import re PROMPT_UNIT_PREFIX = "#!PROMPT!:" ENHANCED_PROMPT_PREFIX = "!enhanced!\n" def normalize_multi_prompts_mode(value): if value is None: return "G" if isinstance(value, str): value = value.strip().upper() elif isinstance(value, (int, float)): value = int(value) else: return "G" value = {0: "G", 1: "W", 2: "FG", "": "FG", "0": "G", "1": "W", "2": "FG", "P": "PG"}.get(value, value) return value if value in {"FG", "G", "PG", "W", "PW"} else "G" def split_prompt_units(prompt_text, multi_prompts_gen_type, single_prompt=False, originals=False): prompt_text = prompt_text.replace("\r\n", "\n").replace("\r", "\n") if prompt_text.startswith(ENHANCED_PROMPT_PREFIX): prompt_text = prompt_text[len(ENHANCED_PROMPT_PREFIX):] separator = "\n\n" if "P" in multi_prompts_gen_type else "\n" prefixed_prompts, prefixed_originals, current_prompt_lines = [], [], None for raw_line in prompt_text.split("\n"): if raw_line.startswith(PROMPT_UNIT_PREFIX): if current_prompt_lines is not None: prefixed_prompts.append("\n".join(current_prompt_lines).strip()) current_prompt_lines = [] prefixed_originals.append(raw_line[len(PROMPT_UNIT_PREFIX):].strip()) elif current_prompt_lines is not None: current_prompt_lines.append(raw_line) if current_prompt_lines is not None: prefixed_prompts.append("\n".join(current_prompt_lines).strip()) if prefixed_prompts: if originals: return [prompt for prompt in prefixed_originals if prompt] prefixed_prompts = [prompt for prompt in prefixed_prompts if prompt] if not single_prompt: return prefixed_prompts prompt_text = prefixed_prompts[0] if multi_prompts_gen_type == "FG" else separator.join(prefixed_prompts) prompt_lines = [line.rstrip() for line in prompt_text.split("\n") if not line.strip().startswith("#")] prompt_text = "\n".join(prompt_lines).strip() if not prompt_text: return [] if single_prompt or multi_prompts_gen_type == "FG": return [prompt_text] if "P" in multi_prompts_gen_type: prompts, current_lines = [], [] for raw_line in prompt_text.split("\n"): if not raw_line.strip(): if current_lines: prompts.append("\n".join(current_lines).strip()) current_lines = [] continue current_lines.append(raw_line) if current_lines: prompts.append("\n".join(current_lines).strip()) return prompts return [one_line.strip() for one_line in prompt_text.split("\n") if one_line.strip()] def serialize_prompt_units(prompt_text, prompts, multi_prompts_gen_type): prompt_text = prompt_text.replace("\r\n", "\n").replace("\r", "\n") if prompt_text.startswith(ENHANCED_PROMPT_PREFIX): prompt_text = prompt_text[len(ENHANCED_PROMPT_PREFIX):] prompt_text = prompt_text.strip() if prompt_text.startswith(PROMPT_UNIT_PREFIX): return prompt_text prompts = [prompt.strip() for prompt in prompts if prompt.strip()] if not prompts: return "" return prompts[0] if multi_prompts_gen_type == "FG" else ("\n\n" if "P" in multi_prompts_gen_type else "\n").join(prompts) def serialize_prompt_blocks_with_prefix(prompts, original_prompts=None): blocks = [] prompts = [prompt.strip() for prompt in prompts if prompt.strip()] if original_prompts is None: original_prompts = [] for idx, prompt in enumerate(prompts, start=1): original_prompt = original_prompts[idx - 1] if idx - 1 < len(original_prompts) else f"Prompt {idx}" blocks.append(f"{PROMPT_UNIT_PREFIX} {original_prompt.strip()}\n{prompt}") return "\n\n".join(blocks) def process_template(input_text, keep_comments=False, keep_empty_lines=False): """ Process a text template with macro instructions and variable substitution. Supports multiple values for variables to generate multiple output versions. Each section between macro lines is treated as a separate template. Args: input_text (str): The input template text Returns: tuple: (output_text, error_message) - output_text: Processed output with variables substituted, or empty string if error - error_message: Error description and problematic line, or empty string if no error """ normalized_input = str(input_text or "").replace("\r\n", "\n").replace("\r", "\n") lines = normalized_input.split("\n") if keep_empty_lines else normalized_input.strip().split("\n") current_variables = {} current_template_lines = [] all_output_lines = [] error_message = "" # Process the input line by line line_number = 0 while line_number < len(lines): orig_line = lines[line_number] line = orig_line.strip() line_number += 1 # Skip empty lines or comments if not line: if keep_empty_lines: current_template_lines.append("") continue if line.startswith('#') and not keep_comments: continue # Handle macro instructions if line.startswith('!'): # Process any accumulated template lines before starting a new macro if current_template_lines: # Process the current template with current variables template_output, err = process_current_template(current_template_lines, current_variables) if err: return "", err all_output_lines.extend(template_output) current_template_lines = [] # Reset template lines # Reset variables for the new macro current_variables = {} # Parse the macro line macro_line = line[1:].strip() # Check for unmatched braces in the whole line open_braces = macro_line.count('{') close_braces = macro_line.count('}') if open_braces != close_braces: error_message = f"Unmatched braces: {open_braces} opening '{{' and {close_braces} closing '}}' braces\nLine: '{orig_line}'" return "", error_message # Check for unclosed quotes if macro_line.count('"') % 2 != 0: error_message = f"Unclosed double quotes\nLine: '{orig_line}'" return "", error_message # Split by optional colon separator var_sections = re.split(r'\s*:\s*', macro_line) for section in var_sections: section = section.strip() if not section: continue # Extract variable name var_match = re.search(r'\{([^}]+)\}', section) if not var_match: if '{' in section or '}' in section: error_message = f"Malformed variable declaration\nLine: '{orig_line}'" return "", error_message continue var_name = var_match.group(1).strip() if not var_name: error_message = f"Empty variable name\nLine: '{orig_line}'" return "", error_message # Check variable value format value_part = section[section.find('}')+1:].strip() if not value_part.startswith('='): error_message = f"Missing '=' after variable '{{{var_name}}}'\nLine: '{orig_line}'" return "", error_message # Extract all quoted values var_values = re.findall(r'"([^"]*)"', value_part) # Check if there are values specified if not var_values: error_message = f"No quoted values found for variable '{{{var_name}}}'\nLine: '{orig_line}'" return "", error_message # Check for missing commas between values # Look for patterns like "value""value" (missing comma) if re.search(r'"[^,]*"[^,]*"', value_part): error_message = f"Missing comma between values for variable '{{{var_name}}}'\nLine: '{orig_line}'" return "", error_message # Store the variable values current_variables[var_name] = var_values # Handle template lines else: if not line.startswith('#'): # Check for unknown variables in template line var_references = re.findall(r'\{([^}]+)\}', line) for var_ref in var_references: if var_ref not in current_variables: error_message = f"Unknown variable '{{{var_ref}}}' in template\nLine: '{orig_line}'" return "", error_message # Add to current template lines current_template_lines.append(line) # Process any remaining template lines if current_template_lines: template_output, err = process_current_template(current_template_lines, current_variables) if err: return "", err all_output_lines.extend(template_output) return '\n'.join(all_output_lines), "" def process_current_template(template_lines, variables): """ Process a set of template lines with the current variables. Args: template_lines (list): List of template lines to process variables (dict): Dictionary of variable names to lists of values Returns: tuple: (output_lines, error_message) """ if not variables or not template_lines: return template_lines, "" output_lines = [] # Find the maximum number of values for any variable max_values = max(len(values) for values in variables.values()) # Generate each combination for i in range(max_values): for template in template_lines: output_line = template for var_name, var_values in variables.items(): # Use modulo to cycle through values if needed value_index = i % len(var_values) var_value = var_values[value_index] output_line = output_line.replace(f"{{{var_name}}}", var_value) output_lines.append(output_line) return output_lines, "" def extract_variable_names(macro_line): """ Extract all variable names from a macro line. Args: macro_line (str): A macro line (with or without the leading '!') Returns: tuple: (variable_names, error_message) - variable_names: List of variable names found in the macro - error_message: Error description if any, empty string if no error """ # Remove leading '!' if present if macro_line.startswith('!'): macro_line = macro_line[1:].strip() variable_names = [] # Check for unmatched braces open_braces = macro_line.count('{') close_braces = macro_line.count('}') if open_braces != close_braces: return [], f"Unmatched braces: {open_braces} opening '{{' and {close_braces} closing '}}' braces" # Split by optional colon separator var_sections = re.split(r'\s*:\s*', macro_line) for section in var_sections: section = section.strip() if not section: continue # Extract variable name var_matches = re.findall(r'\{([^}]+)\}', section) for var_name in var_matches: new_var = var_name.strip() if not new_var in variable_names: variable_names.append(new_var) return variable_names, "" def extract_variable_values(macro_line): """ Extract all variable names and their values from a macro line. Args: macro_line (str): A macro line (with or without the leading '!') Returns: tuple: (variables_dict, error_message) - variables_dict: Dictionary mapping variable names to their values - error_message: Error description if any, empty string if no error """ # Remove leading '!' if present if macro_line.startswith('!'): macro_line = macro_line[1:].strip() variables = {} # Check for unmatched braces open_braces = macro_line.count('{') close_braces = macro_line.count('}') if open_braces != close_braces: return {}, f"Unmatched braces: {open_braces} opening '{{' and {close_braces} closing '}}' braces" # Check for unclosed quotes if macro_line.count('"') % 2 != 0: return {}, "Unclosed double quotes" # Split by optional colon separator var_sections = re.split(r'\s*:\s*', macro_line) for section in var_sections: section = section.strip() if not section: continue # Extract variable name var_match = re.search(r'\{([^}]+)\}', section) if not var_match: if '{' in section or '}' in section: return {}, "Malformed variable declaration" continue var_name = var_match.group(1).strip() if not var_name: return {}, "Empty variable name" # Check variable value format value_part = section[section.find('}')+1:].strip() if not value_part.startswith('='): return {}, f"Missing '=' after variable '{{{var_name}}}'" # Extract all quoted values var_values = re.findall(r'"([^"]*)"', value_part) # Check if there are values specified if not var_values: return {}, f"No quoted values found for variable '{{{var_name}}}'" # Check for missing commas between values if re.search(r'"[^,]*"[^,]*"', value_part): return {}, f"Missing comma between values for variable '{{{var_name}}}'" variables[var_name] = var_values return variables, "" def generate_macro_line(variables_dict): """ Generate a macro line from a dictionary of variable names and their values. Args: variables_dict (dict): Dictionary mapping variable names to lists of values Returns: str: A formatted macro line (including the leading '!') """ sections = [] for var_name, values in variables_dict.items(): # Format each value with quotes quoted_values = [f'"{value}"' for value in values] # Join values with commas values_str = ','.join(quoted_values) # Create the variable assignment section = f"{{{var_name}}}={values_str}" sections.append(section) # Join sections with a colon and space for readability return "! " + " : ".join(sections)