dB, quiet vlogs might need -40 dB""" ToolTip(threshold_spinbox, threshold_tooltip_text, side='right') # Clip duration (increased to 120 seconds max) duration_frame = tk.Frame(settings_frame) duration_frame.grid(row=3, column=0, pady=5, sticky="ew") duration_frame.columnconfigure(1, weight=1) duration_label = tk.Label(duration_frame, text="Clip Duration (seconds):") duration_label.grid(row=0, column=0, sticky="w") self.duration_var = tk.IntVar(value=5) duration_spinbox = tk.Spinbox(duration_frame, from_=3, to=120, width=5, textvariable=self.duration_var) duration_spinbox.grid(row=0, column=2, sticky="e") # Add tooltip for duration setting duration_tooltip_text = """Clip Duration Setting: β€’ 3-10 seconds: Perfect for TikTok/Instagram Reels β€’ 10-30 seconds: Good for YouTube Shorts β€’ 30-60 seconds: Longer form highlights β€’ 60+ seconds: Extended content clips Shorter clips = more viral potential Longer clips = more context and story""" ToolTip(duration_spinbox, duration_tooltip_text, side='right') # Preview button self.preview_btn = tk.Button(scrollable_frame, text="πŸ” Preview Clips", command=self.preview_clips, bg="#2196F3", fg="white", font=("Arial", 10, "bold"), pady=5) self.preview_btn.grid(row=4, column=0, pady=5, sticky="ew") # Add tooltip for preview button preview_tooltip_text = """Preview Clips Feature: β€’ Analyzes your video using the selected detection mode β€’ Shows all detected moments with timestamps β€’ Lets you select specific clips to generate β€’ No video files created - just analysis β€’ Great for testing settings before full generation Tip: Always preview first to see what the AI finds!""" ToolTip(self.preview_btn, preview_tooltip_text, side='right') # Generate button self.generate_btn = tk.Button(scrollable_frame, text="🎬 Generate Shorts", command=self.start_generation, bg="#4CAF50", fg="white", font=("Arial", 12, "bold"), pady=10) self.generate_btn.grid(row=5, column=0, pady=10, sticky="ew") # Add tooltip for generate button generate_tooltip_text = """Generate Shorts Feature: β€’ Creates actual video files from detected moments β€’ Adds AI-generated subtitles to each clip β€’ Formats videos for vertical social media (1080x1920) β€’ Saves clips to your selected output folder β€’ Takes longer but creates ready-to-post content Tip: Use Preview first to fine-tune your settings!""" ToolTip(self.generate_btn, generate_tooltip_text, side='right') # Edit Shorts button self.edit_btn = tk.Button(scrollable_frame, text="✏️ Edit Generated Shorts", command=self.open_shorts_editor, bg="#FF9800", fg="white", font=("Arial", 11, "bold"), pady=8) self.edit_btn.grid(row=6, column=0, pady=5, sticky="ew") # Add tooltip for edit button edit_tooltip_text = """Professional Shorts Editor: β€’ Select any generated short for editing β€’ Trim, speed up/slow down videos β€’ Add fade in/out effects β€’ Adjust volume levels β€’ Resize and crop videos β€’ Add custom text overlays β€’ Real-time preview and professional tools Transform your shorts into perfect content!""" ToolTip(self.edit_btn, edit_tooltip_text, side='right') # Thumbnail Editor button self.thumbnail_btn = tk.Button(scrollable_frame, text="πŸ“Έ Create Thumbnails", command=self.open_thumbnail_editor, bg="#9C27B0", fg="white", font=("Arial", 11, "bold"), pady=8) self.thumbnail_btn.grid(row=7, column=0, pady=5, sticky="ew") # Add tooltip for thumbnail button thumbnail_tooltip_text = """Professional Thumbnail Editor: β€’ Select any video to create custom thumbnails β€’ Choose the perfect frame with timeline slider β€’ Add text overlays with custom fonts and colors β€’ Add stickers and emojis for eye-catching designs β€’ Drag and drop positioning β€’ High-quality export (JPEG/PNG) β€’ Perfect for YouTube, TikTok, Instagram Create thumbnails that get clicks!""" ToolTip(self.thumbnail_btn, thumbnail_tooltip_text, side='right') # Progress frame progress_frame = tk.Frame(scrollable_frame) progress_frame.grid(row=8, column=0, pady=5, sticky="ew") progress_frame.columnconfigure(0, weight=1) self.progress_label = tk.Label(progress_frame, text="Ready to generate shorts") self.progress_label.grid(row=0, column=0, sticky="ew") self.progress_bar = ttk.Progressbar(progress_frame, length=400, mode="determinate") self.progress_bar.grid(row=1, column=0, pady=3, sticky="ew") # Detection progress (initially hidden) self.detection_progress_label = tk.Label(progress_frame, text="", font=("Arial", 9), fg="gray") self.detection_progress_label.grid(row=2, column=0, sticky="ew") self.detection_progress_bar = ttk.Progressbar(progress_frame, length=400, mode="determinate") self.detection_progress_bar.grid(row=3, column=0, pady=(0, 3), sticky="ew") # Initially hide detection progress self.detection_progress_label.grid_remove() self.detection_progress_bar.grid_remove() # Pack the canvas and scrollbar canvas.grid(row=0, column=0, sticky="nsew") scrollbar.grid(row=0, column=1, sticky="ns") def on_window_resize(self, event): """Handle window resize events for responsive layout""" if event.widget == self.root: # Get current window size width = self.root.winfo_width() # Adjust progress bar length based on window width progress_length = max(300, width - 150) try: self.progress_bar.config(length=progress_length) self.detection_progress_bar.config(length=progress_length) except: pass def select_video(self): file_path = filedialog.askopenfilename( title="Select Video File", filetypes=[("Video files", "*.mp4 *.mov *.avi *.mkv *.wmv")] ) if file_path: self.video_path = file_path self.video_label.config(text=os.path.basename(file_path)) def select_output_folder(self): folder_path = filedialog.askdirectory(title="Select Output Folder") if folder_path: self.output_folder = folder_path self.output_label.config(text=folder_path) def preview_clips(self): if not self.video_path: messagebox.showwarning("Warning", "Please select a video file first!") return try: # Validate video first validate_video(self.video_path, min_duration=self.duration_var.get() * 2) # Analyze using selected detection mode self.preview_btn.config(state="disabled", text="Analyzing...") self.root.update() detection_mode = self.detection_mode_var.get() if detection_mode == "loud": moments = detect_loud_moments( self.video_path, chunk_duration=self.duration_var.get(), threshold_db=self.threshold_var.get() ) mode_name = "loud moments" elif detection_mode == "scene": moments = detect_scene_changes(self.video_path, chunk_duration=self.duration_var.get()) mode_name = "scene changes" elif detection_mode == "motion": moments = detect_motion_intensity(self.video_path, chunk_duration=self.duration_var.get()) mode_name = "motion moments" elif detection_mode == "speech": moments = detect_speech_emotion(self.video_path, chunk_duration=self.duration_var.get()) mode_name = "emotional speech" elif detection_mode == "peaks": moments = detect_audio_peaks(self.video_path, chunk_duration=self.duration_var.get()) mode_name = "audio peaks" elif detection_mode == "combined": moments = detect_combined_intensity(self.video_path, chunk_duration=self.duration_var.get()) mode_name = "interesting moments" else: moments = detect_loud_moments( self.video_path, chunk_duration=self.duration_var.get(), threshold_db=self.threshold_var.get() ) mode_name = "loud moments" if not moments: messagebox.showinfo("Preview", f"No {mode_name} found.\nTry a different detection mode or adjust settings.") return # Show preview window preview_window = tk.Toplevel(self.root) preview_window.title("Preview and Select Clips") preview_window.geometry("500x400") tk.Label(preview_window, text=f"Found {len(moments)} {mode_name}:", font=("Arial", 12, "bold")).pack(pady=10) # Create scrollable frame for checkboxes canvas = tk.Canvas(preview_window) scrollbar = tk.Scrollbar(preview_window, orient="vertical", command=canvas.yview) scrollable_frame = tk.Frame(canvas) scrollable_frame.bind( "", lambda e: canvas.configure(scrollregion=canvas.bbox("all")) ) canvas.create_window((0, 0), window=scrollable_frame, anchor="nw") canvas.configure(yscrollcommand=scrollbar.set) # Store checkbox variables and clip data self.clip_vars = [] # Use all clips if max clips is disabled, otherwise limit by setting clips_to_show = moments if not self.use_max_clips.get() else moments[:self.clips_var.get()] self.preview_clips_data = clips_to_show # Add selectable clips with checkboxes for i, (start, end) in enumerate(self.preview_clips_data, 1): duration = end - start time_str = f"Clip {i}: {start//60:02.0f}:{start%60:05.2f} - {end//60:02.0f}:{end%60:05.2f} ({duration:.1f}s)" clip_var = tk.BooleanVar(value=True) # Default selected self.clip_vars.append(clip_var) clip_frame = tk.Frame(scrollable_frame) clip_frame.pack(fill="x", padx=10, pady=2) checkbox = tk.Checkbutton(clip_frame, variable=clip_var, text=time_str, font=("Courier", 10), anchor="w") checkbox.pack(fill="x") canvas.pack(side="left", fill="both", expand=True, padx=10, pady=5) scrollbar.pack(side="right", fill="y") # Button frame button_frame = tk.Frame(preview_window) button_frame.pack(fill="x", padx=10, pady=10) # Select/Deselect all buttons control_frame = tk.Frame(button_frame) control_frame.pack(fill="x", pady=5) tk.Button(control_frame, text="Select All", command=lambda: [var.set(True) for var in self.clip_vars]).pack(side="left", padx=5) tk.Button(control_frame, text="Deselect All", command=lambda: [var.set(False) for var in self.clip_vars]).pack(side="left", padx=5) # Generate selected clips button (fixed size for full text visibility) generate_selected_btn = tk.Button(button_frame, text="🎬 Generate Selected Clips", command=lambda: self.generate_selected_clips(preview_window), bg="#4CAF50", fg="white", font=("Arial", 11, "bold"), pady=8, width=25) generate_selected_btn.pack(fill="x", pady=5) # Close button tk.Button(button_frame, text="Close", command=preview_window.destroy).pack(pady=5) except Exception as e: messagebox.showerror("Preview Error", f"Error analyzing video: {str(e)}") finally: self.preview_btn.config(state="normal", text="πŸ” Preview Clips") def generate_selected_clips(self, preview_window): """Generate only the selected clips from preview""" try: # Get selected clips selected_clips = [] for i, (clip_var, clip_data) in enumerate(zip(self.clip_vars, self.preview_clips_data)): if clip_var.get(): selected_clips.append((i+1, clip_data)) # (clip_number, (start, end)) if not selected_clips: messagebox.showwarning("Warning", "Please select at least one clip to generate!") return # Close preview window preview_window.destroy() # Show confirmation clip_count = len(selected_clips) clip_numbers = [str(num) for num, _ in selected_clips] confirm_msg = f"Generate {clip_count} selected clips (#{', #'.join(clip_numbers)})?" if not messagebox.askyesno("Confirm Generation", confirm_msg): return # Start generation in background thread self.selected_clips_data = [clip_data for _, clip_data in selected_clips] self.generate_btn.config(state="disabled", text="Generating Selected...") thread = threading.Thread(target=self.selected_generation_worker) thread.daemon = True thread.start() except Exception as e: messagebox.showerror("Generation Error", f"Error starting generation: {str(e)}") def selected_generation_worker(self): """Generate only selected clips""" try: # Check available disk space import shutil free_space_gb = shutil.disk_usage(self.output_folder)[2] / (1024**3) if free_space_gb < 1: raise RuntimeError(f"Insufficient disk space. Only {free_space_gb:.1f} GB available. Need at least 1 GB.") # Validate video first try: video_duration = validate_video(self.video_path, min_duration=self.duration_var.get() * 2) self.update_progress(f"βœ… Video validated ({video_duration:.1f}s)", 5) except Exception as e: self.update_progress(f"❌ Video validation failed", 0) raise e os.makedirs(self.output_folder, exist_ok=True) selected_count = len(self.selected_clips_data) self.update_progress(f"πŸ“Š Generating {selected_count} selected clips", 10) for i, (start, end) in enumerate(self.selected_clips_data): self.update_progress(f"πŸ—£οΈ Transcribing clip {i+1}/{selected_count}", 20 + (i * 30)) subtitles = transcribe_and_extract_subtitles(self.video_path, start, end) out_path = os.path.join(self.output_folder, f"short_{i+1}.mp4") self.update_progress(f"🎬 Creating video {i+1}/{selected_count}", 40 + (i * 30)) create_short_clip(self.video_path, start, end, subtitles, out_path) self.update_progress("βœ… Selected clips generated successfully!", 100) messagebox.showinfo("Success", f"Successfully generated {selected_count} selected clips in '{self.output_folder}' folder!") except FileNotFoundError as e: messagebox.showerror("File Error", str(e)) except ValueError as e: messagebox.showerror("Video Error", str(e)) except RuntimeError as e: messagebox.showerror("System Error", str(e)) except Exception as e: messagebox.showerror("Error", f"An unexpected error occurred: {str(e)}") finally: self.generate_btn.config(state="normal", text="🎬 Generate Shorts") self.progress_bar["value"] = 0 self.progress_label.config(text="Ready to generate shorts") def update_progress(self, message, percent): self.progress_label.config(text=message) self.progress_bar["value"] = percent self.root.update() def show_detection_progress(self): """Show the detection progress bar""" self.detection_progress_label.pack(after=self.progress_bar) self.detection_progress_bar.pack(after=self.detection_progress_label, pady=(0, 3)) self.root.update_idletasks() def hide_detection_progress(self): """Hide the detection progress bar""" self.detection_progress_label.pack_forget() self.detection_progress_bar.pack_forget() self.root.update_idletasks() def update_detection_progress(self, message, percent): """Update detection progress bar and message""" self.detection_progress_label.config(text=message) self.detection_progress_bar["value"] = percent self.root.update_idletasks() def generation_worker(self): try: # Check available disk space import shutil free_space_gb = shutil.disk_usage(self.output_folder)[2] / (1024**3) if free_space_gb < 1: raise RuntimeError(f"Insufficient disk space. Only {free_space_gb:.1f} GB available. Need at least 1 GB.") # Show detection progress for heavy modes detection_mode = self.detection_mode_var.get() if detection_mode in ["scene", "motion", "speech", "peaks", "combined"]: self.show_detection_progress() def detailed_progress_callback(status, percent): # Update main progress self.update_progress(status, percent) def detection_progress_callback(detection_percent, detection_status): # Update detection progress bar self.update_detection_progress(detection_status, detection_percent) # Pass both callbacks to generate_shorts generate_shorts( self.video_path, max_clips=self.clips_var.get() if self.use_max_clips.get() else 10, output_folder=self.output_folder, progress_callback=detailed_progress_callback, detection_progress_callback=detection_progress_callback, threshold_db=self.threshold_var.get(), clip_duration=self.duration_var.get(), detection_mode=detection_mode ) else: # Use regular progress for loud moments mode generate_shorts( self.video_path, max_clips=self.clips_var.get() if self.use_max_clips.get() else 10, output_folder=self.output_folder, progress_callback=self.update_progress, threshold_db=self.threshold_var.get(), clip_duration=self.duration_var.get(), detection_mode=detection_mode ) messagebox.showinfo("Success", f"Successfully generated shorts in '{self.output_folder}' folder!") except FileNotFoundError as e: messagebox.showerror("File Error", str(e)) except ValueError as e: messagebox.showerror("Video Error", str(e)) except RuntimeError as e: messagebox.showerror("System Error", str(e)) except Exception as e: messagebox.showerror("Error", f"An unexpected error occurred: {str(e)}") finally: self.hide_detection_progress() self.generate_btn.config(state="normal", text="🎬 Generate Shorts") self.progress_bar["value"] = 0 self.progress_label.config(text="Ready to generate shorts") def start_generation(self): if not self.video_path: messagebox.showwarning("Warning", "Please select a video file first!") return self.generate_btn.config(state="disabled", text="Generating...") thread = threading.Thread(target=self.generation_worker) thread.daemon = True thread.start() def open_shorts_editor(self): """Open the professional shorts editor""" editor = ShortsEditorGUI(self.root, self.output_folder) editor.open_editor() def open_thumbnail_editor(self): """Open the professional thumbnail editor""" # Import the thumbnail editor try: import subprocess import sys # Check if there are any video files to work with video_files = [] # Check for original video if self.video_path: video_files.append(("Original Video", self.video_path)) # Check for generated shorts if os.path.exists(self.output_folder): import glob shorts = glob.glob(os.path.join(self.output_folder, "*.mp4")) for short in shorts: video_files.append((os.path.basename(short), short)) if not video_files: messagebox.showinfo("No Videos Found", "Please select a video or generate some shorts first!") return # If only one video, open it directly if len(video_files) == 1: selected_video = video_files[0][1] else: # Let user choose which video to edit choice_window = tk.Toplevel(self.root) choice_window.title("Select Video for Thumbnail") choice_window.geometry("400x300") choice_window.transient(self.root) choice_window.grab_set() tk.Label(choice_window, text="πŸ“Έ Select Video for Thumbnail Creation", font=("Arial", 12, "bold")).pack(pady=10) selected_video = None def on_video_select(video_path): nonlocal selected_video selected_video = video_path choice_window.destroy() # Create list of videos for display_name, video_path in video_files: btn = tk.Button(choice_window, text=f"πŸ“Ή {display_name}", command=lambda vp=video_path: on_video_select(vp), font=("Arial", 10), pady=5, width=40) btn.pack(pady=2, padx=20, fill="x") tk.Button(choice_window, text="Cancel", command=choice_window.destroy).pack(pady=10) # Wait for selection choice_window.wait_window() if not selected_video: return # Import and open thumbnail editor from thumbnail_editor import open_thumbnail_editor open_thumbnail_editor(selected_video) except ImportError as e: messagebox.showerror("Thumbnail Editor Error", f"Could not load thumbnail editor:\n{str(e)}\n\nMake sure thumbnail_editor.py is in the same folder.") except Exception as e: messagebox.showerror("Error", f"Failed to open thumbnail editor:\n{str(e)}") def run_gui(): root = tk.Tk() app = ShortsGeneratorGUI(root) root.mainloop() if __name__ == "__main__": import sys if len(sys.argv) > 1 and sys.argv[1] != "--gui": # Run command line mode try: generate_shorts(sys.argv[1]) print("βœ… Shorts generation completed successfully!") except Exception as e: print(f"❌ Error: {str(e)}") else: # Run GUI mode (default) run_gui()