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def extract_report_data(self, content): """Extract structured data from QRP content""" self.report_data = [] # Look for common patterns in QRP files lines = content.split('\n') # Try to find tabular data data_started = False headers = [] for line in lines: if '|' in line or '\t' in line: # Parse delimited data if '|' in line: parts = line.split('|') else: parts = line.split('\t') parts = [p.strip() for p in parts if p.strip()] if parts: if not headers and all(p.isalpha() or ' ' in p for p in parts): headers = parts else: if headers: row_data = dict(zip(headers[:len(parts)], parts)) self.report_data.append(row_data) else: self.report_data.append(f"Column_i": p for i, p in enumerate(parts)) if not self.report_data and lines: # If no structured data found, treat each line as a record for i, line in enumerate(lines[:100]): # Limit to first 100 lines if line.strip(): self.report_data.append(f"Line_i+1": line.strip())
for qrp_file in qrp_files: analyzer = QRPAnalyzer(qrp_file) results.append(analyzer.analyze()) return results Create a requirements.txt file:
def show_raw_data(self): self.notebook.select(self.raw_frame) qrp file viewer
def display_report_data(self): """Display extracted data in tree view""" # Clear existing items for item in self.tree.get_children(): self.tree.delete(item) if not self.report_data: return # Get all unique keys all_keys = set() for row in self.report_data: all_keys.update(row.keys()) columns = list(all_keys) # Configure tree columns self.tree["columns"] = columns for col in columns: self.tree.heading(col, text=col, command=lambda c=col: self.sort_column(c, False)) self.tree.column(col, width=150, minwidth=50) # Add data for row in self.report_data: values = [row.get(col, "") for col in columns] self.tree.insert("", tk.END, values=values)
if == " main ": main() Additional Utility Scripts QRP File Analyzer (analyzer.py): command=lambda c=col: self.sort_column(c
def show_formatted_report(self): self.notebook.select(self.report_frame)
self.current_file = None self.report_data = [] self.create_menu() self.create_widgets() def create_menu(self): menubar = tk.Menu(self.root) self.root.config(menu=menubar) # File menu file_menu = tk.Menu(menubar, tearoff=0) menubar.add_cascade(label="File", menu=file_menu) file_menu.add_command(label="Open QRP File", command=self.open_file, accelerator="Ctrl+O") file_menu.add_command(label="Export to PDF", command=self.export_pdf) file_menu.add_command(label="Export to HTML", command=self.export_html) file_menu.add_separator() file_menu.add_command(label="Exit", command=self.root.quit) # View menu view_menu = tk.Menu(menubar, tearoff=0) menubar.add_cascade(label="View", menu=view_menu) view_menu.add_command(label="Raw Data", command=self.show_raw_data) view_menu.add_command(label="Formatted Report", command=self.show_formatted_report) # Help menu help_menu = tk.Menu(menubar, tearoff=0) menubar.add_cascade(label="Help", menu=help_menu) help_menu.add_command(label="About", command=self.show_about) # Bind shortcuts self.root.bind('<Control-o>', lambda e: self.open_file()) def create_widgets(self): # Main container main_frame = ttk.Frame(self.root, padding="10") main_frame.grid(row=0, column=0, sticky=(tk.W, tk.E, tk.N, tk.S)) # Toolbar toolbar = ttk.Frame(main_frame) toolbar.grid(row=0, column=0, columnspan=2, sticky=(tk.W, tk.E), pady=(0, 10)) ttk.Button(toolbar, text="Open QRP", command=self.open_file).pack(side=tk.LEFT, padx=5) ttk.Button(toolbar, text="Export PDF", command=self.export_pdf).pack(side=tk.LEFT, padx=5) ttk.Button(toolbar, text="Export HTML", command=self.export_html).pack(side=tk.LEFT, padx=5) # Notebook for tabs self.notebook = ttk.Notebook(main_frame) self.notebook.grid(row=1, column=0, columnspan=2, sticky=(tk.W, tk.E, tk.N, tk.S)) # Raw data tab self.raw_frame = ttk.Frame(self.notebook) self.notebook.add(self.raw_frame, text="Raw Data") self.raw_text = ScrolledText(self.raw_frame, wrap=tk.WORD, font=("Courier", 10)) self.raw_text.pack(fill=tk.BOTH, expand=True) # Formatted report tab self.report_frame = ttk.Frame(self.notebook) self.notebook.add(self.report_frame, text="Formatted Report") # Tree view for report self.tree = ttk.Treeview(self.report_frame, show="headings") self.tree.pack(fill=tk.BOTH, expand=True) # Scrollbars v_scrollbar = ttk.Scrollbar(self.report_frame, orient="vertical", command=self.tree.yview) v_scrollbar.pack(side=tk.RIGHT, fill=tk.Y) self.tree.configure(yscrollcommand=v_scrollbar.set) h_scrollbar = ttk.Scrollbar(self.report_frame, orient="horizontal", command=self.tree.xview) h_scrollbar.pack(side=tk.BOTTOM, fill=tk.X) self.tree.configure(xscrollcommand=h_scrollbar.set) # Status bar self.status_bar = ttk.Label(main_frame, text="Ready", relief=tk.SUNKEN, anchor=tk.W) self.status_bar.grid(row=2, column=0, columnspan=2, sticky=(tk.W, tk.E), pady=(10, 0)) # Configure grid weights self.root.columnconfigure(0, weight=1) self.root.rowconfigure(0, weight=1) main_frame.columnconfigure(0, weight=1) main_frame.rowconfigure(1, weight=1) def open_file(self): filename = filedialog.askopenfilename( title="Select QRP File", filetypes=[("QRP files", "*.qrp"), ("All files", "*.*")] ) if filename: self.current_file = filename self.parse_qrp_file(filename) self.status_bar.config(text=f"Loaded: os.path.basename(filename)") def parse_qrp_file(self, filename): """Parse QRP file format (simplified version)""" try: with open(filename, 'rb') as f: content = f.read() # Try to decode as text (QRP files can be binary or text) try: text_content = content.decode('utf-8', errors='ignore') self.raw_text.delete(1.0, tk.END) self.raw_text.insert(1.0, text_content) except: # Binary content - show hex dump hex_dump = self.create_hex_dump(content) self.raw_text.delete(1.0, tk.END) self.raw_text.insert(1.0, hex_dump) # Try to extract structured data self.extract_report_data(text_content) self.display_report_data() except Exception as e: messagebox.showerror("Error", f"Failed to parse file: str(e)") def create_hex_dump(self, data, bytes_per_line=16): """Create hex dump of binary data""" lines = [] for i in range(0, len(data), bytes_per_line): chunk = data[i:i+bytes_per_line] hex_part = ' '.join(f'b:02x' for b in chunk) ascii_part = ''.join(chr(b) if 32 <= b < 127 else '.' for b in chunk) lines.append(f'i:08x: hex_part:<bytes_per_line*3 ascii_part') return '\n'.join(lines) "") for col in columns] self.tree.insert(""
def analyze(self): """Analyze QRP file structure""" stats = 'filename': os.path.basename(self.filepath), 'size': os.path.getsize(self.filepath), 'extension': Path(self.filepath).suffix, 'modified': os.path.getmtime(self.filepath) with open(self.filepath, 'rb') as f: header = f.read(100) stats['header_hex'] = ' '.join(f'b:02x' for b in header[:32]) stats['header_ascii'] = ''.join(chr(b) if 32 <= b < 127 else '.' for b in header[:32]) return stats def batch_process(directory): """Process multiple QRP files""" qrp_files = Path(directory).glob('*.qrp') results = []