-
Notifications
You must be signed in to change notification settings - Fork 0
/
Copy pathAeroDynamic.cpp
301 lines (260 loc) · 11.7 KB
/
AeroDynamic.cpp
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
// 气动系数--三维线性插值完成测试 -- 2024 - 12-02
// findIndices()函数的气动表的行数需要更改
#include "AeroDynamic.h"
#include <iostream>
#include <cmath>
#include <string>
#include<vector>
#include <fstream>
#include <sstream>
using namespace std;
//
// 函数:查找所有等于 Ma0 - alpha0 -beta0 的索引
vector<int> findIndices(double Data_QidongBiao[877][10], double Ma_alpha_beta0, int col) {
vector<int> indices; // 用于存储符合条件的行索引
// 遍历 Data_QidongBiao 的指定列
for (int i = 0; i < 877; ++i) {
if (Data_QidongBiao[i][col] == Ma_alpha_beta0) { // 如果当前列的值等于 Ma0
indices.push_back(i); // 保存符合条件的行索引
}
}
return indices;
}
// 函数:计算三个索引数组的交集
vector<int> findCommonIndex(const vector<int>& indices_Ma1, const vector<int>& indices_alpha1, const vector<int>& indices_beta1) {
vector<int> index_common;
// 遍历第一个数组
for (int ma : indices_Ma1) {
// 如果 ma 也在第二个数组中
if (find(indices_alpha1.begin(), indices_alpha1.end(), ma) != indices_alpha1.end()) {
// 并且在第三个数组中
if (find(indices_beta1.begin(), indices_beta1.end(), ma) != indices_beta1.end()) {
index_common.push_back(ma); // 找到交集元素,加入结果数组
}
}
}
return index_common;
}
AerodynamicCoefficients::AerodynamicCoefficients()
{
// 该处代码作用---得到6个三维气动系数数组
// 这里初始化气动系数数据 -- 将 CSV 数据正确地加载并填充到三维数组中
// 你可以从文件中加载这些数据,或者使用某些已知的气动数据进行初始化
// 文件路径 ---- 转化为[文本文件.txt] 制表符分隔的数据文件 , 一般不用读取.csv的逗号分隔的数据文件 ,读取时易出错!
string filePath = R"(D:\GNC\工作_火箭姿控系统\火箭六自由度仿真程序\ZS_1_AttitudeControl_v1.5\RK4\Project1\data_qidong11.txt)";
// 打开文件
ifstream file(filePath);
if (!file.is_open()) {
cerr << "Error opening file: " << filePath << endl;
//return 1; // 文件打开失败,退出程序
}
string line;
vector<vector<double>> QiDongdata; // 用于存储读取的数据
// 逐行读取文件
while (getline(file, line)) {
// 跳过空行
if (line.empty()) {
continue;
}
//cout << "Reading line: " << line << endl; // 调试:输出读取的行
stringstream ss(line); // 使用 stringstream 来拆分每一行的内容
string value;
vector<double> row; // 用于存储每一行的数据
// 逐个读取制表符分隔的值并转化为 double
while (getline(ss, value, '\t')) {
try {
row.push_back(stod(value)); // 将字符串转换为 double 并存储
}
catch (const invalid_argument& e) {
cerr << "Error converting value: '" << value << "' to double." << endl;
}
}
// 如果当前行的数据不完整(列数不符合要求),则跳过
if (row.size() < 10) {
cerr << "Skipping row with insufficient columns: " << line << endl;
continue;
}
// 将有效数据添加到 QiDongdata 中
QiDongdata.push_back(row);
}
file.close(); // 关闭文件
int n = QiDongdata.size(); // 获取数据的行数
cout << "原始气动数据表的行数"<<n << endl;
int NN = n;
// Data_QidongBiao;// = QiDongdata; // n*10的数组
// 创建一个二维数组,初始值为零
double Data_QidongBiao[877][10] = { {0} };
for (int i = 0; i < NN; ++i) {
for (int j = 0; j < 10; ++j) {
// 将 QiDongdata 的数据复制到 Data_QidongBiao 数组
if (i < NN) { // 确保不越界
Data_QidongBiao[i][j] = QiDongdata[i][j];
}
}
}
// 遍历三维数组并赋值
for (int i = 0; i < Mach_num; i++) {
for (int j = 0; j < Alpha_num; j++) {
for (int k = 0; k < Beta_num; k++) {
// 循环遍历-->获得三维插值数组:CX[i][j][k]、CY[i][j][k]、CZ[i][j][k]、CMX[i][j][k]、CMY[i][j][k]、CMZ[i][j][k]
double Ma1 = Ma[i];
double alpha1 = Alpha[j];
double beta1 = Beta[k];
vector<int> indices_Ma1 = findIndices(Data_QidongBiao, Ma1, 1);
vector<int> indices_alpha1 = findIndices(Data_QidongBiao, alpha1, 2);
vector<int> indices_beta1 = findIndices(Data_QidongBiao, beta1, 3);
// 调用 findCommonIndex 函数计算交集-确定唯一一组[Ma,alpha,beta]对应的在气动表中的索引行数
vector<int> commonIndices = findCommonIndex(indices_Ma1, indices_alpha1, indices_beta1);
int IndexOnly;
// 获取交集的索引
if (!commonIndices.empty())
{
IndexOnly = commonIndices.back();
// cout << "共同索引是:" << IndexOnly << endl;
}
else
{
break;
}
CX[i][j][k] = Data_QidongBiao[IndexOnly][4]; // Data_QidongBiao 中第 5 列是 CX
CY[i][j][k] = Data_QidongBiao[IndexOnly][5]; // Data_QidongBiao 中第 6 列是 CY
CZ[i][j][k] = Data_QidongBiao[IndexOnly][6]; // Data_QidongBiao 中第 7 列是 CZ
CMX[i][j][k] = Data_QidongBiao[IndexOnly][7]; // Data_QidongBiao 中第 8 列是 CMX
CMY[i][j][k] = Data_QidongBiao[IndexOnly][8]; // Data_QidongBiao 中第 9 列是 CMY
CMZ[i][j][k] = Data_QidongBiao[IndexOnly][9]; // Data_QidongBiao 中第 10 列是 CMZ
}
}
}
}
void AerodynamicCoefficients::ComputeCoefficients(double mach, double alpha, double beta)
{
int i = 0, j = 0, k = 0;
// 查找最接近的马赫数、攻角和侧滑角的离散点值
for (int ii = 0; ii < Mach_num; ii++) {
if (Ma[ii] >= mach) {
i = ii;
break;
}
}
for (int jj = 0; jj < Alpha_num; jj++) {
if (Alpha[jj] >= alpha) {
j = jj;
break;
}
}
for (int kk = 0; kk < Beta_num; kk++) {
if (Beta[kk] >= beta) {
k = kk;
break;
}
}
// 查找对应的马赫数、攻角、侧滑角的实际值
double Ma1 = Ma[i - 1];
double Ma2 = Ma[i];
double alpha1 = Alpha[j - 1];
double alpha2 = Alpha[j];
double beta1 = Beta[k - 1];
double beta2 = Beta[k];
// CX--三维线性插值
double CX1 = CX[i - 1][j - 1][k - 1];
double CX2 = CX[i - 1][j - 1][k];
double CX3 = CX[i - 1][j][k - 1];
double CX4 = CX[i - 1][j][k];
double CX5 = CX[i][j - 1][k - 1];
double CX6 = CX[i][j - 1][k];
double CX7 = CX[i][j][k - 1];
double CX8 = CX[i][j][k];
// 在侧滑角插值、攻角、马赫数 (Ma) 上三维插值
double inter_CX_beta, inter_CX_alpha, inter_CX_Ma, interpolatedCX;
inter_CX_beta = CX7 + (CX8 - CX7) / (beta2 - beta1) * (beta - beta1); // 侧滑角插值
inter_CX_alpha = CX6 + (CX8 - CX6) / (alpha2 - alpha1) * (alpha - alpha1); // 攻角插值
inter_CX_Ma = CX4 + (CX8 - CX4) / (Ma2 - Ma1) * (mach - Ma1); // 马赫数插值
interpolatedCX = (inter_CX_Ma + inter_CX_alpha + inter_CX_beta) / 3.0;
//cout << "测试的数据 biao_inter_CX :" << CX8 << endl;
//cout << "测试的数据 inter_CX::" << interpolatedCX << endl;
//
// CY-三维线性插值
double CY1 = CY[i - 1][j - 1][k - 1];
double CY2 = CY[i - 1][j - 1][k];
double CY3 = CY[i - 1][j][k - 1];
double CY4 = CY[i - 1][j][k];
double CY5 = CY[i][j - 1][k - 1];
double CY6 = CY[i][j - 1][k];
double CY7 = CY[i][j][k - 1];
double CY8 = CY[i][j][k];
double inter_CY_beta, inter_CY_alpha, inter_CY_Ma, interpolatedCY;
inter_CY_beta = CY7 + (CY8 - CY7) / (beta2 - beta1) * (beta - beta1); // 侧滑角插值
inter_CY_alpha = CY6 + (CY8 - CY6) / (alpha2 - alpha1) * (alpha - alpha1); // 攻角插值
inter_CY_Ma = CY4 + (CY8 - CY4) / (Ma2 - Ma1) * (mach - Ma1); // 马赫数插值
interpolatedCY = (inter_CY_Ma + inter_CY_alpha + inter_CY_beta) / 3.0;
//cout << "测试的数据 biao_inter_CY :" << CY8 << endl;
// cout << "测试的数据 inter_CY::" << interpolatedCY << endl;
// CZ-三维线性插值
double CZ1 = CZ[i - 1][j - 1][k - 1];
double CZ2 = CZ[i - 1][j - 1][k];
double CZ3 = CZ[i - 1][j][k - 1];
double CZ4 = CZ[i - 1][j][k];
double CZ5 = CZ[i][j - 1][k - 1];
double CZ6 = CZ[i][j - 1][k];
double CZ7 = CZ[i][j][k - 1];
double CZ8 = CZ[i][j][k];
double inter_CZ_beta, inter_CZ_alpha, inter_CZ_Ma, interpolatedCZ;
inter_CZ_beta = CZ7 + (CZ8 - CZ7) / (beta2 - beta1) * (beta - beta1); // 侧滑角插值
inter_CZ_alpha = CZ6 + (CZ8 - CZ6) / (alpha2 - alpha1) * (alpha - alpha1); // 攻角插值
inter_CZ_Ma = CZ4 + (CZ8 - CZ4) / (Ma2 - Ma1) * (mach - Ma1); // 马赫数插值
interpolatedCZ = (inter_CZ_Ma + inter_CZ_alpha + inter_CZ_beta) / 3.0;
// CMX-三维线性插值
double CMX1 = CMX[i - 1][j - 1][k - 1];
double CMX2 = CMX[i - 1][j - 1][k];
double CMX3 = CMX[i - 1][j][k - 1];
double CMX4 = CMX[i - 1][j][k];
double CMX5 = CMX[i][j - 1][k - 1];
double CMX6 = CMX[i][j - 1][k];
double CMX7 = CMX[i][j][k - 1];
double CMX8 = CMX[i][j][k];
double inter_CMX_beta, inter_CMX_alpha, inter_CMX_Ma, interpolatedCMX;
inter_CMX_beta = CMX7 + (CMX8 - CMX7) / (beta2 - beta1) * (beta - beta1); // 侧滑角插值
inter_CMX_alpha = CMX6 + (CMX8 - CMX6) / (alpha2 - alpha1) * (alpha - alpha1); // 攻角插值
inter_CMX_Ma = CMX4 + (CMX8 - CMX4) / (Ma2 - Ma1) * (mach - Ma1); // 马赫数插值
interpolatedCMX = (inter_CMX_Ma + inter_CMX_alpha + inter_CMX_beta) / 3.0;
// CMY-三维线性插值
double CMY1 = CMY[i - 1][j - 1][k - 1];
double CMY2 = CMY[i - 1][j - 1][k];
double CMY3 = CMY[i - 1][j][k - 1];
double CMY4 = CMY[i - 1][j][k];
double CMY5 = CMY[i][j - 1][k - 1];
double CMY6 = CMY[i][j - 1][k];
double CMY7 = CMY[i][j][k - 1];
double CMY8 = CMY[i][j][k];
double inter_CMY_beta, inter_CMY_alpha, inter_CMY_Ma, interpolatedCMY;
inter_CMY_beta = CMY7 + (CMY8 - CMY7) / (beta2 - beta1) * (beta - beta1); // 侧滑角插值
inter_CMY_alpha = CMY6 + (CMY8 - CMY6) / (alpha2 - alpha1) * (alpha - alpha1); // 攻角插值
inter_CMY_Ma = CMY4 + (CMY8 - CMY4) / (Ma2 - Ma1) * (mach - Ma1); // 马赫数插值
interpolatedCMY = (inter_CMY_Ma + inter_CMY_alpha + inter_CMY_beta) / 3.0;
// CMZ-三维线性插值
double CMZ1 = CMZ[i - 1][j - 1][k - 1];
double CMZ2 = CMZ[i - 1][j - 1][k];
double CMZ3 = CMZ[i - 1][j][k - 1];
double CMZ4 = CMZ[i - 1][j][k];
double CMZ5 = CMZ[i][j - 1][k - 1];
double CMZ6 = CMZ[i][j - 1][k];
double CMZ7 = CMZ[i][j][k - 1];
double CMZ8 = CMZ[i][j][k];
double inter_CMZ_beta, inter_CMZ_alpha, inter_CMZ_Ma, interpolatedCMZ;
inter_CMZ_beta = CMZ7 + (CMZ8 - CMZ7) / (beta2 - beta1) * (beta - beta1); // 侧滑角插值
inter_CMZ_alpha = CMZ6 + (CMZ8 - CMZ6) / (alpha2 - alpha1) * (alpha - alpha1); // 攻角插值
inter_CMZ_Ma = CMZ4 + (CMZ8 - CMZ4) / (Ma2 - Ma1) * (mach - Ma1); // 马赫数插值
interpolatedCMZ = (inter_CMZ_Ma + inter_CMZ_alpha + inter_CMZ_beta) / 3.0;
CxyzCMxyz[0] = interpolatedCX;
CxyzCMxyz[1] = interpolatedCY;
CxyzCMxyz[2] = interpolatedCZ;
CxyzCMxyz[3] = interpolatedCMX;
CxyzCMxyz[4] = interpolatedCMY;
CxyzCMxyz[5] = interpolatedCMZ;
}
void AerodynamicCoefficients::GetCoefficients(double CxyzCmxyz[6]) {
// 返回当前的气动系数
for (int i = 0; i < 6; i++) {
CxyzCmxyz[i] = this->CxyzCMxyz[i]; //this 是一个指针,指向当前类的实例(this->FxyzMxyz[i])
}
}