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Cycle-Navigator / app.py

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	# -------- app_final.py --------
	import os, json, math, pathlib, re, time, logging, requests
	from datetime import datetime, timedelta
	import numpy as np
	import pandas as pd
	import plotly.graph_objects as go
	import gradio as gr
	import openai
	import torch
	from sentence_transformers import SentenceTransformer, util

	# ────────────────────────── 0. API keys & Brave Search ──────────────────────────
	if "OPENAI_API_KEY" not in os.environ:
	os.environ["OPENAI_API_KEY"] = input("🔑 Enter your OpenAI API key: ").strip()
	openai.api_key = os.environ["OPENAI_API_KEY"]

	BRAVE_KEY = os.getenv("BRAVE_KEY", "")
	BRAVE_ENDPOINT = "https://api.search.brave.com/res/v1/web/search"
	logging.basicConfig(level=logging.INFO)

	# ────────────────────────── 1. Cycle config ──────────────────────────
	CENTER = 2025
	CYCLES = { "K-Wave": 50, "Business": 9, "Finance": 80, "Hegemony": 250 }
	ORDERED_PERIODS = sorted(CYCLES.values())
	COLOR = {9:"#66ff66", 50:"#ff3333", 80:"#ffcc00", 250:"#66ccff"}
	AMPL = {9:0.6, 50:1.0, 80:1.6, 250:4.0}
	PERIOD_BY_CYCLE = {k:v for k,v in CYCLES.items()}

	# ────────────────────────── 2. Load events JSON & embeddings ───────────────────
	EVENTS_PATH = pathlib.Path(__file__).with_name("cycle_events.json")
	with open(EVENTS_PATH, encoding="utf-8") as f:
	RAW_EVENTS = json.load(f)
	EVENTS = {int(item["year"]): item["events"] for item in RAW_EVENTS}

	logging.info("Embedding historical events…")
	_embed_model = SentenceTransformer("sentence-transformers/all-MiniLM-L6-v2")
	_all_sentences = [(yr, ev["event_en"]) for yr, evs in EVENTS.items() for ev in evs]
	_embeddings = _embed_model.encode([s for _, s in _all_sentences], convert_to_tensor=True)

	# 유사 사건 top-3 year 사전
	SIMILAR_MAP = {}
	for idx, (yr, _) in enumerate(_all_sentences):
	scores = util.cos_sim(_embeddings[idx], _embeddings)[0]
	top_idx = torch.topk(scores, 4).indices.tolist()
	sims = [_all_sentences[i][0] for i in top_idx if _all_sentences[i][0] != yr][:3]
	SIMILAR_MAP.setdefault(yr, sims)

	# ────────────────────────── 3. Brave Search helpers ──────────────────────────
	def brave_search(query: str, count: int = 8, freshness_days: int \| None = None):
	if not BRAVE_KEY:
	return []
	params = {"q": query, "count": str(count)}
	if freshness_days:
	dt_from = (datetime.utcnow() - timedelta(days=freshness_days)).strftime("%Y-%m-%d")
	params["freshness"] = dt_from
	try:
	r = requests.get(
	BRAVE_ENDPOINT,
	headers={"Accept": "application/json", "X-Subscription-Token": BRAVE_KEY},
	params=params,
	timeout=15
	)
	raw = r.json().get("web", {}).get("results") or []
	return [{
	"title": r.get("title", ""),
	"url": r.get("url", r.get("link", "")),
	"snippet": r.get("description", r.get("text", "")),
	"host": re.sub(r"https?://(www\.)?", "", r.get("url", "")).split("/")[0]
	} for r in raw[:count]]
	except Exception as e:
	logging.error(f"Brave error: {e}")
	return []

	def format_search_results(query: str) -> str:
	rows = brave_search(query, 6, freshness_days=3)
	if not rows:
	return f"# [Web-Search] No live results for “{query}”.\n"
	hdr = f"# [Web-Search] Top results for “{query}” (last 3 days)\n\n"
	body = "\n".join(
	f"- {r['title']} ({r['host']})\n {r['snippet']}\n [link]({r['url']})"
	for r in rows
	)
	return hdr + body + "\n"

	NEWS_KEYWORDS = {
	"Business": "recession OR GDP slowdown",
	"K-Wave": "breakthrough technology innovation",
	"Finance": "credit cycle debt crisis",
	"Hegemony": "great power rivalry geopolitics"
	}
	def fetch_cycle_news():
	markers = []
	for cyc, kw in NEWS_KEYWORDS.items():
	res = brave_search(kw, 1, freshness_days=2)
	if res:
	markers.append({
	"cycle": cyc,
	"title": res[0]["title"],
	"year": datetime.utcnow().year,
	"url": res[0]["url"]
	})
	return markers
	NEWS_MARKERS = fetch_cycle_news()

	# ────────────────────────── 4. Chart helpers ──────────────────────────
	def half_sine(xs, period, amp):
	phase = np.mod(xs - CENTER, period)
	y = amp * np.sin(np.pi * phase / period)
	y[y < 0] = 0
	return y

	def build_chart(start: int, end: int, lang: str = "KO"):
	xs = np.linspace(start, end, max(1000, (end - start) * 4))
	fig = go.Figure()

	# Gradient towers
	for period in ORDERED_PERIODS:
	base, col = AMPL[period], COLOR[period]
	for frac in np.linspace(base / 30, base, 30):
	fig.add_trace(go.Scatter(
	x=xs, y=half_sine(xs, period, frac),
	mode="lines", line=dict(color=col, width=0.8),
	opacity=0.6, hoverinfo="skip", showlegend=False))
	fig.add_trace(go.Scatter(
	x=xs, y=half_sine(xs, period, base),
	mode="lines", line=dict(color=col, width=1.6),
	hoverinfo="skip", showlegend=False))

	# Events + similar
	text_key = "event_ko" if lang == "KO" else "event_en"
	for yr, evs in EVENTS.items():
	if start <= yr <= end:
	cyc = evs[0]["cycle"]
	period = PERIOD_BY_CYCLE[cyc]
	yv = float(half_sine(np.array([yr]), period, AMPL[period]))
	sim = ", ".join(map(str, SIMILAR_MAP.get(yr, []))) or "None"
	txt = "<br>".join(e[text_key] for e in evs)
	fig.add_trace(go.Scatter(
	x=[yr], y=[yv], mode="markers",
	marker=dict(color="white", size=6),
	customdata=[[cyc, txt, sim]],
	hovertemplate=(
	"Year %{x} • %{customdata[0]}<br>"
	"%{customdata[1]}<br>"
	"Similar: %{customdata[2]}<extra></extra>"
	),
	showlegend=False))

	# Live-news markers
	for m in NEWS_MARKERS:
	if start <= m["year"] <= end:
	p = PERIOD_BY_CYCLE[m["cycle"]]
	yv = float(half_sine(np.array([m["year"]]), p, AMPL[p])) * 1.05
	fig.add_trace(go.Scatter(
	x=[m["year"]], y=[yv], mode="markers+text",
	marker=dict(color="gold", size=8, symbol="star"),
	text=["📰"], textposition="top center",
	customdata=[[m["cycle"], m["title"], m["url"]]],
	hovertemplate=("Live news • %{customdata[0]}<br>"
	"%{customdata[1]}<extra></extra>"),
	showlegend=False))

	# Hover Year trace
	fig.add_trace(go.Scatter(
	x=xs, y=np.full_like(xs, -0.05),
	mode="lines", line=dict(color="rgba(0,0,0,0)", width=1),
	hovertemplate="Year %{x:.0f}<extra></extra>", showlegend=False))

	# Cosmetics
	fig.add_vline(x=CENTER, line_dash="dash", line_color="white", opacity=0.6)
	arrow_y = AMPL[250] * 1.05
	fig.add_annotation(
	x=CENTER - 125, y=arrow_y, ax=CENTER + 125, ay=arrow_y,
	xref="x", yref="y", axref="x", ayref="y",
	showarrow=True, arrowhead=3, arrowsize=1,
	arrowwidth=1.2, arrowcolor="white")
	fig.add_annotation(
	x=CENTER, y=arrow_y + 0.15, text="250 yr",
	showarrow=False, font=dict(color="white", size=10))
	fig.update_layout(
	template="plotly_dark",
	paper_bgcolor="black", plot_bgcolor="black",
	height=500, margin=dict(t=30, l=40, r=40, b=40),
	hoverlabel=dict(bgcolor="#222", font_size=11),
	hovermode="x")
	fig.update_xaxes(title="Year", range=[start, end], showgrid=False)
	fig.update_yaxes(title="Relative amplitude", showticklabels=False, showgrid=False)

	summary = f"Range {start}-{end} \| Events: {sum(1 for y in EVENTS if start <= y <= end)}"
	return fig, summary

	# ────────────────────────── 5. GPT helper ──────────────────────────
	BASE_PROMPT = (
	"당신은 CycleNavigator AI로, 경제사·국제정치·장주기(9y Business, 50y K-Wave, "
	"80y Finance, 250y Hegemony) 분석에 정통한 전문가입니다. "
	"모든 답변은 한국어로 하되 학술적 정확성과 실무적 명료성을 동시에 갖추십시오. "
	"✦ 답변 구조 지침: ① 질문 핵심 요약 → ② 4대 주기와의 관련성 명시 → "
	"③ 역사·데이터 근거 설명 → ④ 시사점·전망 순으로 서술하며, "
	"번호‧글머리표·짧은 문단을 활용해 논리적으로 배열합니다. "
	"✦ 제공된 [Chart summary]는 반드시 해석·인용하고, "
	"객관적 사실·연도·사건을 근거로 합니다. "
	"✦ 근거가 불충분할 땐 ‘확실하지 않습니다’라고 명시해 추측을 피하십시오. "
	"✦ 불필요한 장황함은 삼가고 3개 단락 또는 7개 이하 bullets 내로 요약하십시오."
	)

	def chat_with_gpt(hist, msg, chart_summary):
	msgs = [{"role": "system", "content": BASE_PROMPT}]
	if chart_summary not in ("", "No chart yet."):
	msgs.append({"role": "system", "content": f"[Chart summary]\n{chart_summary}"})
	for u, a in hist:
	msgs.extend([{"role": "user", "content": u}, {"role": "assistant", "content": a}])
	msgs.append({"role": "user", "content": msg})
	return openai.chat.completions.create(
	model="gpt-3.5-turbo",
	messages=msgs,
	max_tokens=600,
	temperature=0.7
	).choices[0].message.content.strip()

	# ────────────────────────── 6. Gradio UI ──────────────────────────

	def create_app():
	with gr.Blocks(
	theme=gr.themes.Soft(),
	css="""
	#discord-badge{position:fixed; bottom:10px; left:50%;
	transform:translateX(-50%);}
	"""
	) as demo:
	gr.Markdown("## 🔭 CycleNavigator (Interactive)")
	gr.Markdown(
	"<sub>"
	"<b>Interactive visual service delivering insights at a glance into the four major long cycles— </b>"
	"<b>Business 9y</b> (credit-investment business cycle) • "
	"<b>K-Wave 50y</b> (long technological-industrial wave) • "
	"<b>Finance 80y</b> (long credit-debt cycle) • "
	"<b>Hegemony 250y</b> (rise & fall of global powers cycle)"
	"<b> —through dynamic charts and AI chat.</b>"
	"</sub>"
	)

	# ── 언어 선택 ───────────────────────────────────────────
	# ── 언어 선택 ───────────────────────────────────────────
	lang_state = gr.State(value="EN") # ① 기본을 EN으로

	lang_radio = gr.Radio(
	["English", "한국어"],
	value="English",
	label="Language / 언어",
	interactive=True
	)

	# 초기 차트·상태 ─────────────────────────────────────────
	chart_summary_state = gr.State(value="No chart yet.")
	fig0, summ0 = build_chart(1500, 2500, lang_state.value) # ② 동일 상태값 사용
	plot = gr.Plot(value=fig0)
	chart_summary_state.value = summ0


	with gr.Row():
	start_year = gr.Number(label="Start Year", value=1500, precision=0)
	end_year = gr.Number(label="End Year", value=2500, precision=0)
	zoom_in = gr.Button("🔍 Zoom In")
	zoom_out = gr.Button("🔎 Zoom Out")

	# ── functions ──
	def refresh(s, e, lang_code):
	fig, summ = build_chart(int(s), int(e), lang_code)
	return fig, summ

	def zoom(s, e, f, lang_code):
	mid = (s + e) / 2
	span = (e - s) * f / 2
	ns, ne = int(mid - span), int(mid + span)
	fig, summ = build_chart(ns, ne, lang_code)
	return ns, ne, fig, summ

	def change_lang(lang_label, s, e):
	code = "KO" if lang_label == "한국어" else "EN"
	fig, summ = build_chart(int(s), int(e), code)
	return code, fig, summ

	# ── event wiring ──
	start_year.change(refresh, [start_year, end_year, lang_state], [plot, chart_summary_state])
	end_year.change(refresh, [start_year, end_year, lang_state], [plot, chart_summary_state])

	zoom_in.click(
	lambda s, e, lc: zoom(s, e, 0.5, lc),
	[start_year, end_year, lang_state],
	[start_year, end_year, plot, chart_summary_state]
	)
	zoom_out.click(
	lambda s, e, lc: zoom(s, e, 2.0, lc),
	[start_year, end_year, lang_state],
	[start_year, end_year, plot, chart_summary_state]
	)

	lang_radio.change(
	change_lang,
	[lang_radio, start_year, end_year],
	[lang_state, plot, chart_summary_state]
	)

	gr.File(value=str(EVENTS_PATH), label="Download cycle_events.json")

	with gr.Tabs():
	with gr.TabItem("Deep Research Chat"):
	chatbot = gr.Chatbot(label="Assistant")
	user_input = gr.Textbox(lines=3, placeholder="메시지를 입력하세요…")
	with gr.Row():
	send_btn = gr.Button("Send", variant="primary")
	web_btn = gr.Button("🔎 Web Search")

	def respond(hist, msg, summ):
	reply = chat_with_gpt(hist, msg, summ)
	hist.append((msg, reply))
	return hist, gr.Textbox(value="")

	def respond_ws(hist, msg, summ):
	md = format_search_results(msg)
	reply = chat_with_gpt(hist, f"{msg}\n\n{md}", summ)
	hist.append((f"{msg}\n\n(웹검색)", reply))
	return hist, gr.Textbox(value="")

	send_btn.click(respond,
	[chatbot, user_input, chart_summary_state],
	[chatbot, user_input])
	user_input.submit(respond,
	[chatbot, user_input, chart_summary_state],
	[chatbot, user_input])
	web_btn.click(respond_ws,
	[chatbot, user_input, chart_summary_state],
	[chatbot, user_input])

	# ── fixed Discord badge ──
	gr.HTML(
	'<a href="https://discord.gg/openfreeai" target="_blank" id="discord-badge">'
	'<img src="https://img.shields.io/static/v1?label=Discord&message=Openfree%20AI&'
	'color=%230000ff&labelColor=%23800080&logo=discord&logoColor=white&style=for-the-badge"'
	' alt="badge"></a>'
	)

	return demo

	# ────────────────────────── main ──────────────────────────
	if __name__ == "__main__":
	create_app().launch()