facat
/
transsimision_line_section
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity

1.加入了画塔号和呼高。

This commit is contained in:
n3040 2022-07-25 18:21:55 +08:00
parent c56703e609
commit 35e67a51f9
2 changed files with 25 additions and 532 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

32
PWFile.py
View File

@ -382,7 +382,9 @@ class ContinuousPlate:
if is_first_tower: if is_first_tower:
accu_altitude_off = 0 accu_altitude_off = 0
else: else:
accu_altitude_off = accu_altitude_off + tower_info.altitude_off # 中心桩高程 accu_altitude_off = (
accu_altitude_off + tower_info.altitude_off
) # 中心桩高程
tower_start = APoint( tower_start = APoint(
*( *(
( (
@ -397,28 +399,26 @@ class ContinuousPlate:
) )
) )
tower_height = tower_info.tower_height tower_height = tower_info.tower_height
# accu_altitude_off = np.sum( np_tower_end = first_tower_point + np.array(
# [
# tower_dict[tower_key_list[bar]].altitude_off
# for bar in range(
# tower_key_list.index(start_tower_name) + 1,
# tower_key_list.index(start_tower_name) + draw_count,
# )
# ]
# )
tower_end = APoint(
*(
first_tower_point
+ np.array(
[ [
accu_mileage / 5, accu_mileage / 5,
(accu_altitude_off + tower_height - foundation_low) * 2, (accu_altitude_off + tower_height - foundation_low) * 2,
] ]
) )
).tolist() tower_end = APoint(*np_tower_end.tolist())
)
# 画杆高 # 画杆高
cad.model.AddLine(tower_start, tower_end) cad.model.AddLine(tower_start, tower_end)
# 画塔名和呼高
cad.model.AddText(
f"{tower_info.tower_name}",
APoint(*(np_tower_end + np.array([-5, 13])).tolist()),
5,
)
cad.model.AddText(
f"{tower_info.tower_type}-{tower_info.tower_height}",
APoint(*(np_tower_end + np.array([-5, 5])).tolist()),
5,
)
draw_count += 1 draw_count += 1
# 画弧垂 # 画弧垂
if not is_first_tower: # 从第二基塔开始画 if not is_first_tower: # 从第二基塔开始画

515
main.py
View File

@ -1,517 +1,7 @@
from tkinter.messagebox import NO from PWFile import ControlFile
import xlwings as xw
from PWFile import SFile, Fitting, ColorEnume
from Apyautocad import Apyautocad, APoint
import os
import re
import numpy as np
from time import sleep
from attrs import define
from typing import List
# 读取Z文件找到Z断面第一个点的坐标
def plane_z_origin(z_file_path):
with open(z_file_path) as zfile:
content = zfile.read()
norm_content = re.sub("\s+", ",", content)
sep = norm_content.split(",")
return np.array([float(sep[0]), float(sep[1])])
def deduce_zfile_from_cad_path(cad_file_path):
dwg_file_name = os.path.split(cad_file_path)
dwg_prefix = dwg_file_name[1].split(".")[0]
return os.path.join(dwg_file_name[0], f"Z{dwg_prefix}")
def deduce_fit_db_from_cad_path(cad_file_path):
dwg_file_name = os.path.split(cad_file_path)
dwg_prefix = dwg_file_name[1].split(".")[0]
return os.path.join(dwg_file_name[0], "Fit.db")
def curve_fun(x, span, k, gaocha):
return x * gaocha / span - x * (span - x) * k
def np2d_to_array(np2d): # 把2维numpy数组转换成cad可以用的数组
t = np.hstack((np2d, np.zeros((np2d.shape[0], 1)))).reshape(1, np2d.shape[0] * 3)
return t[0]
class StringImpactExcel:
def __init__(self) -> None:
# self._wb=None
pass
def read(self, wb, gaocha, span, tension):
pos代表档距 = "F13"
pos档距 = "L13"
pos高差 = "R13"
pos张力 = "AB18"
pos总串长 = "C8"
sheet = wb.sheets["3225-3226"]
sheet.range(pos高差).value = gaocha
sheet.range(pos档距).value = span
sheet.range(pos张力).value = tension
string_length = sheet.range(pos总串长).value
# print(sheet.range("V25:V46").value)
x = np.linspace(string_length, span, int(span / 5), endpoint=True)
x[0] = sheet.range("E23").value
x[1] = sheet.range("E24").value
sheet.range(f"E25:E{25+len(x)-3}").value = x[2:].reshape(len(x[2:]), 1)
y = (
np.array(sheet.range(f"V23:V{23+len(x)-1}").value) / 2
) # 表格是乘以了2的为了和x保持一致没有乘比例。
return (x, y)
def set_true_color(object, r, g, b):
true_color = object.TrueColor
true_color.SetRGB(r, g, b)
object.TrueColor = true_color
@define
class StringImpactPlate:
_dwg_file_path: str
_s_file_path: str
_draw_start_tower_name: str
# _tension_section:int#耐张段数量
_continouse_tension_excel: str
_string_impact_curve_excel: str
def _find_target_tower_index(self, start_tower_name: str, tower_dict):
index = []
tower_key_list = list(tower_dict.keys())
index.append(tower_key_list.index(start_tower_name))
can_start_find = False
for tower_key in tower_key_list:
# index.append(start_tower_name.index(foo))
tower_info = tower_dict[tower_key]
if tower_info.tower_name == start_tower_name:
can_start_find = True
continue
if can_start_find and tower_info.is_tension_tower == True:
found_tower_name = tower_info.tower_name
index.append(tower_key_list.index(found_tower_name))
break
return index
def _plot(self, cad,plot_x,plot_y):
plot_vector = np2d_to_array(np.hstack((plot_x, plot_y)))
added_curve = cad.model.AddPolyLine(plot_vector)
set_true_color(added_curve, *ColorEnume.wire_color_rgb)
plot_ground_y = plot_y - 18 * 2
plot_ground_vector = np2d_to_array(np.hstack((plot_x, plot_ground_y)))
added_ground_curve = cad.model.AddPolyLine(plot_ground_vector)
set_true_color(added_ground_curve, *ColorEnume.ground_color_rgb)
plot_tree_y = plot_y - 13.5 * 2
plot_tree_vector = np2d_to_array(np.hstack((plot_x, plot_tree_y)))
added_tree_curve = cad.model.AddPolyLine(plot_tree_vector)
set_true_color(added_tree_curve, *ColorEnume.tree_color_rgb)
def draw(self):
# 计算代表档距
s_file = SFile()
s_file.open(self._s_file_path)
tower_dict = s_file.tower_dic
tower_key_list = list(tower_dict.keys())
draw_tower_index = self._find_target_tower_index(
self._draw_start_tower_name, tower_dict
)
fitting_file_path = deduce_fit_db_from_cad_path(self._dwg_file_path)
fitting = Fitting(fitting_file_path)
z_file_path = deduce_zfile_from_cad_path(self._dwg_file_path)
plate_origin = plane_z_origin(z_file_path)
with xw.App(visible=True) as excel_app, Apyautocad(
create_if_not_exists=True, visible=True, auto_close=False
) as cad:
continouse_wb = excel_app.books.open("张力计算(临界档距公式法V20090602)-送电室版).xls")
continouse_sheet = continouse_wb.sheets["2710导线-单回1250-70"]
wb_string_impact = excel_app.books.open(
"特高压耐张串影响弧垂计算送电室2018人员版1122-1218.xls"
)
stringImpactExcel = StringImpactExcel()
cad.app.Documents.Open(self._dwg_file_path)
sleep(1)
draw_first_tower_key = tower_key_list[draw_tower_index[0]]
first_tower_info = tower_dict[draw_first_tower_key]
forth_reprtv_span = first_tower_info.forth_representive_span
continouse_sheet.range("B69").value = forth_reprtv_span
high_temperature_tension = continouse_sheet.range("L69").value
forth_tower_info = tower_dict[tower_key_list[draw_tower_index[0] + 1]]
gaocha_of_first_tower = (
(
forth_tower_info.tower_height
- forth_tower_info.foundation_low
- fitting.fitting_length_dic[forth_tower_info.fitting]
)
- (
first_tower_info.tower_height
- first_tower_info.foundation_low
)
+ forth_tower_info.altitude_off
)
span_of_first_tower = (
forth_tower_info.mileage_in_s - first_tower_info.mileage_in_s
)
(x, y) = stringImpactExcel.read(
wb_string_impact,
gaocha_of_first_tower,
span_of_first_tower,
high_temperature_tension,
)
# TODO: 没有考虑断面中间有耐张塔的情况
plot_x = (plate_origin[0] + x / 5).reshape(len(x), 1)
plot_y = (
plate_origin[1]
+ (first_tower_info.tower_height - first_tower_info.foundation_low + y)
* 2
).reshape(len(x), 1)
self._plot(cad,plot_x,plot_y)
# 画右侧耐张塔的弧垂
draw_last_tower_key = tower_key_list[draw_tower_index[-1]]
last_tower_info = tower_dict[draw_last_tower_key]
back_reprtv_span = last_tower_info.back_representive_span
back_tower_info = tower_dict[tower_key_list[draw_tower_index[-1] - 1]]
gaocha_of_last_tower = (
(
back_tower_info.tower_height
- back_tower_info.foundation_low
- fitting.fitting_length_dic[back_tower_info.fitting]
)
- (
last_tower_info.tower_height
- last_tower_info.foundation_low
)
- last_tower_info.altitude_off
)
span_of_last_tower = (
last_tower_info.mileage_in_s - back_tower_info.mileage_in_s
)
(x, y) = stringImpactExcel.read(
wb_string_impact,
gaocha_of_last_tower,
span_of_last_tower,
high_temperature_tension,
)
plot_last_tower_x = (
plate_origin[0]
+ (
tower_dict[tower_key_list[draw_tower_index[-1]]].mileage_in_s
- tower_dict[tower_key_list[draw_tower_index[0]]].mileage_in_s
)
/ 5
- x / 5#从右往左画
).reshape(len(x), 1)
accumulate_altitude_off = np.sum(
[
tower_dict[tower_key_list[bar]].altitude_off
for bar in range(draw_tower_index[0] + 1, draw_tower_index[-1] + 1)
]
)
plot_last_tower_y = (
plate_origin[1]
+ accumulate_altitude_off * 2
+ (last_tower_info.tower_height - last_tower_info.foundation_low + y)
* 2
).reshape(len(x), 1)
plot_last_tower_vector=np2d_to_array(np.hstack((plot_last_tower_x, plot_last_tower_y)))
self._plot(cad,plot_last_tower_x,plot_last_tower_y)
@define
class ContinuousPlate:
_dwg_file_path: str
_s_file_path: str
_from_tower_name: str
_draw_tower_count: int
def draw(self, save_to: str):
s_file = SFile()
s_file_path = self._s_file_path
s_file.open(s_file_path)
dwg_file_path = self._dwg_file_path
with Apyautocad(
create_if_not_exists=True, visible=False, auto_close=False
) as cad:
doc = cad.app.Documents.Open(dwg_file_path)
sleep(1)
z_file_path = deduce_zfile_from_cad_path(dwg_file_path)
z_point = plane_z_origin(z_file_path)
fitting_file_path = deduce_fit_db_from_cad_path(dwg_file_path)
fitting = Fitting(fitting_file_path)
fitting_length_dict = fitting.fitting_length_dic
first_tower_point = z_point
last_tower_info = None # 上一个塔位信息
accu_mileage = 0 # 累计档距
accu_altitude_off = 0 # 累计高差
is_first_tower = True
can_start_draw = -1
start_tower_name = self._from_tower_name
draw_count = 0
for tower in s_file.tower_dic:
tower_info = s_file.tower_dic[tower]
if tower_info.tower_name == start_tower_name:
can_start_draw = 0
if can_start_draw < 0 or draw_count > self._draw_tower_count - 1:
break
if not last_tower_info:
last_tower_info = tower_info
foundation_low = tower_info.foundation_low
accu_mileage = (
accu_mileage
+ tower_info.mileage_in_s
- last_tower_info.mileage_in_s
)
accu_altitude_off = accu_altitude_off + tower_info.altitude_off # 中心桩高程
tower_start = APoint(
*(
(
first_tower_point
+ np.array(
[
accu_mileage / 5,
(accu_altitude_off - foundation_low) * 2,
]
)
).tolist()
)
)
tower_height = tower_info.tower_height
tower_end = APoint(
*(
first_tower_point
+ np.array(
[
accu_mileage / 5,
(accu_altitude_off + tower_height - foundation_low) * 2,
]
)
).tolist()
)
# 画杆高
cad.model.AddLine(tower_start, tower_end)
draw_count += 1
# 画弧垂
if not is_first_tower: # 从第二基塔开始画
draw_k = tower_info.back_k
span = tower_info.mileage_in_s - last_tower_info.mileage_in_s
last_tower_fiting = last_tower_info.fitting
last_tower_fitting_length = fitting_length_dict[last_tower_fiting]
if last_tower_info.is_tension_tower:
last_tower_fitting_length = 0
tower_fitting = tower_info.fitting
tower_fitting_length = fitting_length_dict[tower_fitting]
if tower_info.is_tension_tower:
tower_fitting_length = 0
last_tower_height = last_tower_info.tower_height
last_foundation_low = last_tower_info.foundation_low
# 挂点高差
fiting_altitude_off = (
tower_info.altitude_off
+ (tower_height - foundation_low - tower_fitting_length)
- (
last_tower_height
- last_foundation_low
- last_tower_fitting_length
)
) # 前侧高为正
# 画导线弧垂
x = np.linspace(0, span, int(span), endpoint=True)
curve = curve_fun(x, span, draw_k, fiting_altitude_off)
draw_curve_x = (first_tower_point[0]) + (
x + accu_mileage - span
) / 5
draw_curve_y = (
first_tower_point[1]
+ (
+curve
+ accu_altitude_off
- tower_info.altitude_off
- last_tower_info.foundation_low
+ last_tower_info.tower_height
- last_tower_fitting_length
)
* 2
)
draw_curve_x = draw_curve_x.reshape(len(draw_curve_x), 1)
draw_curve_y = draw_curve_y.reshape(len(draw_curve_y), 1)
draw_ground_curve_y = draw_curve_y - 18 * 2 # 切地线
draw_tree_curve_y = draw_curve_y - 13.5 * 2 # 切树线
draw_point = np.hstack(
(draw_curve_x, draw_curve_y, np.zeros((len(draw_curve_x), 1)))
)
draw_ground_curve_point = np.hstack(
(
draw_curve_x,
draw_ground_curve_y,
np.zeros((len(draw_curve_x), 1)),
)
)
draw_tree_curve_point = np.hstack(
(
draw_curve_x,
draw_tree_curve_y,
np.zeros((len(draw_curve_x), 1)),
)
)
added_curve = cad.model.AddPolyLine(
draw_point.reshape(1, draw_curve_x.shape[0] * 3)[0]
)
set_true_color(added_curve, Color)
added_ground_curve = cad.model.AddPolyLine(
draw_ground_curve_point.reshape(
1, draw_ground_curve_y.shape[0] * 3
)[0]
)
set_true_color(added_ground_curve, 122, 219, 245)
added_tree_curve = cad.model.AddPolyLine(
draw_tree_curve_point.reshape(
1, draw_tree_curve_y.shape[0] * 3
)[0]
)
set_true_color(added_tree_curve, 116, 230, 165)
is_first_tower = False
last_tower_info = tower_info
doc.SaveAs(save_to)
def main1(): def main1():
s_file = SFile()
s_file.open(r"d:\工程\金上线\排位\定位完排位\PW.0706\J33-J49\S033.DAT")
# with xw.App(visible=False) as app:
# wb_string_impact = app.books.open("特高压耐张串影响弧垂计算送电室2018人员版1122-1218.xls")
# stringImpactExcel = StringImpactExcel()
# stringImpactExcel.read(wb_string_impact)
with Apyautocad(create_if_not_exists=True, visible=False, auto_close=False) as cad:
doc = cad.app.Documents.Open(r"d:\工程\金上线\排位\定位完排位\PW.0706\J33-J49\033A.dwg")
sleep(1)
z_file_path = deduce_zfile_from_cad_path(
r"d:\工程\金上线\排位\定位完排位\PW.0706\J33-J49\033A.dwg"
)
z_point = plane_z_origin(z_file_path)
fitting_file_path = deduce_fit_db_from_cad_path(
r"d:\工程\金上线\排位\定位完排位\PW.0706\J33-J49\033A.dwg"
)
fitting = Fitting(fitting_file_path)
fitting_length_dict = fitting.fitting_length_dic
first_tower_point = z_point
last_tower_info = None # 上一个塔位信息
accu_mileage = 0 # 累计档距
accu_altitude_off = 0 # 累计高差
is_first_tower = True
for tower in s_file.tower_dic:
tower_info = s_file.tower_dic[tower]
if not last_tower_info:
last_tower_info = tower_info
foundation_low = tower_info.foundation_low
accu_mileage = (
accu_mileage + tower_info.mileage_in_s - last_tower_info.mileage_in_s
)
accu_altitude_off = accu_altitude_off + tower_info.altitude_off # 中心桩高程
tower_start = APoint(
*(
(
first_tower_point
+ np.array(
[accu_mileage / 5, (accu_altitude_off - foundation_low) * 2]
)
).tolist()
)
)
tower_height = tower_info.tower_height
tower_end = APoint(
*(
first_tower_point
+ np.array(
[
accu_mileage / 5,
(accu_altitude_off + tower_height - foundation_low) * 2,
]
)
).tolist()
)
# 画杆高
cad.model.AddLine(tower_start, tower_end)
# 画弧垂
if not is_first_tower: # 从第二基塔开始画
draw_k = tower_info.back_k
span = tower_info.mileage_in_s - last_tower_info.mileage_in_s
last_tower_fiting = last_tower_info.fitting
last_tower_fitting_length = fitting_length_dict[last_tower_fiting]
if last_tower_info.is_tension_tower:
last_tower_fitting_length = 0
tower_fitting = tower_info.fitting
tower_fitting_length = fitting_length_dict[tower_fitting]
if tower_info.is_tension_tower:
tower_fitting_length = 0
last_tower_height = last_tower_info.tower_height
last_foundation_low = last_tower_info.foundation_low
# 挂点高差
fiting_altitude_off = (
tower_info.altitude_off
+ (tower_height - foundation_low - tower_fitting_length)
- (
last_tower_height
- last_foundation_low
- last_tower_fitting_length
)
) # 前侧高为正
# 画导线弧垂
x = np.linspace(0, span, int(span), endpoint=True)
curve = curve_fun(x, span, draw_k, fiting_altitude_off)
draw_curve_x = (first_tower_point[0]) + (x + accu_mileage - span) / 5
draw_curve_y = (
first_tower_point[1]
+ (
+curve
+ accu_altitude_off
- tower_info.altitude_off
- last_tower_info.foundation_low
+ last_tower_info.tower_height
- last_tower_fitting_length
)
* 2
)
draw_curve_x = draw_curve_x.reshape(len(draw_curve_x), 1)
draw_curve_y = draw_curve_y.reshape(len(draw_curve_y), 1)
draw_ground_curve_y = draw_curve_y - 18 * 2 # 切地线
draw_tree_curve_y = draw_curve_y - 13.5 * 2 # 切树线
draw_point = np.hstack(
(draw_curve_x, draw_curve_y, np.zeros((len(draw_curve_x), 1)))
)
draw_ground_curve_point = np.hstack(
(
draw_curve_x,
draw_ground_curve_y,
np.zeros((len(draw_curve_x), 1)),
)
)
draw_tree_curve_point = np.hstack(
(draw_curve_x, draw_tree_curve_y, np.zeros((len(draw_curve_x), 1)))
)
added_curve = cad.model.AddPolyLine(
draw_point.reshape(1, draw_curve_x.shape[0] * 3)[0]
)
set_true_color(added_curve, *ColorEnume.wire_color_rgb)
added_ground_curve = cad.model.AddPolyLine(
draw_ground_curve_point.reshape(
1, draw_ground_curve_y.shape[0] * 3
)[0]
)
set_true_color(added_ground_curve, *ColorEnume.ground_color_rgb)
added_tree_curve = cad.model.AddPolyLine(
draw_tree_curve_point.reshape(1, draw_tree_curve_y.shape[0] * 3)[0]
)
set_true_color(added_tree_curve, *ColorEnume.tree_color_rgb)
is_first_tower = False
last_tower_info = tower_info
doc.SaveAs(r"d:\工程\金上线\code\考虑耐张串重弧垂\T033A.dwg")
def main():
# continousePlate = ContinuousPlate( # continousePlate = ContinuousPlate(
# r"d:\工程\金上线\排位\定位完排位\PW.0706\J33-J49\033A.dwg", # r"d:\工程\金上线\排位\定位完排位\PW.0706\J33-J49\033A.dwg",
# r"d:\工程\金上线\排位\定位完排位\PW.0706\J33-J49\S033.DAT", # r"d:\工程\金上线\排位\定位完排位\PW.0706\J33-J49\S033.DAT",
@ -528,6 +18,9 @@ def main():
) )
string_impact_plate.draw() string_impact_plate.draw()
def main():
cf=ControlFile(r'd:\工程\金上线\排位\定位完排位\PW.0706\J49-158\Z156控制文件.xlsx')
cf.draw()
if __name__ == "__main__": if __name__ == "__main__":
main() main()