diff --git a/app/service/design_fast/pipeline/loading.py b/app/service/design_fast/pipeline/loading.py
index 85d1fb1..5a55d9d 100644
--- a/app/service/design_fast/pipeline/loading.py
+++ b/app/service/design_fast/pipeline/loading.py
@@ -1,6 +1,9 @@
+import io
 import logging
 
 import cv2
+import numpy as np
+from PIL import Image
 
 from app.service.utils.new_oss_client import oss_get_image
 
@@ -35,18 +38,6 @@ class LoadImage:
 
     def __call__(self, result):
         result['image'], result['pre_mask'] = self.read_image(result['path'])
-
-        # 判断是否resize sketch 保留ori image 用于模型输入
-        result['ori_image'] = result['image']
-        if result['resize_scale'][0] != 0 and result['resize_scale'][1] != 0:
-            height, width = result['image'].shape[:2]
-            # 计算新的宽度和高度
-            new_width = int(width * result['resize_scale'][0])
-            new_height = int(height * result['resize_scale'][1])
-            # 使用cv2.resize()函数进行缩放
-            result['image'] = cv2.resize(result['image'], (new_width, new_height))
-            if result['pre_mask'] is not None:
-                result['pre_mask'] = cv2.resize(result['pre_mask'], (new_width, new_height))
         result['gray'] = cv2.cvtColor(result['image'], cv2.COLOR_BGR2GRAY)
         result['keypoint'] = self.get_keypoint(result['name'])
         result['img_shape'] = result['image'].shape
diff --git a/app/service/design_fast/pipeline/print_painting.py b/app/service/design_fast/pipeline/print_painting.py
index 7120e69..9e8e1dc 100644
--- a/app/service/design_fast/pipeline/print_painting.py
+++ b/app/service/design_fast/pipeline/print_painting.py
@@ -460,8 +460,11 @@ class PrintPainting:
         angle: 旋转的角度
         crop: 是否需要进行裁剪，布尔向量
         """
+        if not isinstance(crop, bool):
+            raise ValueError("The 'crop' parameter must be a boolean.")
+
         crop_image = lambda img, x0, y0, w, h: img[y0:y0 + h, x0:x0 + w]
-        w, h = img.shape[:2]
+        h, w = img.shape[:2]
         # 旋转角度的周期是360°
         angle %= 360
         # 计算仿射变换矩阵
@@ -473,7 +476,7 @@ class PrintPainting:
         if crop:
             # 裁剪角度的等效周期是180°
             angle_crop = angle % 180
-            if angle > 90:
+            if angle_crop > 90:
                 angle_crop = 180 - angle_crop
             # 转化角度为弧度
             theta = angle_crop * np.pi / 180
diff --git a/app/service/design_fast/pipeline/segmentation.py b/app/service/design_fast/pipeline/segmentation.py
index 2ad1a57..0c9c51e 100644
--- a/app/service/design_fast/pipeline/segmentation.py
+++ b/app/service/design_fast/pipeline/segmentation.py
@@ -36,27 +36,12 @@ class Segmentation:
             # preview 过模型 不缓存
             if "preview_submit" in result.keys() and result['preview_submit'] == "preview":
                 # 推理获得seg 结果
-                seg_result = get_seg_result(result["image_id"], result['ori_image'])
-                if result['resize_scale'][0] != 0 and result['resize_scale'][1] != 0:
-                    height, width = seg_result.shape[:2]
-                    # 计算新的宽度和高度
-                    new_width = int(width * result['resize_scale'][0])
-                    new_height = int(height * result['resize_scale'][1])
-                    # 使用cv2.resize()函数进行缩放
-                    seg_result = cv2.resize(seg_result, (new_width, new_height))
+                seg_result = get_seg_result(result["image_id"], result['image'])
             # submit 过模型 缓存
             elif "preview_submit" in result.keys() and result['preview_submit'] == "submit":
                 # 推理获得seg 结果
-                seg_result = get_seg_result(result["image_id"], result['ori_image'])
-                seg_result_save = seg_result
-                if result['resize_scale'][0] != 0 and result['resize_scale'][1] != 0:
-                    height, width = seg_result.shape[:2]
-                    # 计算新的宽度和高度
-                    new_width = int(width * result['resize_scale'][0])
-                    new_height = int(height * result['resize_scale'][1])
-                    # 使用cv2.resize()函数进行缩放
-                    seg_result = cv2.resize(seg_result, (new_width, new_height))
-                self.save_seg_result(seg_result_save, result['image_id'])
+                seg_result = get_seg_result(result["image_id"], result['image'])
+                self.save_seg_result(seg_result, result['image_id'])
             #  null  正常流程 加载本地缓存 无缓存则过模型
             else:
                 # 本地查询seg 缓存是否存在
@@ -64,16 +49,8 @@ class Segmentation:
                 # 判断缓存和实际图片size是否相同
                 if not _ or result["image"].shape[:2] != seg_result.shape:
                     # 推理获得seg 结果
-                    seg_result = get_seg_result(result["image_id"], result['ori_image'])
-                    seg_result_save = seg_result
-                    if result['resize_scale'][0] != 0 and result['resize_scale'][1] != 0:
-                        height, width = seg_result.shape[:2]
-                        # 计算新的宽度和高度
-                        new_width = int(width * result['resize_scale'][0])
-                        new_height = int(height * result['resize_scale'][1])
-                        # 使用cv2.resize()函数进行缩放
-                        seg_result = cv2.resize(seg_result, (new_width, new_height))
-                    self.save_seg_result(seg_result_save, result['image_id'])
+                    seg_result = get_seg_result(result["image_id"], result['image'])
+                    self.save_seg_result(seg_result, result['image_id'])
             result['seg_result'] = seg_result
 
             # 处理前片后片