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| import streamlit as st | |
| import plotly.express as px | |
| import pandas as pd | |
| import numpy as np # Asegúrate de importar numpy | |
| from datetime import datetime | |
| import plotly.io as pio | |
| import io | |
| # Configuración de la página | |
| st.set_page_config(page_title="Generador de Gráficos Personalizado", layout="wide") | |
| # Función para convertir HEX a RGBA con transparencia | |
| def hex_to_rgba(hex_color, alpha=1.0): | |
| hex_color = hex_color.lstrip('#') | |
| return f'rgba({int(hex_color[0:2], 16)},{int(hex_color[2:4], 16)},{int(hex_color[4:6], 16)},{alpha})' | |
| # Colores predefinidos | |
| predefined_colors = [ | |
| "#FF5C5C", "#5CCFFF", "#FFA500", "#90EE90", "#9370DB", "#FFD700" | |
| ] | |
| # Lista de fuentes más utilizadas | |
| font_options = [ | |
| "Times New Roman", "Arial", "Helvetica", "Calibri", "Verdana", | |
| "Tahoma", "Georgia", "Garamond", "Courier New", "Brush Script MT" | |
| ] | |
| # Sidebar para la configuración del gráfico | |
| st.sidebar.header("Configuración del Gráfico") | |
| # Título del gráfico | |
| chart_title = st.sidebar.text_input("Título del Gráfico", "Generador de Gráfico") | |
| # Tipo de gráfico | |
| chart_type = st.sidebar.selectbox("Tipo de Gráfico", ["Línea", "Área", "Dispersión", "Barras", "Donut"]) | |
| # Ingresar valores para los ejes | |
| x_values = st.sidebar.text_area("Valores para X (separados por comas)", "2013,2014,2015,2016,2017,2018") | |
| x = x_values.split(",") | |
| # Selector de número de variables Y | |
| num_y_vars = st.sidebar.number_input("Número de variables Y", min_value=1, max_value=100, value=1, step=1, key="num_y_vars") | |
| y_values_list = [] | |
| y_names_list = [] | |
| for i in range(num_y_vars): | |
| if f"y_values_{i}" not in st.session_state: | |
| st.session_state[f"y_values_{i}"] = ','.join([str(np.random.randint(1, 25)) for _ in x]) | |
| y_values = st.sidebar.text_area(f"Valores para Y-{i+1} (separados por comas)", st.session_state[f"y_values_{i}"], key=f"y_values_{i}") | |
| y_name = st.sidebar.text_input(f"Nombre de la Variable Y-{i+1}", f"Variable Y-{i+1}", key=f"y_name_{i}") | |
| y_values_list.append(y_values) | |
| y_names_list.append(y_name) | |
| # Etiquetas personalizadas para los ejes | |
| x_label = st.sidebar.text_input("Etiqueta para el eje X", "X") | |
| y_label = st.sidebar.text_input("Etiqueta para el eje Y", "Y") | |
| # Desplegable de opciones adicionales | |
| with st.sidebar.expander("Opciones Adicionales"): | |
| graph_width = st.slider("Ancho del Gráfico", min_value=400, max_value=1200, value=1000, step=50) | |
| graph_height = st.slider("Alto del Gráfico", min_value=300, max_value=900, value=700, step=50) | |
| font_family = st.selectbox("Fuente del Gráfico", font_options, index=font_options.index("Times New Roman")) | |
| axis_font_size = st.slider("Tamaño de la Fuente de los Ejes", min_value=10, max_value=30, value=24, step=1) | |
| tick_font_size = st.slider("Tamaño de los Números de los Ejes", min_value=8, max_value=24, value=19, step=1) | |
| show_legend = st.checkbox("Mostrar Leyenda", value=True) | |
| # Configuración de la leyenda | |
| legend_font_family = st.selectbox("Fuente de la Leyenda", font_options, index=font_options.index("Arial")) | |
| legend_font_size = st.slider("Tamaño de la Fuente de la Leyenda", min_value=10, max_value=30, value=22, step=1) | |
| opacity = st.slider("Opacidad (%)", min_value=0, max_value=100, value=30, step=1) / 100 | |
| border_width = st.slider("Grosor del Borde", min_value=0.0, max_value=3.0, value=1.5, step=0.1) | |
| border_opacity = st.slider("Opacidad del Borde (%)", min_value=0, max_value=100, value=60, step=1) / 100 | |
| show_grid = st.checkbox("Activar rejilla", value=True) | |
| if chart_type == "Barras" and num_y_vars > 1: | |
| superposed_bars = st.checkbox("Superpuestas", value=True, key="superposed_bars") | |
| else: | |
| superposed_bars = False | |
| if chart_type == "Barras": | |
| horizontal_bars = st.checkbox("Invertidas", key="horizontal_bars") | |
| if chart_type == "Donut": | |
| hole_size = st.slider("Tamaño del agujero (%)", min_value=0, max_value=100, value=30, step=1) / 100 | |
| show_values = st.checkbox("Mostrar valores en el gráfico", value=False) | |
| # Opción para múltiples colores (siempre activada para Donut) | |
| use_multiple_colors = st.sidebar.checkbox("Usar múltiples colores", value=True if chart_type == "Donut" or num_y_vars > 1 else False, key="use_multiple_colors") | |
| # Seleccionar color(es) para el gráfico | |
| selected_color = st.sidebar.color_picker("Color", "#24CBA0", key="single_color") | |
| # Definir colores | |
| if use_multiple_colors: | |
| num_colors = len(x) | |
| colors = [hex_to_rgba(st.sidebar.color_picker(f"Color {i+1}", predefined_colors[i % len(predefined_colors)], key=f"color_{i}"), alpha=opacity) for i in range(num_colors)] | |
| else: | |
| color = hex_to_rgba(selected_color, alpha=opacity) | |
| colors = [color] * len(x) | |
| # Procesar valores | |
| y_values_lists = [[float(i) for i in y_values.split(",") if i.strip()] for y_values in y_values_list] | |
| # Asegurar que todas las listas de Y tengan el mismo tamaño que X | |
| for y_values in y_values_lists: | |
| while len(y_values) < len(x): | |
| y_values.append(0) | |
| while len(y_values) > len(x): | |
| y_values.pop() | |
| # Crear un DataFrame | |
| data = pd.DataFrame({"X": x}) | |
| for idx, y_set in enumerate(y_values_lists): | |
| data[y_names_list[idx]] = y_set | |
| # Configuración común para todos los gráficos | |
| common_layout = dict( | |
| xaxis_title=x_label, | |
| yaxis_title=y_label, | |
| plot_bgcolor="white", | |
| hovermode="x unified", | |
| width=graph_width, | |
| height=graph_height, | |
| margin=dict(l=80, r=40, t=100, b=60), # Ajustar los márgenes para separar el texto de los ejes | |
| xaxis=dict(showgrid=show_grid, zeroline=True, gridcolor='rgba(211,211,211,0.5)', zerolinecolor='rgba(128,128,128,0.5)', autorange=True, | |
| tickfont=dict(size=tick_font_size), title_font=dict(size=axis_font_size)), | |
| yaxis=dict(showgrid=show_grid, zeroline=True, gridcolor='rgba(211,211,211,0.5)', zerolinecolor='rgba(128,128,128,0.5)', autorange=True, | |
| tickfont=dict(size=tick_font_size), title_font=dict(size=axis_font_size)), | |
| font=dict(family=font_family, size=axis_font_size, color="#374151"), | |
| showlegend=show_legend, | |
| legend=dict( | |
| orientation="v", | |
| yanchor="top", | |
| y=1, | |
| xanchor="left", | |
| x=1.02, | |
| font=dict(family=legend_font_family, size=legend_font_size) | |
| ) | |
| ) | |
| # Generar el gráfico basado en el tipo seleccionado | |
| if chart_type == "Línea": | |
| fig = px.line(data, x="X", y=y_names_list, line_shape="spline") | |
| fig.update_traces(hovertemplate='<b>%{y}</b>', line=dict(width=border_width)) # Aplicar el grosor del borde a línea | |
| if use_multiple_colors: | |
| for i, name in enumerate(y_names_list): | |
| fig.update_traces(selector=dict(name=name), line_color=colors[i % len(colors)]) | |
| else: | |
| fig.update_traces(line_color=color) | |
| elif chart_type == "Área": | |
| fig = px.area(data, x="X", y=y_names_list, line_shape="spline") | |
| fig.update_traces(hovertemplate='<b>%{y}</b>', line=dict(width=border_width), fillcolor=color) | |
| if use_multiple_colors: | |
| for i, name in enumerate(y_names_list): | |
| fig.update_traces(selector=dict(name=name), line_color=colors[i % len(colors)], fillcolor=colors[i % len(colors)]) | |
| else: | |
| fig.update_traces(line_color=color, fillcolor=color) | |
| elif chart_type == "Dispersión": | |
| fig = px.scatter(data, x="X", y=y_names_list) | |
| fig.update_traces(hovertemplate='<b>%{y}</b>', marker=dict(size=10, line=dict(width=border_width, color=hex_to_rgba('#000000', border_opacity)))) | |
| if use_multiple_colors: | |
| for i, name in enumerate(y_names_list): | |
| fig.update_traces(selector=dict(name=name), marker_color=colors[i % len(colors)], marker_line_color=colors[i % len(colors)]) | |
| else: | |
| fig.update_traces(marker_color=color, marker_line_color=color) | |
| elif chart_type == "Barras": | |
| if horizontal_bars: | |
| fig = px.bar(data, x=y_names_list, y="X", orientation='h', barmode='overlay' if superposed_bars else 'group') | |
| else: | |
| fig = px.bar(data, x="X", y=y_names_list, barmode='overlay' if superposed_bars else 'group') | |
| fig.update_traces(hovertemplate='<b>%{y}</b>', marker=dict(line=dict(width=border_width, color=hex_to_rgba('#000000', border_opacity)))) | |
| if use_multiple_colors: | |
| for i, trace in enumerate(fig.data): | |
| trace.update(marker_color=colors[i % len(colors)]) | |
| else: | |
| fig.update_traces(marker_color=color) | |
| fig.update_layout(bargap=0.2) | |
| elif chart_type == "Donut": | |
| # Generar solo un gráfico Donut y asegurarse de que no haya duplicados | |
| fig = px.pie(data, values=y_values_lists[0], names="X", hole=hole_size, color_discrete_sequence=colors[:len(x)]) | |
| if show_values: | |
| fig.update_traces(hovertemplate='<b>%{label}</b>: %{value} (%{percent})', textinfo='percent+label') | |
| else: | |
| fig.update_traces(hovertemplate='<b>%{label}</b>', textinfo='none') # Ocultar valores y etiquetas | |
| fig.update_traces(marker=dict(colors=colors[:len(x)])) # Aplicar múltiples colores | |
| fig.update_layout( | |
| title=dict( | |
| text=f"{chart_title}", | |
| x=0.5, | |
| y=0.95, | |
| xanchor='center', | |
| yanchor='top', | |
| font=dict( | |
| family=font_family, | |
| size=axis_font_size, | |
| color="#374151" | |
| ) | |
| ), | |
| **common_layout | |
| ) | |
| st.plotly_chart(fig) | |
| # Añadir anotación para el título | |
| if chart_type != "Donut": | |
| fig.update_layout( | |
| title=dict( | |
| text=f"{chart_title}", | |
| x=0.5, | |
| y=0.95, | |
| xanchor='center', | |
| yanchor='top', | |
| font=dict( | |
| family=font_family, | |
| size=axis_font_size, | |
| color="#374151" | |
| ) | |
| ), | |
| legend_title_text='' # Eliminar el texto del título de la leyenda | |
| ) | |
| # Aplicar configuración común | |
| fig.update_layout(**common_layout) | |
| # Aplicar múltiples colores si se seleccionó la opción | |
| if use_multiple_colors and chart_type != "Donut": | |
| for i, trace in enumerate(fig.data): | |
| trace.update(marker_color=colors[i % len(colors)]) | |
| # Mostrar el gráfico | |
| st.plotly_chart(fig) | |
| # Descargar gráfico con mayor resolución usando los valores personalizados | |
| export_as_png = st.button("Descargar gráfico en alta calidad") | |
| if export_as_png: | |
| img_bytes = pio.to_image(fig, format="png", width=graph_width, height=graph_height, scale=6) | |
| st.download_button(label="Descargar imagen", data=img_bytes, file_name="grafico_personalizado.png", mime="image/png") | |
| # Forzar el autoescale | |
| fig.update_layout(xaxis_autorange=True, yaxis_autorange=True) | |
| # Información adicional | |
| st.write("") |