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Chart-GPT / wbs_diagram_generator.py

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	import graphviz
	import json
	from tempfile import NamedTemporaryFile
	import os

	def generate_wbs_diagram(json_input: str, output_format: str) -> str:
	"""
	Generates a Work Breakdown Structure (WBS) Diagram from JSON input.

	Args:
	json_input (str): A JSON string describing the WBS structure.
	It must follow the Expected JSON Format Example below.

	Expected JSON Format Example:
	{
	"project_title": "AI Model Development Project",
	"phases": [
	{
	"id": "phase_prep",
	"label": "Preparation",
	"tasks": [
	{
	"id": "task_1_1_vision",
	"label": "Identify Vision",
	"subtasks": [
	{
	"id": "subtask_1_1_1_design_staff",
	"label": "Design & Staffing",
	"sub_subtasks": [
	{
	"id": "ss_task_1_1_1_1_env_setup",
	"label": "Environment Setup",
	"sub_sub_subtasks": [
	{
	"id": "sss_task_1_1_1_1_1_lib_install",
	"label": "Install Libraries",
	"final_level_tasks": [
	{"id": "ft_1_1_1_1_1_1_data_access", "label": "Grant Data Access"}
	]
	}
	]
	}
	]
	}
	]
	}
	]
	},
	{
	"id": "phase_plan",
	"label": "Planning",
	"tasks": [
	{
	"id": "task_2_1_cost_analysis",
	"label": "Cost Analysis",
	"subtasks": [
	{
	"id": "subtask_2_1_1_benefit_analysis",
	"label": "Benefit Analysis",
	"sub_subtasks": [
	{
	"id": "ss_task_2_1_1_1_risk_assess",
	"label": "AI Risk Assessment",
	"sub_sub_subtasks": [
	{
	"id": "sss_task_2_1_1_1_1_model_selection",
	"label": "Model Selection",
	"final_level_tasks": [
	{"id": "ft_2_1_1_1_1_1_data_strategy", "label": "Data Strategy"}
	]
	}
	]
	}
	]
	}
	]
	}
	]
	},
	{
	"id": "phase_dev",
	"label": "Development",
	"tasks": [
	{
	"id": "task_3_1_change_mgmt",
	"label": "Data Preprocessing",
	"subtasks": [
	{
	"id": "subtask_3_1_1_implementation",
	"label": "Feature Engineering",
	"sub_subtasks": [
	{
	"id": "ss_task_3_1_1_1_beta_testing",
	"label": "Model Training",
	"sub_sub_subtasks": [
	{
	"id": "sss_task_3_1_1_1_1_other_task",
	"label": "Model Evaluation",
	"final_level_tasks": [
	{"id": "ft_3_1_1_1_1_1_hyperparam_tune", "label": "Hyperparameter Tuning"}
	]
	}
	]
	}
	]
	}
	]
	}
	]
	}
	]
	}

	Returns:
	str: The filepath to the generated PNG image file.
	"""
	try:
	if not json_input.strip():
	return "Error: Empty input"

	data = json.loads(json_input)

	if 'project_title' not in data or 'phases' not in data:
	raise ValueError("Missing required fields: project_title or phases")

	# 한글 폰트 설정
	# GDFONTPATH가 설정되어 있으면 폰트 파일명(확장자 제외) 사용
	korean_font = 'NanumGothic-Regular'

	dot = graphviz.Digraph(
	name='WBSDiagram',
	graph_attr={
	'rankdir': 'TB', # Top-to-Bottom hierarchy
	'splines': 'polyline', # polyline으로 변경 (ortho 대신)
	'bgcolor': 'white', # White background
	'pad': '0.5', # Padding
	'ranksep': '0.6', # Adjust vertical separation between ranks
	'nodesep': '0.5', # Adjust horizontal separation between nodes
	'fontname': korean_font, # 그래프 전체 한글 폰트
	'charset': 'UTF-8' # UTF-8 인코딩
	},
	node_attr={
	'fontname': korean_font # 모든 노드의 기본 폰트
	},
	edge_attr={
	'fontname': korean_font # 모든 엣지의 기본 폰트
	}
	)

	base_color = '#19191a' # Hardcoded base color

	# ID 정규화 함수 - 한글 ID를 안전한 형태로 변환
	def normalize_id(id_str):
	"""노드 ID를 안전한 형태로 변환"""
	import re
	# 영문, 숫자, 언더스코어만 허용
	safe_id = re.sub(r'[^a-zA-Z0-9_]', '_', str(id_str))
	# 숫자로 시작하면 'n_' 접두사 추가
	if safe_id and safe_id[0].isdigit():
	safe_id = 'n_' + safe_id
	# 빈 문자열이면 기본값
	if not safe_id:
	safe_id = 'node_' + str(hash(id_str))
	return safe_id

	# Project Title node (main node)
	dot.node(
	'project_root',
	data['project_title'],
	shape='box',
	style='filled,rounded',
	fillcolor=base_color,
	fontcolor='white',
	fontsize='18',
	fontname=korean_font # 한글 폰트 추가
	)

	# Helper for color and font based on depth for WBS
	def get_gradient_color(depth, base_hex_color, lightening_factor=0.12):
	base_r = int(base_hex_color[1:3], 16)
	base_g = int(base_hex_color[3:5], 16)
	base_b = int(base_hex_color[5:7], 16)

	current_r = base_r + int((255 - base_r) * depth * lightening_factor)
	current_g = base_g + int((255 - base_g) * depth * lightening_factor)
	current_b = base_b + int((255 - base_b) * depth * lightening_factor)

	return f'#{min(255, current_r):02x}{min(255, current_g):02x}{min(255, current_b):02x}'

	def get_font_color_for_background(depth, base_hex_color, lightening_factor=0.12):
	base_r = int(base_hex_color[1:3], 16)
	base_g = int(base_hex_color[3:5], 16)
	base_b = int(base_hex_color[5:7], 16)
	current_r = base_r + (255 - base_r) * depth * lightening_factor
	current_g = base_g + (255 - base_g) * depth * lightening_factor
	current_b = base_b + (255 - base_b) * depth * lightening_factor

	luminance = (0.2126 * current_r + 0.7152 * current_g + 0.0722 * current_b) / 255
	return 'white' if luminance < 0.5 else 'black'

	def _add_wbs_nodes_recursive(parent_id, current_level_tasks, current_depth):
	for task_data in current_level_tasks:
	task_id = task_data.get('id')
	task_label = task_data.get('label')

	if not all([task_id, task_label]):
	raise ValueError(f"Invalid task data at depth {current_depth}: {task_data}")

	# ID 정규화
	safe_task_id = normalize_id(task_id)

	node_fill_color = get_gradient_color(current_depth, base_color)
	node_font_color = get_font_color_for_background(current_depth, base_color)
	font_size = max(9, 14 - (current_depth * 2))

	dot.node(
	safe_task_id,
	task_label,
	shape='box',
	style='filled,rounded',
	fillcolor=node_fill_color,
	fontcolor=node_font_color,
	fontsize=str(font_size),
	fontname=korean_font # 한글 폰트 추가
	)
	dot.edge(parent_id, safe_task_id, color='#4a4a4a', arrowhead='none', fontname=korean_font)

	# Recursively call for next level of tasks (subtasks, sub_subtasks, etc.)
	# This handles arbitrary nested keys like 'subtasks', 'sub_subtasks', 'final_level_tasks'
	next_level_keys = ['tasks', 'subtasks', 'sub_subtasks', 'sub_sub_subtasks', 'final_level_tasks']
	for key_idx, key in enumerate(next_level_keys):
	if key in task_data and isinstance(task_data[key], list):
	_add_wbs_nodes_recursive(safe_task_id, task_data[key], current_depth + 1)
	break # Only process the first found sub-level key

	# Process phases (level 1 from project_root)
	phase_depth = 1
	for phase in data['phases']:
	phase_id = phase.get('id')
	phase_label = phase.get('label')

	if not all([phase_id, phase_label]):
	raise ValueError(f"Invalid phase data: {phase}")

	# ID 정규화
	safe_phase_id = normalize_id(phase_id)

	phase_fill_color = get_gradient_color(phase_depth, base_color)
	phase_font_color = get_font_color_for_background(phase_depth, base_color)
	font_size_phase = max(9, 14 - (phase_depth * 2))

	dot.node(
	safe_phase_id,
	phase_label,
	shape='box',
	style='filled,rounded',
	fillcolor=phase_fill_color,
	fontcolor=phase_font_color,
	fontsize=str(font_size_phase),
	fontname=korean_font # 한글 폰트 추가
	)
	dot.edge('project_root', safe_phase_id, color='#4a4a4a', arrowhead='none', fontname=korean_font)

	# Start recursion for tasks under this phase
	if 'tasks' in phase and isinstance(phase['tasks'], list):
	_add_wbs_nodes_recursive(safe_phase_id, phase['tasks'], phase_depth + 1)

	# 렌더링
	try:
	with NamedTemporaryFile(delete=False, suffix='.gv', prefix='wbs_') as tmp:
	# 파일 이름에서 .gv 확장자 제거
	output_filename = tmp.name[:-3] # '.gv' 제거
	output_path = dot.render(output_filename, format=output_format, cleanup=True)
	return output_path
	except Exception as render_error:
	# 렌더링 실패 시 간단한 에러 메시지
	return f"Error: Failed to render diagram - {str(render_error).split(';')[0]}"

	except json.JSONDecodeError as e:
	return "Error: Invalid JSON format"
	except Exception as e:
	# 에러 메시지를 간단하게 유지
	error_msg = str(e).split('\n')[0] # 첫 줄만 사용
	if len(error_msg) > 100:
	error_msg = error_msg[:100] + "..."
	return f"Error: {error_msg}"