from fastapi import FastAPI, Request, HTTPException from fastapi.responses import StreamingResponse from io import BytesIO import matplotlib.pyplot as plt import matplotlib.font_manager as font_manager import numpy as np import pandas as pd from pydantic import BaseModel, Field from sympy import symbols, sympify font_path = 'times_new_roman.ttf' times_new_roman = font_manager.FontProperties(fname=font_path, style='normal') class PlotDataRequest(BaseModel): x_data: list[float] = Field(..., title="X Data", description="Data Series for the X axis") y_data: list[float] = Field(..., title="Y Data", description="Data Series for the Y axis") std_dev_data: list[float] = Field([], title="Error Bars Data", description="Data Series for calculating error bars") label: list[str] = Field("Dataseries", title="Label", description="Label for the data series") color_picker: list[str] = Field(["#000000"], title="Color Picker", description="List of colors to use for the data series") x_label: str = Field("X Axis", title="X Axis Label", description="Label for the X axis") y_label: str = Field("Y Axis", title="Y Axis Label", description="Label for the Y axis") title: str = Field("Plot", title="Title", description="Title of the plot") enable_trendline: bool = Field(True, title="Enable Trendline", description="Enable trendline") enable_grid: bool = Field(False, title="Enable Grid", description="Enable grid") x_axis_scale: str = Field("linear", title="X Axis Scale", description="Scale of the X axis") y_axis_scale: str = Field("linear", title="Y Axis Scale", description="Scale of the Y axis") trendline_equation: str = Field(None, title="Trendline Equation", description="Manually specify the equation for the trendline") constant_line_vals: list[float] = Field([], title="Constant Line Values", description="List of values for the constant line") constant_line_name: list[str] = Field([], title="Constant Line Names", description="List of names for the constant line") app = FastAPI() def plot_data(x_data, y_data, std_dev_data, color_picker, labels, df, title = "Plot", x_label = "X Axis", y_label = "Y Axis", plot_background_color="#ffffff", constant_line=[], enable_trendline=True, enable_grid=False, trendline_color="#000000", x_axis_scale="linear", y_axis_scale="linear", trendline_equation=None): fig, ax = plt.subplots(dpi=300) plots = [] for idx, _ in enumerate(x_data): x = df[x_data[idx]].astype(float) y = df[y_data[idx]].astype(float) color = color_picker[idx] data_series_title = labels[idx] if (std_dev_data[idx] != None): plot = ax.errorbar(x, y, yerr=df[std_dev_data[idx]].astype(float), fmt='o', ecolor='black', capsize=5, color=color, label=data_series_title) else: plot = ax.plot(x, y, 'o', color=color, label=data_series_title) if (type(plot) == list): plots.extend(plot) else: plots.append(plot) handles = plots if enable_trendline: if trendline_equation != None: try: x = symbols('x') p = sympify(trendline_equation) x_range = np.linspace(df[x_data[0]].astype(float).min(), df[x_data[0]].astype(float).max(), 100) y_range = [p.subs(x, i) for i in x_range] h, = ax.plot(x_range, y_range, linestyle="dotted", label="Trendline", color=trendline_color) handles.append(h) except: print("Invalid Equation") else: x = df[x_data[0]].astype(float) y = df[y_data[0]].astype(float) z = np.polyfit(x, y, 2) p = np.poly1d(z) h, = ax.plot(x,p(x), linestyle="dotted", label="Trendline", color=trendline_color) handles.append(h) light_grey = 0.9 dar_grey = 0.4 for idx, line in enumerate(constant_line): val, name = line idx += 1 grey_shade = light_grey - (light_grey - dar_grey) * (idx / len(constant_line)) color = (grey_shade, grey_shade, grey_shade) h = ax.axhline(y=val, linestyle='dashed', dashes=(idx+3,2) , color=color, label=name) handles.append(h) ax.grid(True,linestyle=(0,(1,5))) # enable_grid) ax.set_facecolor(plot_background_color) ax.set_xlabel(x_label, fontproperties=times_new_roman) ax.set_ylabel(y_label, fontproperties=times_new_roman) title = title.replace(' in ', '\nin ') ax.set_title(title, wrap=True, fontproperties=times_new_roman) for label in (ax.get_xticklabels() + ax.get_yticklabels()): label.set_fontproperties(times_new_roman) print(handles) print(handles[0]) print(handles[0].get_label()) labels = [h.get_label() for h in handles] ax.legend(handles, labels, loc='best', prop=times_new_roman) fig.patch.set_facecolor(plot_background_color) fig.tight_layout(pad=3.0) #ax.invert_xaxis() ax.set_xscale(x_axis_scale) ax.set_yscale(y_axis_scale) return fig @app.post("/post") async def create_plot(request: PlotDataRequest, data: Request): print(data) if len(request.x_data) != len(request.y_data): raise HTTPException(status_code=400, detail="X and Y data must be the same length") if len(request.constant_line_vals) != len(request.constant_line_name): raise HTTPException(status_code=400, detail="Constant line values and names must be the same length") constant_line = list(zip(request.constant_line_vals, request.constant_line_name)) # Create DF from request.x_data and request.y_data -> assign column header as x_data and y_data df = pd.DataFrame(list(zip(request.x_data, request.y_data)), columns=["X", "Y"]) # if request.std_dev_data exists, add to df if len(request.std_dev_data) > 0: df["STD_DEV"] = request.std_dev_data x_data = ["X"] y_data = ["Y"] if len(request.std_dev_data) > 0: std_dev_data = ["STD_DEV"] else: std_dev_data = [None] labels = request.label fig = plot_data(x_data, y_data, std_dev_data, request.color_picker, labels, df, title=request.title, x_label=request.x_label, y_label=request.y_label, enable_trendline=request.enable_trendline, enable_grid=request.enable_grid, constant_line=constant_line, x_axis_scale=request.x_axis_scale, y_axis_scale=request.y_axis_scale, trendline_equation=request.trendline_equation) buf = BytesIO() fig.savefig(buf, format="png") buf.seek(0) return StreamingResponse(buf, media_type="image/png")