diff --git a/SVGs/Omniflo/Bogen/NewSVG/Optimiert/APB_60_R515_90_650_821094040_optimiert.svg b/SVGs/Omniflo/Bogen/NewSVG/Optimiert/APB_60_R515_90_650_821094040_optimiert.svg
index b537792..1203fec 100644
--- a/SVGs/Omniflo/Bogen/NewSVG/Optimiert/APB_60_R515_90_650_821094040_optimiert.svg
+++ b/SVGs/Omniflo/Bogen/NewSVG/Optimiert/APB_60_R515_90_650_821094040_optimiert.svg
@@ -1,6 +1,14 @@
-
\ No newline at end of file
diff --git a/SVGs/Omniflo/bin/get_cmd.bat b/SVGs/Omniflo/bin/get_cmd.bat
new file mode 100644
index 0000000..f3c0f89
--- /dev/null
+++ b/SVGs/Omniflo/bin/get_cmd.bat
@@ -0,0 +1,2 @@
+call setenv.bat
+start
\ No newline at end of file
diff --git a/SVGs/Omniflo/bin/setenv.bat b/SVGs/Omniflo/bin/setenv.bat
index c466dfc..079a970 100644
--- a/SVGs/Omniflo/bin/setenv.bat
+++ b/SVGs/Omniflo/bin/setenv.bat
@@ -9,7 +9,7 @@ set RD_CONF_LIB=%RD_CONF%\lib
set RD_CONF_BOGEN=%RD_CONF%\Bogen
set RD_CONF_TEFBOGEN=%RD_CONF%\TEFBogen
-set RD_CONF_WEICHEN=%RD_CONF%\Weichen
+set RD_CONF_WEICHEN=%RD_CONF%\Weichen\neu_backup
set RD_CONF_TEFWEICHEN=%RD_CONF%\TEFWeichen
diff --git a/SVGs/Omniflo/doc/Omniflo_2D_Erzeugung.md b/SVGs/Omniflo/doc/Omniflo_2D_Erzeugung.md
new file mode 100644
index 0000000..e9885f9
--- /dev/null
+++ b/SVGs/Omniflo/doc/Omniflo_2D_Erzeugung.md
@@ -0,0 +1,15 @@
+
+# Vorgehen Erzeugung 2D Library
+
+für die Umsetzung der 2D-Library im Rule Designer sind folgende Schritte vorgesehen – unterteilt in TXT und SVG:
+
+**TXT-Daten:**
+1. JSON-Struktur vorbereiten: inkl. Gesamtbreite, Gesamthöhe sowie Breite und Höhe der Mittellinie.
+2. CPs (Connection Points): Richtung und Position der CPs berechnen.
+3. Daten aus JSON in der lokalen RD-Installation als Props importieren.
+
+**SVG-Daten:**
+1. DWG-Dateien exportieren und in SVG umwandeln.
+2. SVG optimieren: z. B. Polylinien in einfache Linien umwandeln.
+3. Viewbox im SVG definieren, um saubere Skalierung zu gewährleisten.
+4. Aus dem SVG Symbol generieren.
diff --git a/SVGs/Omniflo/lib/3_svg_optimizer-Step1.py b/SVGs/Omniflo/lib/3_svg_optimizer-Step1.py
index 3d7b9d3..b93071b 100644
--- a/SVGs/Omniflo/lib/3_svg_optimizer-Step1.py
+++ b/SVGs/Omniflo/lib/3_svg_optimizer-Step1.py
@@ -375,7 +375,7 @@ def optimize_svg(input_path, output_path):
elem.set('stroke', '#ffe31b')
elif stroke == '#000' or stroke == 'rgb(255,0,0)'or stroke == 'rgb(0,0,0)':
elem.set('stroke', '#ffe31b')
- elem.set('stroke-width', '1')
+ elem.set('stroke-width', f'{1}px')
# Generate final XML
rough_string = ET.tostring(root, encoding='utf-8', xml_declaration=True)
diff --git a/SVGs/Omniflo/lib/3_svg_scaler-Step2.py b/SVGs/Omniflo/lib/3_svg_scaler-Step2.py
index b3f3fe3..4db40fa 100644
--- a/SVGs/Omniflo/lib/3_svg_scaler-Step2.py
+++ b/SVGs/Omniflo/lib/3_svg_scaler-Step2.py
@@ -4,8 +4,7 @@ import xml.etree.ElementTree as ET
from typing import Tuple, List
def parse_svg_path(d: str) -> List[Tuple[float, float]]:
- """Extract all coordinates from SVG path data (assumes all units are converted to px)"""
- d = re.sub(r'(?<=\d)(mm|pt|cm|in|px)\b', '', d)
+ """Extract all coordinates from SVG path data (including curve control points)"""
points = []
commands = re.findall(
r'([MmLlCcQqAaHhVvZz])([^MmLlCcQqAaHhVvZz]*)',
@@ -43,11 +42,9 @@ def parse_svg_path(d: str) -> List[Tuple[float, float]]:
return points
def calculate_bounding_box(svg_file: str) -> Tuple[float, float, float, float]:
- """Calculate true bounding box of all paths in SVG (assumes all coordinates are in px)"""
+ """Calculate true bounding box of all paths in SVG"""
tree = ET.parse(svg_file)
root = tree.getroot()
-
-
all_points = []
for path in root.findall('.//{http://www.w3.org/2000/svg}path'):
@@ -64,7 +61,6 @@ def calculate_bounding_box(svg_file: str) -> Tuple[float, float, float, float]:
return (x_min, y_min, x_max, y_max)
-
def normalize_stroke_widths2(root, scale):
"""Normalize stroke widths to ensure consistent appearance after scaling"""
for elem in root.iter():
@@ -75,103 +71,65 @@ def normalize_stroke_widths2(root, scale):
elem.set('stroke-width', f'{1/scale:.6f}mm')
def apply_non_scaling_stroke(root):
- """Ensure stroke widths don't scale with the SVG"""
+ """确保所有有描边的元素的描边宽度不随缩放变化"""
for elem in root.iter():
if 'stroke' in elem.attrib and elem.attrib['stroke'] != 'none':
+ # 强制设置 stroke-width=1(无单位)
+ elem.set('stroke-width', '1')
+ # 确保 vector-effect 生效
elem.set('vector-effect', 'non-scaling-stroke')
-# 递归清理所有的transform
-def remove_all_transforms(root):
- for g in root.findall('.//{http://www.w3.org/2000/svg}g'):
- if 'transform' in g.attrib:
- del g.attrib['transform']
+
def scale_svg_file(input_path: str, output_path: str):
- # 手动移除ns0前缀(字符串替换)
- with open(input_path, 'r', encoding='utf-8') as f:
- content = f.read()
- content = content.replace('ns0:', '').replace(':ns0=', '=')
- tree = ET.ElementTree(ET.fromstring(content))
+ """Scale SVG file with consistent stroke widths"""
+ print(f"\nProcessing: {os.path.basename(input_path)}")
+
+ tree = ET.parse(input_path)
root = tree.getroot()
- # Calculate bounding box INCLUDING stroke width
+ # Calculate original bounding box
x_min, y_min, x_max, y_max = calculate_bounding_box(input_path)
width = x_max - x_min
height = y_max - y_min
- print(f"Old dimensions: {width:.3f} × {height:.3f}")
- # Determine scale factor (larger dimension → 1000px)
- scale = 1000.0 / max(width, height)
- print(f"Scale factor: {scale:.6f}")
- remove_all_transforms(root)
- for path in root.findall('.//{http://www.w3.org/2000/svg}path'):
- d = path.get('d', '')
- d = re.sub(r'(?<=\d)(mm|px|cm|in)', '', d) # 匹配 "10mm" → "10"
- scaled_d = scale_svg_path(d, scale, (-x_min, -y_min))
- path.set('d', scaled_d)
- for g in root.findall('.//{http://www.w3.org/2000/svg}g'):
- if 'transform' in g.attrib:
- del g.attrib['transform']
- new_width = round(width * scale,3)
- new_height = round(height * scale)
+ print(f"Original bounding box: ({x_min:.3f}, {y_min:.3f}) to ({x_max:.3f}, {y_max:.3f})")
+ print(f"Original dimensions: {width:.3f} (w) × {height:.3f} (h)")
+
+
+ # Determine scaling base (larger dimension → 1000px)
+ if width > height:
+ scale = 1000.0 / width
+ new_width = 1000.0
+ new_height = round(height * scale)
+ print(f"Scaling base: Width (larger dimension)")
+ else:
+ scale = 1000.0 / height
+ new_height = 1000.0
+ new_width = round(width * scale,3)
+ print(f"Scaling base: Height (larger dimension)")
+
+ print(f"Scale factor: {scale:.6f}")
print(f"New dimensions: {new_width:.3f}px × {new_height:.3f}px")
print(f"ViewBox: 0 0 {new_width:.3f} {new_height:.3f}")
- # apply_non_scaling_stroke(root)
- # normalize_stroke_widths2(root, scale)
+ # normalize_stroke_widths2(root, scale)
+ apply_non_scaling_stroke(root)
+ #
# Update SVG attributes
root.set('viewBox', f'0 0 {new_width:.3f} {new_height:.3f}')
- root.set('width', f'{new_width:.3f}px')
- root.set('height', f'{new_height:.3f}px')
+ root.set('width', f'{new_width:.3f}')
+ root.set('height', f'{new_height:.3f}')
# Apply translation and scaling
- # for g in root.findall('{http://www.w3.org/2000/svg}g'):
- # transform = g.get('transform', '')
- # new_transform = f'translate({-x_min*scale},{-y_min*scale}) scale({scale})'
- # if transform:
- # new_transform = f'{transform} {new_transform}'
- # g.set('transform', new_transform)
+ for g in root.findall('{http://www.w3.org/2000/svg}g'):
+ transform = g.get('transform', '')
+ new_transform = f'translate({-x_min*scale},{-y_min*scale}) scale({scale})'
+ if transform:
+ new_transform = f'{transform} {new_transform}'
+ g.set('transform', new_transform)
# Save modified SVG
- ET.register_namespace('', 'http://www.w3.org/2000/svg')
tree.write(output_path, encoding='utf-8', xml_declaration=True)
print(f"Finished processing: {os.path.basename(input_path)}")
-def scale_svg_path(d: str, scale: float, offset: Tuple[float, float]) -> str:
- d = re.sub(r'(?<=\d)(mm|pt|cm|in|px)\b', '', d)
- commands = re.findall(
- r'([MmLlCcQqAaHhVvZz])([^MmLlCcQqAaHhVvZz]*)',
- d.strip().replace(',', ' ')
- )
- scaled_parts = []
- offset_x, offset_y = offset
-
- for cmd, args in commands:
- nums = list(map(float, re.findall(r'[-+]?\d*\.?\d+', args)))
- scaled_nums = []
- i= 0
- while i < len(nums):
- if cmd in ('A', 'a'): # 圆弧命令特殊处理
- # rx ry x-axis-rotation large-arc-flag sweep-flag x y
- scaled_nums.extend([
- f"{nums[i] * scale:.3f}", # rx
- f"{nums[i+1] * scale:.3f}", # ry
- f"{nums[i+2]:.3f}", # x-axis-rotation (不缩放)
- f"{int(nums[i+3])}", # large-arc-flag
- f"{int(nums[i+4])}", # sweep-flag
- f"{(nums[i+5] + (offset_x if cmd == 'a' else 0)) * scale:.3f}", # x
- f"{(nums[i+6] + (offset_y if cmd == 'a' else 0)) * scale:.3f}" # y
- ])
- i += 7
- else: # 其他命令
- if i % 2 == 0: # x坐标
- val = (nums[i] + (offset_x if cmd.islower() else 0)) * scale
- else: # y坐标
- val = (nums[i] + (offset_y if cmd.islower() else 0)) * scale
- scaled_nums.append(f"{val:.3f}")
- i += 1
-
- scaled_part = cmd + ' '.join(scaled_nums)
- scaled_parts.append(scaled_part.replace(' -', '-')) # 优化负号格式
-
- return ' '.join(scaled_parts).replace(' ', ' ')
def batch_process_svg(input_dir: str, output_dir: str):
"""Batch process SVG files in directory (non-recursive)"""
if not os.path.exists(output_dir):
diff --git a/SVGs/Omniflo/python/OFWeiche/omniflo_weichen.json b/SVGs/Omniflo/python/OFWeiche/omniflo_weichen.json
index 69d3f13..f7e8515 100644
--- a/SVGs/Omniflo/python/OFWeiche/omniflo_weichen.json
+++ b/SVGs/Omniflo/python/OFWeiche/omniflo_weichen.json
@@ -7,7 +7,7 @@
"Schaltungstyp": "M",
"OFWeiche_center_line_width_mm": 350.129,
"OFWeiche_center_line_height_mm": 700.123,
- "Objekte_width_mm": 386.007,
+ "Objekte_width_mm": 418.55,
"Objekte_height_mm": 715.001,
"OFWeiche_CP1_x_mm": 365.007,
"OFWeiche_CP1_y_mm": 355.001,
@@ -26,7 +26,7 @@
"Schaltungstyp": "P",
"OFWeiche_center_line_width_mm": 350.129,
"OFWeiche_center_line_height_mm": 700.123,
- "Objekte_width_mm": 386.007,
+ "Objekte_width_mm": 418.55,
"Objekte_height_mm": 715.001,
"OFWeiche_CP1_x_mm": 365.007,
"OFWeiche_CP1_y_mm": 355.001,
@@ -64,15 +64,15 @@
"Schaltungstyp": "M",
"OFWeiche_center_line_width_mm": 350.129,
"OFWeiche_center_line_height_mm": 700.123,
- "Objekte_width_mm": 386.007,
+ "Objekte_width_mm": 418.55,
"Objekte_height_mm": 715.001,
- "OFWeiche_CP1_x_mm": 21.0,
+ "OFWeiche_CP1_x_mm": 53.544,
"OFWeiche_CP1_y_mm": 355.001,
"KurvenRichtung": 2,
"SivasnrTEF": null,
- "OFWeiche_CP2_x_mm": 21.0,
+ "OFWeiche_CP2_x_mm": 53.544,
"OFWeiche_CP2_y_mm": 715.001,
- "OFWeiche_CP3_x_mm": 371.129,
+ "OFWeiche_CP3_x_mm": 403.673,
"OFWeiche_CP3_y_mm": 14.878
},
{
@@ -83,15 +83,15 @@
"Schaltungstyp": "P",
"OFWeiche_center_line_width_mm": 350.129,
"OFWeiche_center_line_height_mm": 700.123,
- "Objekte_width_mm": 386.007,
+ "Objekte_width_mm": 418.55,
"Objekte_height_mm": 715.001,
- "OFWeiche_CP1_x_mm": 21.0,
+ "OFWeiche_CP1_x_mm": 53.544,
"OFWeiche_CP1_y_mm": 355.001,
"KurvenRichtung": 2,
"SivasnrTEF": null,
- "OFWeiche_CP2_x_mm": 21.0,
+ "OFWeiche_CP2_x_mm": 53.544,
"OFWeiche_CP2_y_mm": 715.001,
- "OFWeiche_CP3_x_mm": 371.129,
+ "OFWeiche_CP3_x_mm": 403.673,
"OFWeiche_CP3_y_mm": 14.878
},
{
@@ -121,7 +121,7 @@
"Schaltungstyp": "M",
"OFWeiche_center_line_width_mm": 400,
"OFWeiche_center_line_height_mm": 750,
- "Objekte_width_mm": 435.878,
+ "Objekte_width_mm": 468.421,
"Objekte_height_mm": 764.878,
"OFWeiche_CP1_x_mm": 414.878,
"OFWeiche_CP1_y_mm": 404.878,
@@ -140,7 +140,7 @@
"Schaltungstyp": "P",
"OFWeiche_center_line_width_mm": 400,
"OFWeiche_center_line_height_mm": 750,
- "Objekte_width_mm": 435.878,
+ "Objekte_width_mm": 468.421,
"Objekte_height_mm": 764.878,
"OFWeiche_CP1_x_mm": 414.878,
"OFWeiche_CP1_y_mm": 404.878,
@@ -178,15 +178,15 @@
"Schaltungstyp": "M",
"OFWeiche_center_line_width_mm": 400,
"OFWeiche_center_line_height_mm": 750,
- "Objekte_width_mm": 435.878,
+ "Objekte_width_mm": 468.421,
"Objekte_height_mm": 764.878,
- "OFWeiche_CP1_x_mm": 21.0,
+ "OFWeiche_CP1_x_mm": 53.544,
"OFWeiche_CP1_y_mm": 404.878,
"KurvenRichtung": 2,
"SivasnrTEF": null,
- "OFWeiche_CP2_x_mm": 21.0,
+ "OFWeiche_CP2_x_mm": 53.544,
"OFWeiche_CP2_y_mm": 764.878,
- "OFWeiche_CP3_x_mm": 421.0,
+ "OFWeiche_CP3_x_mm": 453.544,
"OFWeiche_CP3_y_mm": 14.878
},
{
@@ -197,15 +197,15 @@
"Schaltungstyp": "P",
"OFWeiche_center_line_width_mm": 400,
"OFWeiche_center_line_height_mm": 750,
- "Objekte_width_mm": 435.878,
+ "Objekte_width_mm": 468.421,
"Objekte_height_mm": 764.878,
- "OFWeiche_CP1_x_mm": 21.0,
+ "OFWeiche_CP1_x_mm": 53.544,
"OFWeiche_CP1_y_mm": 404.878,
"KurvenRichtung": 2,
"SivasnrTEF": null,
- "OFWeiche_CP2_x_mm": 21.0,
+ "OFWeiche_CP2_x_mm": 53.544,
"OFWeiche_CP2_y_mm": 764.878,
- "OFWeiche_CP3_x_mm": 421.0,
+ "OFWeiche_CP3_x_mm": 453.544,
"OFWeiche_CP3_y_mm": 14.878
},
{
@@ -235,7 +235,7 @@
"Schaltungstyp": "M",
"OFWeiche_center_line_width_mm": 500.23,
"OFWeiche_center_line_height_mm": 600.197,
- "Objekte_width_mm": 521.23,
+ "Objekte_width_mm": 553.774,
"Objekte_height_mm": 621.237,
"OFWeiche_CP1_x_mm": 521.27,
"OFWeiche_CP1_y_mm": 261.237,
@@ -254,7 +254,7 @@
"Schaltungstyp": "P",
"OFWeiche_center_line_width_mm": 500.23,
"OFWeiche_center_line_height_mm": 600.197,
- "Objekte_width_mm": 521.23,
+ "Objekte_width_mm": 553.774,
"Objekte_height_mm": 621.237,
"OFWeiche_CP1_x_mm": 521.27,
"OFWeiche_CP1_y_mm": 261.237,
@@ -292,15 +292,15 @@
"Schaltungstyp": "M",
"OFWeiche_center_line_width_mm": 500.23,
"OFWeiche_center_line_height_mm": 600.197,
- "Objekte_width_mm": 521.23,
+ "Objekte_width_mm": 553.774,
"Objekte_height_mm": 621.237,
- "OFWeiche_CP1_x_mm": 21.0,
+ "OFWeiche_CP1_x_mm": 53.544,
"OFWeiche_CP1_y_mm": 261.237,
"KurvenRichtung": 2,
"SivasnrTEF": null,
- "OFWeiche_CP2_x_mm": 21.0,
+ "OFWeiche_CP2_x_mm": 53.544,
"OFWeiche_CP2_y_mm": 621.237,
- "OFWeiche_CP3_x_mm": 521.23,
+ "OFWeiche_CP3_x_mm": 553.774,
"OFWeiche_CP3_y_mm": 21.04
},
{
@@ -311,15 +311,15 @@
"Schaltungstyp": "P",
"OFWeiche_center_line_width_mm": 500.23,
"OFWeiche_center_line_height_mm": 600.197,
- "Objekte_width_mm": 521.23,
+ "Objekte_width_mm": 553.774,
"Objekte_height_mm": 621.237,
- "OFWeiche_CP1_x_mm": 21.0,
+ "OFWeiche_CP1_x_mm": 53.544,
"OFWeiche_CP1_y_mm": 261.237,
"KurvenRichtung": 2,
"SivasnrTEF": null,
- "OFWeiche_CP2_x_mm": 21.0,
+ "OFWeiche_CP2_x_mm": 53.544,
"OFWeiche_CP2_y_mm": 621.237,
- "OFWeiche_CP3_x_mm": 521.23,
+ "OFWeiche_CP3_x_mm": 553.774,
"OFWeiche_CP3_y_mm": 21.04
},
{
@@ -349,7 +349,7 @@
"Schaltungstyp": "M",
"OFWeiche_center_line_width_mm": 700.374,
"OFWeiche_center_line_height_mm": 700.185,
- "Objekte_width_mm": 721.374,
+ "Objekte_width_mm": 753.918,
"Objekte_height_mm": 721.225,
"OFWeiche_CP1_x_mm": 721.414,
"OFWeiche_CP1_y_mm": 361.225,
@@ -368,7 +368,7 @@
"Schaltungstyp": "P",
"OFWeiche_center_line_width_mm": 700.374,
"OFWeiche_center_line_height_mm": 700.185,
- "Objekte_width_mm": 721.374,
+ "Objekte_width_mm": 753.918,
"Objekte_height_mm": 721.225,
"OFWeiche_CP1_x_mm": 721.414,
"OFWeiche_CP1_y_mm": 361.225,
@@ -406,15 +406,15 @@
"Schaltungstyp": "M",
"OFWeiche_center_line_width_mm": 700.374,
"OFWeiche_center_line_height_mm": 700.185,
- "Objekte_width_mm": 721.374,
+ "Objekte_width_mm": 753.918,
"Objekte_height_mm": 721.225,
- "OFWeiche_CP1_x_mm": 21.0,
+ "OFWeiche_CP1_x_mm": 53.544,
"OFWeiche_CP1_y_mm": 361.225,
"KurvenRichtung": 2,
"SivasnrTEF": null,
- "OFWeiche_CP2_x_mm": 21.0,
+ "OFWeiche_CP2_x_mm": 53.544,
"OFWeiche_CP2_y_mm": 721.225,
- "OFWeiche_CP3_x_mm": 721.374,
+ "OFWeiche_CP3_x_mm": 753.918,
"OFWeiche_CP3_y_mm": 21.04
},
{
@@ -425,15 +425,15 @@
"Schaltungstyp": "P",
"OFWeiche_center_line_width_mm": 700.374,
"OFWeiche_center_line_height_mm": 700.185,
- "Objekte_width_mm": 721.374,
+ "Objekte_width_mm": 753.918,
"Objekte_height_mm": 721.225,
- "OFWeiche_CP1_x_mm": 21.0,
+ "OFWeiche_CP1_x_mm": 53.544,
"OFWeiche_CP1_y_mm": 361.225,
"KurvenRichtung": 2,
"SivasnrTEF": null,
- "OFWeiche_CP2_x_mm": 21.0,
+ "OFWeiche_CP2_x_mm": 53.544,
"OFWeiche_CP2_y_mm": 721.225,
- "OFWeiche_CP3_x_mm": 721.374,
+ "OFWeiche_CP3_x_mm": 753.918,
"OFWeiche_CP3_y_mm": 21.04
},
{
@@ -463,7 +463,7 @@
"Schaltungstyp": "M",
"OFWeiche_center_line_width_mm": 200.007,
"OFWeiche_center_line_height_mm": 749.8,
- "Objekte_width_mm": 242.047,
+ "Objekte_width_mm": 274.591,
"Objekte_height_mm": 749.8,
"OFWeiche_CP1_x_mm": 200.007,
"OFWeiche_CP1_y_mm": 389.8,
@@ -482,7 +482,7 @@
"Schaltungstyp": "P",
"OFWeiche_center_line_width_mm": 200.007,
"OFWeiche_center_line_height_mm": 749.8,
- "Objekte_width_mm": 242.047,
+ "Objekte_width_mm": 274.591,
"Objekte_height_mm": 749.8,
"OFWeiche_CP1_x_mm": 200.007,
"OFWeiche_CP1_y_mm": 389.8,
@@ -501,15 +501,15 @@
"Schaltungstyp": "M",
"OFWeiche_center_line_width_mm": 200.007,
"OFWeiche_center_line_height_mm": 749.8,
- "Objekte_width_mm": 242.047,
+ "Objekte_width_mm": 274.591,
"Objekte_height_mm": 749.8,
- "OFWeiche_CP1_x_mm": 21.0,
+ "OFWeiche_CP1_x_mm": 53.544,
"OFWeiche_CP1_y_mm": 389.8,
"KurvenRichtung": 2,
"SivasnrTEF": null,
- "OFWeiche_CP2_x_mm": 21.0,
+ "OFWeiche_CP2_x_mm": 53.544,
"OFWeiche_CP2_y_mm": 749.8,
- "OFWeiche_CP3_x_mm": 221.007,
+ "OFWeiche_CP3_x_mm": 253.551,
"OFWeiche_CP3_y_mm": 0.0
},
{
@@ -520,15 +520,15 @@
"Schaltungstyp": "P",
"OFWeiche_center_line_width_mm": 200.007,
"OFWeiche_center_line_height_mm": 749.8,
- "Objekte_width_mm": 242.047,
+ "Objekte_width_mm": 274.591,
"Objekte_height_mm": 749.8,
- "OFWeiche_CP1_x_mm": 21.0,
+ "OFWeiche_CP1_x_mm": 53.544,
"OFWeiche_CP1_y_mm": 389.8,
"KurvenRichtung": 2,
"SivasnrTEF": null,
- "OFWeiche_CP2_x_mm": 21.0,
+ "OFWeiche_CP2_x_mm": 53.544,
"OFWeiche_CP2_y_mm": 749.8,
- "OFWeiche_CP3_x_mm": 221.007,
+ "OFWeiche_CP3_x_mm": 253.551,
"OFWeiche_CP3_y_mm": 0.0
},
{
@@ -1549,7 +1549,7 @@
"Schaltungstyp": "M",
"OFWeiche_center_line_width_mm": 101.5,
"OFWeiche_center_line_height_mm": 360,
- "Objekte_width_mm": 141.938,
+ "Objekte_width_mm": 174.482,
"Objekte_height_mm": 360,
"OFWeiche_CP1_x_mm": 109.552,
"OFWeiche_CP1_y_mm": 0.0,
@@ -1568,15 +1568,15 @@
"Schaltungstyp": "M",
"OFWeiche_center_line_width_mm": 101.5,
"OFWeiche_center_line_height_mm": 360,
- "Objekte_width_mm": 141.938,
+ "Objekte_width_mm": 174.482,
"Objekte_height_mm": 360,
- "OFWeiche_CP1_x_mm": 21.0,
+ "OFWeiche_CP1_x_mm": 53.544,
"OFWeiche_CP1_y_mm": 0.0,
"KurvenRichtung": 2,
"SivasnrTEF": null,
- "OFWeiche_CP2_x_mm": 21.0,
+ "OFWeiche_CP2_x_mm": 53.544,
"OFWeiche_CP2_y_mm": 360,
- "OFWeiche_CP3_x_mm": 122.5,
+ "OFWeiche_CP3_x_mm": 155.044,
"OFWeiche_CP3_y_mm": 8.052
},
{
@@ -1587,7 +1587,7 @@
"Schaltungstyp": "P",
"OFWeiche_center_line_width_mm": 101.5,
"OFWeiche_center_line_height_mm": 360,
- "Objekte_width_mm": 141.938,
+ "Objekte_width_mm": 174.482,
"Objekte_height_mm": 360,
"OFWeiche_CP1_x_mm": 109.552,
"OFWeiche_CP1_y_mm": 0.0,
@@ -1606,15 +1606,15 @@
"Schaltungstyp": "P",
"OFWeiche_center_line_width_mm": 101.5,
"OFWeiche_center_line_height_mm": 360,
- "Objekte_width_mm": 141.938,
+ "Objekte_width_mm": 174.482,
"Objekte_height_mm": 360,
- "OFWeiche_CP1_x_mm": 21.0,
+ "OFWeiche_CP1_x_mm": 53.544,
"OFWeiche_CP1_y_mm": 0.0,
"KurvenRichtung": 2,
"SivasnrTEF": null,
- "OFWeiche_CP2_x_mm": 21.0,
+ "OFWeiche_CP2_x_mm": 53.544,
"OFWeiche_CP2_y_mm": 360,
- "OFWeiche_CP3_x_mm": 122.5,
+ "OFWeiche_CP3_x_mm": 155.044,
"OFWeiche_CP3_y_mm": 8.052
},
{
diff --git a/SVGs/Omniflo/python/OFWeiche/omniflo_weichen.py b/SVGs/Omniflo/python/OFWeiche/omniflo_weichen.py
index 0119846..c4f07de 100644
--- a/SVGs/Omniflo/python/OFWeiche/omniflo_weichen.py
+++ b/SVGs/Omniflo/python/OFWeiche/omniflo_weichen.py
@@ -1,31 +1,31 @@
-
import json
import math
def modify_json_values(json_file):
- # 常量定义
+ # Constant definitions
+ WeichenKoerperWidth = 32.5437
BogenProfileWidth = 42.080
WeichenkProfileWidth = 42.000
WeichenGerade = 360.000
- # 读取JSON文件
+ # Read JSON file
with open(json_file, 'r', encoding='utf-8') as f:
data = json.load(f)
- process_einzelweiche_items(data, WeichenkProfileWidth,BogenProfileWidth, WeichenGerade)
+ process_einzelweiche_items(data,WeichenKoerperWidth, WeichenkProfileWidth,BogenProfileWidth, WeichenGerade)
process_doppelweiche_items(data, BogenProfileWidth, WeichenGerade)
process_dreifachweiche_items(data, WeichenkProfileWidth)
- # 询问是否保存
- save_choice = input("\n是否保存所有修改? (直接回车保存,输入n取消): ").lower()
+ # Ask for save confirmation
+ save_choice = input("\nSave all changes? (Press Enter to save, 'n' to cancel): ").lower()
if save_choice == 'n':
- print("所有修改未保存")
+ print("All changes discarded")
else:
with open(json_file, 'w', encoding='utf-8') as f:
json.dump(data, f, indent=2, ensure_ascii=False)
- print("所有修改已保存!")
+ print("All changes saved!")
-def process_einzelweiche_items(data, WeichenkProfileWidth,BogenProfileWidth, WeichenGerade): # 筛选符合条件的项
+def process_einzelweiche_items(data,WeichenKoerperWidth, WeichenkProfileWidth,BogenProfileWidth, WeichenGerade): # Filter matching items
filtered_items = [
item for item in data
if (item.get("SivasnrTEF") is None and
@@ -33,59 +33,59 @@ def process_einzelweiche_items(data, WeichenkProfileWidth,BogenProfileWidth, Wei
item.get("Schaltungstyp") == "M")
]
- print(f"共找到 {len(filtered_items)} 项符合条件的记录")
+ print(f"Found {len(filtered_items)} matching records")
print("="*50)
- # 遍历每一项
+ # Process each item
for idx, item in enumerate(filtered_items, 1):
- print(f"\n第 {idx} 项:")
+ print(f"\nItem {idx}:")
print(f"Sivasnr: {item['Sivasnr']}")
print(f"ProfilTyp: {item['ProfilTyp']}")
print(f"Schaltungstyp: {item['Schaltungstyp']}")
- # 处理 OFWeiche_center_line_width_mm
+ # Process OFWeiche_center_line_width_mm
current_value = item.get("OFWeiche_center_line_width_mm")
- print(f"\n当前 OFWeiche_center_line_width_mm: {current_value}")
- choice = input("是否修改? (y修改,直接回车跳过): ").lower()
+ print(f"\nCurrent OFWeiche_center_line_width_mm: {current_value}")
+ choice = input("Modify? (y to modify, Enter to skip): ").lower()
if choice == 'y':
- new_value = input(f"请输入新值 (当前: {current_value}): ")
+ new_value = input(f"Enter new value (current: {current_value}): ")
try:
old_value = item["OFWeiche_center_line_width_mm"]
item["OFWeiche_center_line_width_mm"] = round(float(new_value), 3) if new_value.lower() != 'null' else None
- print(f"值已更新: {old_value} → {item['OFWeiche_center_line_width_mm']}")
+ print(f"Value updated: {old_value} → {item['OFWeiche_center_line_width_mm']}")
except ValueError:
- print("输入无效,保持原值")
+ print("Invalid input, keeping original value")
else:
- print("跳过修改")
+ print("Skipping modification")
- # 处理 OFWeiche_center_line_height_mm
+ # Process OFWeiche_center_line_height_mm
current_value = item.get("OFWeiche_center_line_height_mm")
- print(f"\n当前 OFWeiche_center_line_height_mm: {current_value}")
- choice = input("是否修改? (y修改,直接回车跳过): ").lower()
+ print(f"\nCurrent OFWeiche_center_line_height_mm: {current_value}")
+ choice = input("Modify? (y to modify, Enter to skip): ").lower()
if choice == 'y':
- new_value = input(f"请输入新值 (当前: {current_value}): ")
+ new_value = input(f"Enter new value (current: {current_value}): ")
try:
old_value = item["OFWeiche_center_line_height_mm"]
item["OFWeiche_center_line_height_mm"] = round(float(new_value), 3) if new_value.lower() != 'null' else None
- print(f"值已更新: {old_value} → {item['OFWeiche_center_line_height_mm']}")
+ print(f"Value updated: {old_value} → {item['OFWeiche_center_line_height_mm']}")
except ValueError:
- print("输入无效,保持原值")
+ print("Invalid input, keeping original value")
else:
- print("跳过修改")
+ print("Skipping modification")
- # 计算相关值
+ # Calculate related values
if (item["OFWeiche_center_line_width_mm"] is not None and
item["OFWeiche_center_line_height_mm"] is not None):
angle_rad = math.radians(item["KurvenWinkel"])
- # 计算并打印基本值
+ # Calculate and print basic values
old_width = item.get("Objekte_width_mm")
- item["Objekte_width_mm"] = round(
+ item["Objekte_width_mm"] = round(WeichenKoerperWidth+
(BogenProfileWidth/2 * math.cos(angle_rad)) +
item["OFWeiche_center_line_width_mm"] +
WeichenkProfileWidth/2, 3)
- print(f"\nObjekte_width_mm 计算更新: {old_width} → {item['Objekte_width_mm']}")
+ print(f"\nObjekte_width_mm calculated update: {old_width} → {item['Objekte_width_mm']}")
old_height = item.get("Objekte_height_mm")
if item["KurvenWinkel"] == 22.5:
@@ -95,35 +95,35 @@ def process_einzelweiche_items(data, WeichenkProfileWidth,BogenProfileWidth, Wei
item["Objekte_height_mm"] = round(
(BogenProfileWidth/2 * math.sin(angle_rad)) +
item["OFWeiche_center_line_height_mm"], 3)
- print(f"Objekte_height_mm 计算更新: {old_height} → {item['Objekte_height_mm']}")
+ print(f"Objekte_height_mm calculated update: {old_height} → {item['Objekte_height_mm']}")
- # 计算并打印CP点坐标
+ # Calculate and print CP point coordinates
old_cp1x = item.get("OFWeiche_CP1_x_mm")
item["OFWeiche_CP1_x_mm"] = round(
(BogenProfileWidth/2 * math.sin(angle_rad)) +
item["OFWeiche_center_line_width_mm"], 3)
- print(f"OFWeiche_CP1_x_mm 计算更新: {old_cp1x} → {item['OFWeiche_CP1_x_mm']}")
+ print(f"OFWeiche_CP1_x_mm calculated update: {old_cp1x} → {item['OFWeiche_CP1_x_mm']}")
old_cp1y = item.get("OFWeiche_CP1_y_mm")
item["OFWeiche_CP1_y_mm"] = round(
item["Objekte_height_mm"] - WeichenGerade, 3)
- print(f"OFWeiche_CP1_y_mm 计算更新: {old_cp1y} → {item['OFWeiche_CP1_y_mm']}")
+ print(f"OFWeiche_CP1_y_mm calculated update: {old_cp1y} → {item['OFWeiche_CP1_y_mm']}")
item["OFWeiche_CP2_x_mm"] = round(item["OFWeiche_CP1_x_mm"], 3)
- print(f"OFWeiche_CP2_x_mm 设置: {item['OFWeiche_CP2_x_mm']}")
+ print(f"OFWeiche_CP2_x_mm set: {item['OFWeiche_CP2_x_mm']}")
item["OFWeiche_CP2_y_mm"] = round(item["Objekte_height_mm"], 3)
- print(f"OFWeiche_CP2_y_mm 设置: {item['OFWeiche_CP2_y_mm']}")
+ print(f"OFWeiche_CP2_y_mm set: {item['OFWeiche_CP2_y_mm']}")
item["OFWeiche_CP3_x_mm"] = round(
BogenProfileWidth/2 * math.cos(angle_rad), 3)
- print(f"OFWeiche_CP3_x_mm 计算更新: {item['OFWeiche_CP3_x_mm']}")
+ print(f"OFWeiche_CP3_x_mm calculated update: {item['OFWeiche_CP3_x_mm']}")
item["OFWeiche_CP3_y_mm"] = round(
BogenProfileWidth/2 * math.sin(angle_rad), 3)
- print(f"OFWeiche_CP3_y_mm 计算更新: {item['OFWeiche_CP3_y_mm']}")
+ print(f"OFWeiche_CP3_y_mm calculated update: {item['OFWeiche_CP3_y_mm']}")
- # 1. 查找Schaltungstyp为P的相似项(更新所有CP点)
+ # 1. Find similar items with Schaltungstyp=P (update all CP points)
current_profil = item["ProfilTyp"]
if "S" in current_profil:
prefix = current_profil.rsplit(" ", 1)[0]
@@ -136,12 +136,12 @@ def process_einzelweiche_items(data, WeichenkProfileWidth,BogenProfileWidth, Wei
x.get("Schaltungstyp") == "P"]
if similar_items_p:
- print(f"\n找到 {len(similar_items_p)} 个Schaltungstyp=P的相似项")
+ print(f"\nFound {len(similar_items_p)} similar items with Schaltungstyp=P")
for similar in similar_items_p:
- print(f"正在更新相似项: {similar['ProfilTyp']} (Sivasnr: {similar['Sivasnr']})")
+ print(f"Updating similar item: {similar['ProfilTyp']} (Sivasnr: {similar['Sivasnr']})")
- # 更新所有字段包括CP点
+ # Update all fields including CP points
fields_to_copy = [
"OFWeiche_center_line_width_mm",
"OFWeiche_center_line_height_mm",
@@ -161,9 +161,9 @@ def process_einzelweiche_items(data, WeichenkProfileWidth,BogenProfileWidth, Wei
print(f" {field}: {old_val} → {similar[field]}")
else:
- print("没有找到Schaltungstyp=P的相似项")
+ print("No similar items with Schaltungstyp=P found")
- # 2. 查找L→R且KurvenRichtung=2的相似项
+ # 2. Find L→R similar items with KurvenRichtung=2
if "S" in current_profil and "-L-" in current_profil:
r_profil = current_profil.replace("-L-", "-R-")
@@ -174,11 +174,11 @@ def process_einzelweiche_items(data, WeichenkProfileWidth,BogenProfileWidth, Wei
x.get("Schaltungstyp") == "M"]
if similar_items_r:
- print(f"\n找到 {len(similar_items_r)} 个L→R的相似项(KurvenRichtung=2)")
+ print(f"\nFound {len(similar_items_r)} L→R similar items (KurvenRichtung=2)")
for similar in similar_items_r:
- print(f"正在更新R型相似项: {similar['ProfilTyp']} (Sivasnr: {similar['Sivasnr']})")
+ print(f"Updating R-type similar item: {similar['ProfilTyp']} (Sivasnr: {similar['Sivasnr']})")
- # 复制基础值
+ # Copy basic values
base_fields = [
"OFWeiche_center_line_width_mm",
"OFWeiche_center_line_height_mm",
@@ -191,33 +191,33 @@ def process_einzelweiche_items(data, WeichenkProfileWidth,BogenProfileWidth, Wei
similar[field] = item[field]
print(f" {field}: {old_val} → {similar[field]}")
- # 计算并打印R型特有的CP点
+ # Calculate and print R-type specific CP points
old_cp1x = similar.get("OFWeiche_CP1_x_mm")
- similar["OFWeiche_CP1_x_mm"] = round(WeichenkProfileWidth/2, 3)
- print(f" OFWeiche_CP1_x_mm (R型): {old_cp1x} → {similar['OFWeiche_CP1_x_mm']}")
+ similar["OFWeiche_CP1_x_mm"] = round(WeichenKoerperWidth+WeichenkProfileWidth/2, 3)
+ print(f" OFWeiche_CP1_x_mm (R-type): {old_cp1x} → {similar['OFWeiche_CP1_x_mm']}")
old_cp1y = similar.get("OFWeiche_CP1_y_mm")
similar["OFWeiche_CP1_y_mm"] = round(item["Objekte_height_mm"] - WeichenGerade, 3)
- print(f" OFWeiche_CP1_y_mm (R型): {old_cp1y} → {similar['OFWeiche_CP1_y_mm']}")
+ print(f" OFWeiche_CP1_y_mm (R-type): {old_cp1y} → {similar['OFWeiche_CP1_y_mm']}")
similar["OFWeiche_CP2_x_mm"] = similar["OFWeiche_CP1_x_mm"]
- print(f" OFWeiche_CP2_x_mm (R型): 设置为 {similar['OFWeiche_CP2_x_mm']}")
+ print(f" OFWeiche_CP2_x_mm (R-type): Set to {similar['OFWeiche_CP2_x_mm']}")
old_cp2y = similar.get("OFWeiche_CP2_y_mm")
similar["OFWeiche_CP2_y_mm"] = round(item["Objekte_height_mm"], 3)
- print(f" OFWeiche_CP2_y_mm (R型): {old_cp2y} → {similar['OFWeiche_CP2_y_mm']}")
+ print(f" OFWeiche_CP2_y_mm (R-type): {old_cp2y} → {similar['OFWeiche_CP2_y_mm']}")
old_cp3x = similar.get("OFWeiche_CP3_x_mm")
similar["OFWeiche_CP3_x_mm"] = round(
similar["OFWeiche_CP1_x_mm"] + item["OFWeiche_center_line_width_mm"], 3)
- print(f" OFWeiche_CP3_x_mm (R型): {old_cp3x} → {similar['OFWeiche_CP3_x_mm']}")
+ print(f" OFWeiche_CP3_x_mm (R-type): {old_cp3x} → {similar['OFWeiche_CP3_x_mm']}")
old_cp3y = similar.get("OFWeiche_CP3_y_mm")
similar["OFWeiche_CP3_y_mm"] = round(
BogenProfileWidth/2 * math.sin(angle_rad), 3)
- print(f" OFWeiche_CP3_y_mm (R型): {old_cp3y} → {similar['OFWeiche_CP3_y_mm']}")
+ print(f" OFWeiche_CP3_y_mm (R-type): {old_cp3y} → {similar['OFWeiche_CP3_y_mm']}")
- # 3. 查找该R型项的P型对应项
+ # 3. Find P-type counterparts for this R-type item
r_p_profil = r_profil.replace("MIT M", "MIT P")
similar_items_r_p = [x for x in data
@@ -226,9 +226,9 @@ def process_einzelweiche_items(data, WeichenkProfileWidth,BogenProfileWidth, Wei
x.get("Schaltungstyp") == "P"]
if similar_items_r_p:
- print(f"\n找到 {len(similar_items_r_p)} 个R型P型对应项")
+ print(f"\nFound {len(similar_items_r_p)} R-type P-type counterparts")
for similar_r_p in similar_items_r_p:
- print(f"正在更新R型P型对应项: {similar_r_p['ProfilTyp']} (Sivasnr: {similar_r_p['Sivasnr']})")
+ print(f"Updating R-type P-type counterpart: {similar_r_p['ProfilTyp']} (Sivasnr: {similar_r_p['Sivasnr']})")
fields_to_copy_r_p = [
"OFWeiche_center_line_width_mm",
@@ -248,112 +248,110 @@ def process_einzelweiche_items(data, WeichenkProfileWidth,BogenProfileWidth, Wei
similar_r_p[field] = similar[field]
print(f" {field}: {old_val} → {similar_r_p[field]}")
- save_choice = input(f"是否确认更新此项? (直接回车确认,输入n取消): ").lower()
+ save_choice = input(f"Confirm update for this item? (Enter to confirm, 'n' to cancel): ").lower()
if save_choice == 'n':
- print("此项更新已取消")
- # 恢复原值
+ print("Update for this item cancelled")
+ # Restore original values
for field in fields_to_copy_r_p:
if field in similar_r_p:
similar_r_p[field] = old_val
else:
- print("没有找到R型P型对应项")
+ print("No R-type P-type counterparts found")
else:
-
- print("没有找到L→R的相似项")
+ print("No L→R similar items found")
def process_doppelweiche_items(data,BogenProfileWidth, WeichenGerade):
- # 筛选Doppelweiche类型的项
+ # Filter Doppelweiche type items
filtered_items = [
-
item for item in data
if (item.get("WeichenTyp") == "Doppelweiche" and
item.get("Schaltungstyp") == "M" and
item.get("SivasnrTEF") is None)
]
- print(f"\n\n共找到 {len(filtered_items)} 项Doppelweiche类型记录")
+ print(f"\n\nFound {len(filtered_items)} Doppelweiche type records")
print("="*50)
- # 遍历每一项Doppelweiche
+ # Process each Doppelweiche item
for idx, item in enumerate(filtered_items, 1):
- print(f"\n第 {idx} 项Doppelweiche:")
+ print(f"\nDoppelweiche item {idx}:")
print(f"Sivasnr: {item['Sivasnr']}")
print(f"ProfilTyp: {item['ProfilTyp']}")
print(f"Schaltungstyp: {item['Schaltungstyp']}")
print(f"KurvenWinkel: {item['KurvenWinkel']}")
- # 处理 OFWeiche_center_line_width_mm
+ # Process OFWeiche_center_line_width_mm
current_value = item.get("OFWeiche_center_line_width_mm")
- print(f"\n当前 OFWeiche_center_line_width_mm: {current_value}")
- choice = input("是否修改? (y修改,直接回车跳过): ").lower()
+ print(f"\nCurrent OFWeiche_center_line_width_mm: {current_value}")
+ choice = input("Modify? (y to modify, Enter to skip): ").lower()
if choice == 'y':
- new_value = input(f"请输入新值 (当前: {current_value}): ")
+ new_value = input(f"Enter new value (current: {current_value}): ")
try:
old_value = item["OFWeiche_center_line_width_mm"]
item["OFWeiche_center_line_width_mm"] = round(float(new_value), 3) if new_value.lower() != 'null' else None
- print(f"值已更新: {old_value} → {item['OFWeiche_center_line_width_mm']}")
+ print(f"Value updated: {old_value} → {item['OFWeiche_center_line_width_mm']}")
except ValueError:
- print("输入无效,保持原值")
+ print("Invalid input, keeping original value")
else:
- print("跳过修改")
+ print("Skipping modification")
- # 处理 OFWeiche_center_line_height_mm
+ # Process OFWeiche_center_line_height_mm
current_value = item.get("OFWeiche_center_line_height_mm")
- print(f"\n当前 OFWeiche_center_line_height_mm: {current_value}")
- choice = input("是否修改? (y修改,直接回车跳过): ").lower()
+ print(f"\nCurrent OFWeiche_center_line_height_mm: {current_value}")
+ choice = input("Modify? (y to modify, Enter to skip): ").lower()
if choice == 'y':
- new_value = input(f"请输入新值 (当前: {current_value}): ")
+ new_value = input(f"Enter new value (current: {current_value}): ")
try:
old_value = item["OFWeiche_center_line_height_mm"]
item["OFWeiche_center_line_height_mm"] = round(float(new_value), 3) if new_value.lower() != 'null' else None
- print(f"值已更新: {old_value} → {item['OFWeiche_center_line_height_mm']}")
+ print(f"Value updated: {old_value} → {item['OFWeiche_center_line_height_mm']}")
except ValueError:
- print("输入无效,保持原值")
+ print("Invalid input, keeping original value")
else:
- print("跳过修改")
+ print("Skipping modification")
- # 计算相关值
+ # Calculate related values
if (item["OFWeiche_center_line_width_mm"] is not None and
item["OFWeiche_center_line_height_mm"] is not None):
angle_rad = math.radians(item["KurvenWinkel"])
- # 计算并打印基本值(Doppelweiche特有公式)
+ # Calculate and print basic values (Doppelweiche specific formula)
old_width = item.get("Objekte_width_mm")
item["Objekte_width_mm"] = round(
(BogenProfileWidth/2 * math.cos(angle_rad)) +
item["OFWeiche_center_line_width_mm"] +
BogenProfileWidth/2 * math.cos(angle_rad), 3)
- print(f"\nObjekte_width_mm 计算更新: {old_width} → {item['Objekte_width_mm']}")
+ print(f"\nObjekte_width_mm calculated update: {old_width} → {item['Objekte_width_mm']}")
old_height = item.get("Objekte_height_mm")
item["Objekte_height_mm"] = round(
(BogenProfileWidth/2 * math.sin(angle_rad)) +
item["OFWeiche_center_line_height_mm"], 3)
- print(f"Objekte_height_mm 计算更新: {old_height} → {item['Objekte_height_mm']}")
+ print(f"Objekte_height_mm calculated update: {old_height} → {item['Objekte_height_mm']}")
- # 计算并打印CP点坐标(Doppelweiche特有公式)
+ # Calculate and print CP point coordinates (Doppelweiche specific formula)
item["OFWeiche_CP1_x_mm"] = round(item["Objekte_width_mm"]/2, 3)
- print(f"OFWeiche_CP1_x_mm 计算更新: {item['OFWeiche_CP1_x_mm']}")
+ print(f"OFWeiche_CP1_x_mm calculated update: {item['OFWeiche_CP1_x_mm']}")
item["OFWeiche_CP1_y_mm"] = round(item["Objekte_height_mm"], 3)
- print(f"OFWeiche_CP1_y_mm 计算更新: {item['OFWeiche_CP1_y_mm']}")
+ print(f"OFWeiche_CP1_y_mm calculated update: {item['OFWeiche_CP1_y_mm']}")
item["OFWeiche_CP2_x_mm"] = round(BogenProfileWidth/2 * math.cos(angle_rad), 3)
- print(f"OFWeiche_CP2_x_mm 计算更新: {item['OFWeiche_CP2_x_mm']}")
+ print(f"OFWeiche_CP2_x_mm calculated update: {item['OFWeiche_CP2_x_mm']}")
item["OFWeiche_CP2_y_mm"] = round(BogenProfileWidth/2 * math.sin(angle_rad), 3)
- print(f"OFWeiche_CP2_y_mm 计算更新: {item['OFWeiche_CP2_y_mm']}")
+ print(f"OFWeiche_CP2_y_mm calculated update: {item['OFWeiche_CP2_y_mm']}")
item["OFWeiche_CP3_x_mm"] = round(
BogenProfileWidth/2 * math.cos(angle_rad) +
item["OFWeiche_center_line_width_mm"], 3)
- print(f"OFWeiche_CP3_x_mm 计算更新: {item['OFWeiche_CP3_x_mm']}")
+ print(f"OFWeiche_CP3_x_mm calculated update: {item['OFWeiche_CP3_x_mm']}")
item["OFWeiche_CP3_y_mm"] = item["OFWeiche_CP2_y_mm"]
- print(f"OFWeiche_CP3_y_mm 设置: {item['OFWeiche_CP3_y_mm']}")
+ print(f"OFWeiche_CP3_y_mm set: {item['OFWeiche_CP3_y_mm']}")
- # 1. 查找类似项1(D型P型)
+ # 1. Find similar items (D-type P-type)
current_profil = item["ProfilTyp"]
if "S D" in current_profil:
d_p_profil = current_profil.replace("MIT M", "MIT P")
@@ -363,11 +361,11 @@ def process_doppelweiche_items(data,BogenProfileWidth, WeichenGerade):
x.get("SivasnrTEF") is None]
if similar_items_d_p:
- print(f"\n找到 {len(similar_items_d_p)} 个D型P型相似项")
+ print(f"\nFound {len(similar_items_d_p)} D-type P-type similar items")
for similar in similar_items_d_p:
- print(f"正在更新D型P型相似项: {similar['ProfilTyp']} (Sivasnr: {similar['Sivasnr']})")
+ print(f"Updating D-type P-type similar item: {similar['ProfilTyp']} (Sivasnr: {similar['Sivasnr']})")
- # 更新所有字段
+ # Update all fields
fields_to_copy = [
"OFWeiche_center_line_width_mm",
"OFWeiche_center_line_height_mm",
@@ -386,9 +384,9 @@ def process_doppelweiche_items(data,BogenProfileWidth, WeichenGerade):
similar[field] = item[field]
print(f" {field}: {old_val} → {similar[field]}")
else:
- print("没有找到D型P型相似项")
+ print("No D-type P-type similar items found")
- # 2. 查找类似项2(T型M型)
+ # 2. Find similar items (T-type M-type)
if "S D" in current_profil:
t_m_profil = current_profil.replace("S D", "S T")
@@ -398,13 +396,13 @@ def process_doppelweiche_items(data,BogenProfileWidth, WeichenGerade):
x.get("Schaltungstyp") == "M"]
if similar_items_t_m:
- print(f"\n找到 {len(similar_items_t_m)} 个T型M型相似项")
+ print(f"\nFound {len(similar_items_t_m)} T-type M-type similar items")
for similar in similar_items_t_m:
- print(f"正在更新T型M型相似项: {similar['ProfilTyp']} (Sivasnr: {similar['Sivasnr']})")
+ print(f"Updating T-type M-type similar item: {similar['ProfilTyp']} (Sivasnr: {similar['Sivasnr']})")
if similar["KurvenWinkel"] == 22.5:
- print("检测到KurvenWinkel=22.5,采用特殊处理方式")
+ print("Detected KurvenWinkel=22.5, applying special handling")
- # 特殊处理逻辑
+ # Special handling logic
similar["OFWeiche_center_line_width_mm"] = item["OFWeiche_center_line_width_mm"]
print(f" OFWeiche_center_line_width_mm: → {similar['OFWeiche_center_line_width_mm']}")
@@ -436,7 +434,7 @@ def process_doppelweiche_items(data,BogenProfileWidth, WeichenGerade):
print(f" OFWeiche_CP3_y_mm: → 20")
else:
- # 更新基本字段
+ # Update basic fields
base_fields = [
"OFWeiche_center_line_width_mm",
"OFWeiche_center_line_height_mm",
@@ -455,14 +453,14 @@ def process_doppelweiche_items(data,BogenProfileWidth, WeichenGerade):
similar[field] = item[field]
print(f" {field}: {old_val} → {similar[field]}")
- # 添加CP4点(T型特有)
+ # Add CP4 point (T-type specific)
similar["OFWeiche_CP4_x_mm"] = round(item["Objekte_width_mm"]/2, 3)
- print(f" OFWeiche_CP4_x_mm 添加: {similar['OFWeiche_CP4_x_mm']}")
+ print(f" OFWeiche_CP4_x_mm added: {similar['OFWeiche_CP4_x_mm']}")
similar["OFWeiche_CP4_y_mm"] = round(item["Objekte_height_mm"] - WeichenGerade, 3)
- print(f" OFWeiche_CP4_y_mm 添加: {similar['OFWeiche_CP4_y_mm']}")
+ print(f" OFWeiche_CP4_y_mm added: {similar['OFWeiche_CP4_y_mm']}")
- # 3. 查找T型P型对应项
+ # 3. Find T-type P-type counterparts
t_p_profil = t_m_profil.replace("MIT M", "MIT P")
similar_items_t_p = [x for x in data
@@ -471,11 +469,11 @@ def process_doppelweiche_items(data,BogenProfileWidth, WeichenGerade):
x.get("Schaltungstyp") == "P"]
if similar_items_t_p:
- print(f"\n找到 {len(similar_items_t_p)} 个T型P型对应项")
+ print(f"\nFound {len(similar_items_t_p)} T-type P-type counterparts")
for similar_t_p in similar_items_t_p:
- print(f"正在更新T型P型对应项: {similar_t_p['ProfilTyp']} (Sivasnr: {similar_t_p['Sivasnr']})")
+ print(f"Updating T-type P-type counterpart: {similar_t_p['ProfilTyp']} (Sivasnr: {similar_t_p['Sivasnr']})")
- # 更新所有字段包括CP4点
+ # Update all fields including CP4 point
fields_to_copy_t_p = [
"OFWeiche_center_line_width_mm",
"OFWeiche_center_line_height_mm",
@@ -496,19 +494,19 @@ def process_doppelweiche_items(data,BogenProfileWidth, WeichenGerade):
similar_t_p[field] = similar[field]
print(f" {field}: {old_val} → {similar_t_p[field]}")
- # 添加保存确认提示
- save_choice = input(f"是否确认更新此项? (直接回车确认,输入n取消): ").lower()
+ # Add save confirmation prompt
+ save_choice = input(f"Confirm update for this item? (Enter to confirm, 'n' to cancel): ").lower()
if save_choice == 'n':
- print("此项更新已取消")
- # 恢复原值
+ print("Update for this item cancelled")
+ # Restore original values
for field in fields_to_copy_t_p:
similar_t_p[field] = old_val
else:
- print("没有找到T型P型对应项")
+ print("No T-type P-type counterparts found")
else:
- print("没有找到T型M型相似项")
+ print("No T-type M-type similar items found")
def process_dreifachweiche_items(data, WeichenkProfileWidth):
- # 筛选Dreifachweiche类型的项
+ # Filter Dreifachweiche type items
filtered_items = [
item for item in data
if (item.get("WeichenTyp") == "Dreifachweiche" and
@@ -516,52 +514,52 @@ def process_dreifachweiche_items(data, WeichenkProfileWidth):
item.get("SivasnrTEF") is None)
]
- print(f"\n\n共找到 {len(filtered_items)} 项Dreifachweiche类型记录")
+ print(f"\n\nFound {len(filtered_items)} Dreifachweiche type records")
print("="*50)
for idx, item in enumerate(filtered_items, 1):
- print(f"\n第 {idx} 项Dreifachweiche:")
+ print(f"\nDreifachweiche item {idx}:")
print(f"Sivasnr: {item['Sivasnr']}")
print(f"ProfilTyp: {item['ProfilTyp']}")
- # 交互修改OFWeiche_center_line_width_mm
+ # Interactive modification of OFWeiche_center_line_width_mm
current_value = item.get("OFWeiche_center_line_width_mm")
- print(f"\n当前 OFWeiche_center_line_width_mm: {current_value}")
- choice = input("是否修改? (y修改,直接回车跳过): ").lower()
+ print(f"\nCurrent OFWeiche_center_line_width_mm: {current_value}")
+ choice = input("Modify? (y to modify, Enter to skip): ").lower()
if choice == 'y':
- new_value = input(f"请输入新值 (当前: {current_value}): ")
+ new_value = input(f"Enter new value (current: {current_value}): ")
try:
old_value = item["OFWeiche_center_line_width_mm"]
item["OFWeiche_center_line_width_mm"] = round(float(new_value), 3) if new_value.lower() != 'null' else None
- print(f"值已更新: {old_value} → {item['OFWeiche_center_line_width_mm']}")
+ print(f"Value updated: {old_value} → {item['OFWeiche_center_line_width_mm']}")
except ValueError:
- print("输入无效,保持原值")
+ print("Invalid input, keeping original value")
- # 交互修改OFWeiche_center_line_height_mm
+ # Interactive modification of OFWeiche_center_line_height_mm
current_value = item.get("OFWeiche_center_line_height_mm")
- print(f"\n当前 OFWeiche_center_line_height_mm: {current_value}")
- choice = input("是否修改? (y修改,直接回车跳过): ").lower()
+ print(f"\nCurrent OFWeiche_center_line_height_mm: {current_value}")
+ choice = input("Modify? (y to modify, Enter to skip): ").lower()
if choice == 'y':
- new_value = input(f"请输入新值 (当前: {current_value}): ")
+ new_value = input(f"Enter new value (current: {current_value}): ")
try:
old_value = item["OFWeiche_center_line_height_mm"]
item["OFWeiche_center_line_height_mm"] = round(float(new_value), 3) if new_value.lower() != 'null' else None
- print(f"值已更新: {old_value} → {item['OFWeiche_center_line_height_mm']}")
+ print(f"Value updated: {old_value} → {item['OFWeiche_center_line_height_mm']}")
except ValueError:
- print("输入无效,保持原值")
+ print("Invalid input, keeping original value")
- # 计算相关值
+ # Calculate related values
if (item["OFWeiche_center_line_width_mm"] is not None and
item["OFWeiche_center_line_height_mm"] is not None):
- # 计算基本尺寸
+ # Calculate basic dimensions
item["Objekte_width_mm"] = round(item["OFWeiche_center_line_width_mm"], 3)
- print(f"\nObjekte_width_mm 计算更新: {item['Objekte_width_mm']}")
+ print(f"\nObjekte_width_mm calculated update: {item['Objekte_width_mm']}")
item["Objekte_height_mm"] = round(WeichenkProfileWidth/2 + item["OFWeiche_center_line_height_mm"], 3)
- print(f"Objekte_height_mm 计算更新: {item['Objekte_height_mm']}")
+ print(f"Objekte_height_mm calculated update: {item['Objekte_height_mm']}")
- # 计算控制点
+ # Calculate control points
item["OFWeiche_CP1_x_mm"] = round(item["Objekte_width_mm"]/2, 3)
item["OFWeiche_CP1_y_mm"] = 0
item["OFWeiche_CP2_x_mm"] = 0
@@ -575,7 +573,7 @@ def process_dreifachweiche_items(data, WeichenkProfileWidth):
print(f"OFWeiche_CP3_x_mm: {item['OFWeiche_CP3_x_mm']}")
print(f"OFWeiche_CP3_y_mm: {item['OFWeiche_CP3_y_mm']}")
- # 查找相似项(P型)
+ # Find similar items (P-type)
if "WEICHE S C DELTA" in item["ProfilTyp"]:
similar_profil = item["ProfilTyp"].replace("KPL. M", "KPL. P")
@@ -584,9 +582,9 @@ def process_dreifachweiche_items(data, WeichenkProfileWidth):
x.get("SivasnrTEF") is None]
if similar_items:
- print(f"\n找到 {len(similar_items)} 个相似P型项")
+ print(f"\nFound {len(similar_items)} similar P-type items")
for similar in similar_items:
- print(f"\n正在更新: {similar['ProfilTyp']} (Sivasnr: {similar['Sivasnr']})")
+ print(f"\nUpdating: {similar['ProfilTyp']} (Sivasnr: {similar['Sivasnr']})")
fields_to_copy = [
"OFWeiche_center_line_width_mm",
@@ -601,22 +599,22 @@ def process_dreifachweiche_items(data, WeichenkProfileWidth):
"OFWeiche_CP3_y_mm"
]
- print("\n更新中:")
+ print("\nUpdating:")
for field in fields_to_copy:
print(f" {field}: {similar.get(field)} → {item[field]}")
- similar[field] = item[field]# 实际更新相似项的值
+ similar[field] = item[field] # Actually update the similar item's value
- choice = input("\n确认更新此项? (回车确认/n取消): ").lower()
+ choice = input("\nConfirm update for this item? (Enter to confirm/n to cancel): ").lower()
if choice == 'n':
- print("取消此项更新")
+ print("Update for this item cancelled")
for field in fields_to_copy:
similar[field] = similar[field]
else:
- print("此项更新已确认")
+ print("Update for this item confirmed")
else:
- print("没有找到相似P型项")
+ print("No similar P-type items found")
if __name__ == "__main__":
- json_file_path = "omniflo_weichen.json" # 替换为你的JSON文件路径
+ json_file_path = "omniflo_weichen.json" # Replace with your JSON file path
modify_json_values(json_file_path)
\ No newline at end of file