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import pandas as pd
import numpy as np
import gradio as gr
from sklearn.preprocessing import MinMaxScaler, OneHotEncoder
from sklearn.metrics.pairwise import cosine_similarity
from sklearn.neighbors import NearestNeighbors
CSV_PATH = "all-vehicles-model@public.csv"
# ===== 讟注讬谞转 谞转讜谞讬诐 讘讘讟讞讛 =====
def read_csv_safely(path):
try:
return pd.read_csv(path, sep=";", encoding="utf-8", engine="python")
except Exception:
return pd.read_csv(path, encoding="utf-8")
df = read_csv_safely(CSV_PATH)
# 注诪讜讚讜转 注讬拽专讬讜转
FUEL_COL = "Fuel Type1" if "Fuel Type1" in df.columns else ("Fuel Type" if "Fuel Type" in df.columns else None)
TRANS_COL = "Transmission" if "Transmission" in df.columns else None
DRIVE_COL = "Drive" if "Drive" in df.columns else None
YEAR_COL = "Year" if "Year" in df.columns else None
MAKE_COL = "Make" if "Make" in df.columns else None
MODEL_COL = "Model" if "Model" in df.columns else None
# 讛诪专讜转 谞讜诪专讬讜转 砖讻讬讞讜转
for c in [
"City Mpg For Fuel Type1","Highway Mpg For Fuel Type1","Combined Mpg For Fuel Type1",
"Annual Fuel Cost For Fuel Type1","Epa Range For Fuel Type2","Engine displacement","Cylinders",
YEAR_COL
]:
if c and c in df.columns:
df[c] = pd.to_numeric(df[c], errors="coerce")
# ===== 讗讜驻爪讬讜转 诇讚专讜驻讚讗讜谞讬诐 =====
def unique_opts(col, default=None, limit=120):
if col and col in df.columns:
vals = (
df[col].dropna().astype(str).str.strip()
.replace("", pd.NA).dropna().unique().tolist()
)
vals = sorted(vals)[:limit]
if default is None:
return vals
return [default] + vals
return [default] if default else []
TRANS_OPTS = ["No preference", "Automatic (all)", "Manual (all)"] + unique_opts(TRANS_COL, None)
FUEL_OPTS = unique_opts(FUEL_COL, "No preference")
_drive_from_data = unique_opts(DRIVE_COL, None)
if not _drive_from_data:
_drive_from_data = ["2-Wheel Drive","4-Wheel Drive","All Wheel Drive"]
DRIVE_OPTS = ["No preference"] + _drive_from_data
# ===== 驻讬诇讟专讬诐 =====
def filter_by_fuel(df_in, sel):
if not FUEL_COL or sel == "No preference":
return df_in
s = df_in[FUEL_COL].astype(str)
return df_in[s.str.contains(sel, case=False, na=False)]
def filter_by_transmission(df_in, sel):
if not TRANS_COL or sel == "No preference":
return df_in
s = df_in[TRANS_COL].astype(str)
if sel == "Automatic (all)":
return df_in[s.str.contains("auto", case=False, na=False)]
if sel == "Manual (all)":
return df_in[s.str.contains("man", case=False, na=False)]
return df_in[s.str.strip().str.lower() == sel.strip().lower()]
def filter_by_drive(df_in, sel):
if not DRIVE_COL or sel == "No preference":
return df_in
s = df_in[DRIVE_COL].astype(str)
return df_in[s.str.contains(sel, case=False, na=False)]
def filter_by_vintage(df_in, kind):
if not YEAR_COL or kind == "No preference":
return df_in
cutoff = pd.Timestamp.now().year - 30
y = pd.to_numeric(df_in[YEAR_COL], errors="coerce")
if kind == "Vintage":
return df_in[y <= cutoff]
if kind == "Regular":
return df_in[y > cutoff]
return df_in
# ===== 驻讬爪'专讬诐 诇讻诇诇 讛讚讗讟讛 =====
NUM_COLS = [c for c in [
"City Mpg For Fuel Type1","Highway Mpg For Fuel Type1","Combined Mpg For Fuel Type1",
"Annual Fuel Cost For Fuel Type1","Epa Range For Fuel Type2","Engine displacement","Cylinders",
YEAR_COL
] if c and c in df.columns]
CAT_COLS = [c for c in [FUEL_COL,DRIVE_COL] if c and c in df.columns]
if NUM_COLS:
_scaler = MinMaxScaler()
num_mat = _scaler.fit_transform(
df[NUM_COLS].apply(pd.to_numeric, errors="coerce").fillna(df[NUM_COLS].median())
)
else:
_scaler = None
num_mat = np.zeros((len(df), 0))
if CAT_COLS:
_enc = OneHotEncoder(handle_unknown="ignore", sparse_output=False)
cat_mat = _enc.fit_transform(df[CAT_COLS].astype(str))
else:
_enc = None
cat_mat = np.zeros((len(df), 0))
FEATURES = np.concatenate([num_mat, cat_mat], axis=1) if len(df) else np.zeros((0,0))
# ===== 讜拽讟讜专 讬注讚 诇诪砖转诪砖 =====
def user_vector(params):
if NUM_COLS:
base = {}
if "Combined Mpg For Fuel Type1" in NUM_COLS:
base["Combined Mpg For Fuel Type1"] = df["Combined Mpg For Fuel Type1"].max()
if "City Mpg For Fuel Type1" in NUM_COLS:
base["City Mpg For Fuel Type1"] = df["City Mpg For Fuel Type1"].median()
if "Highway Mpg For Fuel Type1" in NUM_COLS:
base["Highway Mpg For Fuel Type1"] = df["Highway Mpg For Fuel Type1"].median()
if "Annual Fuel Cost For Fuel Type1" in NUM_COLS:
base["Annual Fuel Cost For Fuel Type1"] = df["Annual Fuel Cost For Fuel Type1"].min()
if "Epa Range For Fuel Type2" in NUM_COLS:
base["Epa Range For Fuel Type2"] = df["Epa Range For Fuel Type2"].max()
if "Engine displacement" in NUM_COLS:
base["Engine displacement"] = df["Engine displacement"].median()
if "Cylinders" in NUM_COLS:
base["Cylinders"] = df["Cylinders"].median()
if YEAR_COL in NUM_COLS:
cutoff = pd.Timestamp.now().year - 30
base[YEAR_COL] = df[YEAR_COL].max() if params.get("vintage")=="Regular" else cutoff
for c in NUM_COLS:
if c not in base:
base[c] = df[c].median()
user_num = _scaler.transform(pd.DataFrame([base])[NUM_COLS]) if _scaler else np.zeros((1,0))
else:
user_num = np.zeros((1,0))
if CAT_COLS:
crow = {c:"" for c in CAT_COLS}
if FUEL_COL in CAT_COLS and params.get("fuel_pref") and params["fuel_pref"]!="No preference":
crow[FUEL_COL] = params["fuel_pref"]
if DRIVE_COL in CAT_COLS and params.get("drive_pref") and params["drive_pref"]!="No preference":
crow[DRIVE_COL] = params["drive_pref"]
user_cat = _enc.transform(pd.DataFrame([crow])[CAT_COLS].astype(str))
else:
user_cat = np.zeros((1,0))
return np.concatenate([user_num, user_cat], axis=1)
# ===== KNN 注诇 转转 讛拽讘讜爪讛 注诐 谞驻讬诇讛 诇拽讜住讬谞讜住 =====
def knn_scores_for_filtered(filtered_idx, user_vec, k=50):
feats = FEATURES[filtered_idx, :]
if feats.size == 0:
return np.array([], dtype=int), np.array([])
n = int(min(k, max(1, feats.shape[0])))
nn = NearestNeighbors(n_neighbors=n, metric="cosine")
nn.fit(feats)
dists, inds = nn.kneighbors(user_vec, return_distance=True)
sims = 1.0 - dists[0]
order = inds[0]
return order, sims
# ===== 诇讜讙讬拽转 讛诪诇爪讛 =====
def recommend(usage, daily_km, budget_fuel, fuel_pref, drive_pref, trans_pref,
cargo_need, perf_pref, seats_min, vintage_sel):
data = df.copy()
data = filter_by_fuel(data, fuel_pref)
data = filter_by_transmission(data, trans_pref)
data = filter_by_drive(data, drive_pref)
data = filter_by_vintage(data, vintage_sel)
if len(data)==0 and trans_pref!="No preference":
data = filter_by_transmission(df.copy(), "No preference")
data = filter_by_fuel(data, fuel_pref)
data = filter_by_drive(data, drive_pref)
data = filter_by_vintage(data, vintage_sel)
if len(data)==0 and drive_pref!="No preference":
data = filter_by_drive(df.copy(), "No preference")
data = filter_by_fuel(data, fuel_pref)
data = filter_by_transmission(data, trans_pref)
data = filter_by_vintage(data, vintage_sel)
if len(data)==0 and fuel_pref!="No preference":
data = filter_by_fuel(df.copy(), "No preference")
data = filter_by_transmission(data, trans_pref)
data = filter_by_drive(data, drive_pref)
data = filter_by_vintage(data, vintage_sel)
if len(data)==0:
return pd.DataFrame(columns=[MAKE_COL,MODEL_COL,YEAR_COL,FUEL_COL,TRANS_COL,DRIVE_COL,"Match Score"]), "诇讗 谞诪爪讗讜 专讻讘讬诐. 谞住讛 诇讛专讞讬讘 讘讞讬专讜转."
idx_arr = data.index.to_numpy()
u = user_vector(dict(fuel_pref=fuel_pref, drive_pref=drive_pref, vintage=vintage_sel))
try:
order, sims = knn_scores_for_filtered(idx_arr, u, k=50)
if sims.size == 0:
feats = FEATURES[idx_arr, :]
sims = cosine_similarity(u, feats)[0] if feats.size else np.zeros(len(idx_arr))
order = np.argsort(-sims)
except Exception:
feats = FEATURES[idx_arr, :]
sims = cosine_similarity(u, feats)[0] if feats.size else np.zeros(len(idx_arr))
order = np.argsort(-sims)
data = data.iloc[order].copy()
data["Match Score"] = (sims * 100).round(2)
cols_show = [c for c in [
MAKE_COL, MODEL_COL, YEAR_COL, FUEL_COL, TRANS_COL, DRIVE_COL,
"City Mpg For Fuel Type1" if "City Mpg For Fuel Type1" in data.columns else None,
"Highway Mpg For Fuel Type1" if "Highway Mpg For Fuel Type1" in data.columns else None,
"Combined Mpg For Fuel Type1" if "Combined Mpg For Fuel Type1" in data.columns else None,
"Annual Fuel Cost For Fuel Type1" if "Annual Fuel Cost For Fuel Type1" in data.columns else None,
"Epa Range For Fuel Type2" if "Epa Range For Fuel Type2" in data.columns else None,
"Match Score"
] if c]
top = data.head(10)[cols_show]
return top, f"谞诪爪讗讜 {len(data)} 讚讙诪讬诐 讗讞专讬 住讬谞讜谉. 诪讜爪讙讬诐 讟讜驻 {len(top)}."
# ===== UI =====
with gr.Blocks(title="诪诪诇讬抓 专讻讘讬诐 讞讻诐") as demo:
gr.Markdown("# 诪诪诇讬抓 专讻讘讬诐 讞讻诐\n讘讞专 讛注讚驻讜转 讜拽讘诇 讛转讗诪讜转 注诐 爪讬讜谉 AI. 讗驻砖专 诇讘讞讜专 讙讬专 讻诇诇讬 讗讜 讚讙诐 住驻爪讬驻讬.")
with gr.Row():
usage = gr.Radio(["注讬专","讘讬谞注讬专讜谞讬","诪注讜专讘"], value="诪注讜专讘", label="讗讜驻讬 砖讬诪讜砖")
daily_km = gr.Slider(0, 1000, value=20, step=5, label="谞住讜注讛 讬讜诪讬转 诪诪讜爪注转 讘拽讬诇讜诪讟专讬诐")
budget_fuel = gr.Slider(0, 10000, value=5000, step=100, label="转拽爪讬讘 讚诇拽 讗讜 讞砖诪诇 砖谞转讬")
with gr.Row():
fuel_pref = gr.Dropdown(FUEL_OPTS, value="No preference", label="注讚讬驻讜转 诇住讜讙 讚诇拽")
drive_pref = gr.Dropdown(DRIVE_OPTS, value="No preference", label="讛谞注讛")
trans_pref = gr.Dropdown(TRANS_OPTS, value="No preference", label="转讬讘转 讛讬诇讜讻讬诐")
with gr.Row():
cargo_need = gr.Slider(0, 800, value=360, step=20, label="谞驻讞 诪讟注谉 诪讬谞讬诪诇讬 专爪讜讬")
perf_pref = gr.Slider(0, 1, value=0.85, step=0.05, label="注讚讬驻讜转 1 讘讬爪讜注讬诐 0 讞住讻讜谉")
seats_min = gr.Slider(2, 8, value=2, step=1, label="诪讜砖讘讬诐 诪讬谞讬诪讜诐")
vintage = gr.Radio(["No preference","Regular","Vintage"], value="No preference", label="住讜讙 专讻讘")
btn = gr.Button("诪爪讗 专讻讘讬诐")
out_tbl = gr.Dataframe(interactive=False, wrap=True, label="讛转讗诪讜转 诪讜诪诇爪讜转 . 讟讜驻 10")
status = gr.Markdown("")
btn.click(
fn=recommend,
inputs=[usage, daily_km, budget_fuel, fuel_pref, drive_pref, trans_pref, cargo_need, perf_pref, seats_min, vintage],
outputs=[out_tbl, status]
)
demo.queue().launch()
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