transsimision_line_section/main.py

from tkinter.messagebox import NO
import xlwings as xw
from PWFile import SFile, Fitting
from Apyautocad import Apyautocad, APoint
import os
import re
import numpy as np
from time import sleep

# 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


class StringImpactExcel:
    def __init__(self) -> None:
        # self._wb=None
        pass

    def read(self, wb):
        # with xw.App(visible=True) as app:
        pos代表档距 = "F13"
        pos档距 = "L13"
        pos高差 = "R13"
        pos张力 = "AB18"
        pos档距21 = "E25"
        sheet = wb.sheets["3225-3226"]
        print(sheet.range("V25:V46").value)

def set_true_color(object,r,g,b):
    true_color=object.TrueColor
    true_color.SetRGB(r,g,b)

def main():
    # with xw.App(visible=False) as app:
    #     wb = app.books.open('张力计算(临界档距公式法V20090602)-送电室版).xls')
    #     sheet = wb.sheets['2710导线-单回1250-70']
    #     sheet.range('B69').value=120
    #     print(sheet.range('L69').value)
    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) 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,122,219,245)
                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_true_curve=cad.model.AddPolyLine(
                    draw_tree_curve_point.reshape(1, draw_tree_curve_y.shape[0] * 3)[0]
                )
                set_true_color(added_true_curve, 116, 230, 165)
            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")


main()