APEX_AIMBOT/customScripts/Villageslayer/main_onnx.py

import onnxruntime as ort
import numpy as np
import gc
import numpy as np
import cv2
import time
import win32api
import win32con
import pandas as pd
from utils.general import (cv2, non_max_suppression, xyxy2xywh)
from mouse_driver.MouseMove import mouse_move as ghub_move
import torch

# Could be do with
# from config import *
# But we are writing it out for clarity for new devs
from config import aaMovementAmp, useMask, maskHeight, maskWidth, aaQuitKey, confidence, headshot_mode, cpsDisplay, visuals, onnxChoice, centerOfScreen
import gameSelection

def main():
    # External Function for running the game selection menu (gameSelection.py)
    camera, cWidth, cHeight = gameSelection.gameSelection()

    # Used for forcing garbage collection
    count = 0
    sTime = time.time()

    # Choosing the correct ONNX Provider based on config.py
    onnxProvider = ""
    if onnxChoice == 1:
        onnxProvider = "CPUExecutionProvider"
    elif onnxChoice == 2:
        onnxProvider = "DmlExecutionProvider"
    elif onnxChoice == 3:
        import cupy as cp
        onnxProvider = "CUDAExecutionProvider"

    so = ort.SessionOptions()
    so.graph_optimization_level = ort.GraphOptimizationLevel.ORT_ENABLE_ALL
    ort_sess = ort.InferenceSession('RRRR.onnx', sess_options=so, providers=[
                                    onnxProvider])

    # Used for colors drawn on bounding boxes
    COLORS = np.random.uniform(0, 255, size=(1500, 3))

    # Main loop Quit if Q is pressed
    last_mid_coord = None
    while win32api.GetAsyncKeyState(ord(aaQuitKey)) == 0:

        # Getting Frame
        npImg = np.array(camera.get_latest_frame())

        from config import maskSide # "temporary" workaround for bad syntax
        if useMask:
            maskSide = maskSide.lower()
            if maskSide == "right":
                npImg[-maskHeight:, -maskWidth:, :] = 0
            elif maskSide == "left":
                npImg[-maskHeight:, :maskWidth, :] = 0
            else:
                raise Exception('ERROR: Invalid maskSide! Please use "left" or "right"')

        # If Nvidia, do this
        if onnxChoice == 3:
            # Normalizing Data
            im = torch.from_numpy(npImg).to('cuda')
            if im.shape[2] == 4:
                # If the image has an alpha channel, remove it
                im = im[:, :, :3,]

            im = torch.movedim(im, 2, 0)
            im = im.half()
            im /= 255
            if len(im.shape) == 3:
                im = im[None]
        # If AMD or CPU, do this
        else:
            # Normalizing Data
            im = np.array([npImg])
            if im.shape[3] == 4:
                # If the image has an alpha channel, remove it
                im = im[:, :, :, :3]
            im = im / 255
            im = im.astype(np.half)
            im = np.moveaxis(im, 3, 1)

        # If Nvidia, do this
        if onnxChoice == 3:
            outputs = ort_sess.run(None, {'images': cp.asnumpy(im)})
        # If AMD or CPU, do this
        else:
            outputs = ort_sess.run(None, {'images': np.array(im)})

        im = torch.from_numpy(outputs[0]).to('cpu')

        pred = non_max_suppression(
            im, confidence, confidence, 0, False, max_det=10)

        targets = []
        for i, det in enumerate(pred):
            s = ""
            gn = torch.tensor(im.shape)[[0, 0, 0, 0]]
            if len(det):
                for c in det[:, -1].unique():
                    n = (det[:, -1] == c).sum()  # detections per class
                    s += f"{n} {int(c)}, "  # add to string

                for *xyxy, conf, cls in reversed(det):
                    targets.append((xyxy2xywh(torch.tensor(xyxy).view(
                        1, 4)) / gn).view(-1).tolist() + [float(conf)])  # normalized xywh

        targets = pd.DataFrame(
            targets, columns=['current_mid_x', 'current_mid_y', 'width', "height", "confidence"])

        center_screen = [cWidth, cHeight]

        # If there are people in the center bounding box
        if len(targets) > 0:
            if (centerOfScreen):
                # Compute the distance from the center
                targets["dist_from_center"] = np.sqrt((targets.current_mid_x - center_screen[0])**2 + (targets.current_mid_y - center_screen[1])**2)

                # Sort the data frame by distance from center
                targets = targets.sort_values("dist_from_center")

            # Get the last persons mid coordinate if it exists
            if last_mid_coord:
                targets['last_mid_x'] = last_mid_coord[0]
                targets['last_mid_y'] = last_mid_coord[1]
                # Take distance between current person mid coordinate and last person mid coordinate
                targets['dist'] = np.linalg.norm(
                    targets.iloc[:, [0, 1]].values - targets.iloc[:, [4, 5]], axis=1)
                targets.sort_values(by="dist", ascending=False)

            # Take the first person that shows up in the dataframe (Recall that we sort based on Euclidean distance)
            xMid = targets.iloc[0].current_mid_x
            yMid = targets.iloc[0].current_mid_y

            box_height = targets.iloc[0].height
            if headshot_mode:
                headshot_offset = box_height * 0.38
            else:
                headshot_offset = box_height * 0.2

            mouseMove = [xMid - cWidth, (yMid - headshot_offset) - cHeight]
            # Moving the mouse 
            #imagine recalculating everything to find out you have a drop in replacement
            if win32api.GetKeyState(0x02) < 0:
                ghub_move(mouseMove[0],mouseMove[1])
            last_mid_coord = [xMid, yMid]

        else:
            last_mid_coord = None

        # See what the bot sees
        if visuals:
            # Loops over every item identified and draws a bounding box
            for i in range(0, len(targets)):
                halfW = round(targets["width"][i] / 2)
                halfH = round(targets["height"][i] / 2)
                midX = targets['current_mid_x'][i]
                midY = targets['current_mid_y'][i]
                (startX, startY, endX, endY) = int(midX + halfW), int(midY +
                                                                      halfH), int(midX - halfW), int(midY - halfH)

                idx = 0
                # draw the bounding box and label on the frame
                label = "{}: {:.2f}%".format(
                    "Character", targets["confidence"][i] * 100)
                cv2.rectangle(npImg, (startX, startY), (endX, endY),
                              COLORS[idx], 2)
                y = startY - 15 if startY - 15 > 15 else startY + 15
                cv2.putText(npImg, label, (startX, y),
                            cv2.FONT_HERSHEY_SIMPLEX, 0.5, COLORS[idx], 2)

                
        # Forced garbage cleanup every second
        count += 1
        if (time.time() - sTime) > 1:
            if cpsDisplay:
                print("CPS: {}".format(count))
            count = 0
            sTime = time.time()

            # Uncomment if you keep running into memory issues
            # gc.collect(generation=0)

        # See visually what the Aimbot sees
        if visuals:
            cv2.imshow('Live Feed', npImg)
            if (cv2.waitKey(1) & 0xFF) == ord('q'):
                exit()
    camera.stop()


if __name__ == "__main__":
    try:
        main()
    except Exception as e:
        import traceback
        traceback.print_exception(e)
        print("ERROR: " + str(e))
        print("Ask @Wonder for help in our Discord in the #ai-aimbot channel ONLY: https://discord.gg/rootkitorg")