"""Graphique du nombre de minifigs par personnage.""" from pathlib import Path from typing import List import matplotlib.pyplot as plt from matplotlib.patches import Patch from lib.filesystem import ensure_parent_dir from lib.rebrickable.stats import read_rows GENDER_COLORS = { "male": "#4c72b0", "female": "#c44e52", "unknown": "#7f7f7f", } GENDER_LABELS = { "male": "Homme", "female": "Femme", "unknown": "Inconnu", "": "Inconnu", } def load_counts(path: Path) -> List[dict]: """Charge le CSV des comptes par personnage.""" return read_rows(path) def load_presence(path: Path) -> List[dict]: """Charge le CSV de présence par année/personnage.""" return read_rows(path) def plot_minifigs_per_character(counts_path: Path, destination_path: Path) -> None: """Trace un diagramme en barres horizontales du nombre de minifigs par personnage.""" rows = load_counts(counts_path) characters = [row["known_character"] for row in rows] counts = [int(row["minifig_count"]) for row in rows] genders = [row.get("gender", "") for row in rows] colors = [GENDER_COLORS.get(gender.strip().lower(), GENDER_COLORS["unknown"]) for gender in genders] positions = list(range(len(rows))) height = max(6, len(rows) * 0.22) fig, ax = plt.subplots(figsize=(12, height)) bars = ax.barh(positions, counts, color=colors, edgecolor="#0d0d0d", linewidth=0.6) ax.set_yticks(positions) ax.set_yticklabels(characters) ax.invert_yaxis() ax.set_xlabel("Nombre de minifigs distinctes") ax.set_title("Minifigs par personnage (thèmes filtrés)") ax.grid(True, axis="x", linestyle="--", alpha=0.25) max_value = max(counts) if counts else 0 ax.set_xlim(0, max_value + 1) for index, bar in enumerate(bars): value = counts[index] ax.text(value + 0.1, bar.get_y() + bar.get_height() / 2, str(value), va="center", fontsize=8) legend_entries = [] seen = set() for gender in genders: normalized = gender.strip().lower() if normalized in seen: continue seen.add(normalized) legend_entries.append( Patch( facecolor=GENDER_COLORS.get(normalized, GENDER_COLORS["unknown"]), edgecolor="#0d0d0d", linewidth=0.6, label=GENDER_LABELS.get(normalized, "Inconnu"), ) ) if legend_entries: ax.legend(handles=legend_entries, title="Genre", loc="lower right") ensure_parent_dir(destination_path) fig.tight_layout() fig.savefig(destination_path, dpi=160) plt.close(fig) def plot_character_year_presence(presence_path: Path, destination_path: Path) -> None: """Trace une heatmap indiquant le nombre de minifigs par personnage et par année.""" rows = load_presence(presence_path) if not rows: return years = sorted({int(row["year"]) for row in rows}) characters = sorted( {row["known_character"] for row in rows}, key=lambda name: ( -sum(int(r["minifig_count"]) for r in rows if r["known_character"] == name), name, ), ) matrix = [] for character in characters: row_values = [] for year in years: count = next( (r["minifig_count"] for r in rows if r["known_character"] == character and int(r["year"]) == year), "0", ) row_values.append(int(count)) matrix.append(row_values) height = max(5, len(characters) * 0.35) fig, ax = plt.subplots(figsize=(12, height)) cax = ax.imshow(matrix, aspect="auto", cmap="Greens", interpolation="nearest") ax.set_xticks(range(len(years))) ax.set_xticklabels(years, rotation=45, ha="right") ax.set_yticks(range(len(characters))) ax.set_yticklabels(characters) ax.set_xlabel("Année") ax.set_ylabel("Personnage") ax.set_title("Nombre de minifigs par personnage et par année (hors figurants)") for i, character in enumerate(characters): for j, year in enumerate(years): value = matrix[i][j] if value == 1: ax.text(j, i, "●", ha="center", va="center", color="#0d0d0d", fontsize=7) elif value > 1: ax.text(j, i, str(value), ha="center", va="center", color="#0d0d0d", fontsize=7) fig.colorbar(cax, ax=ax, fraction=0.046, pad=0.04, label="Nombre de minifigs") ensure_parent_dir(destination_path) fig.tight_layout() fig.savefig(destination_path, dpi=160) plt.close(fig)