线性变换

2025-07-10 15:58:14 +08:00
commit 3fffa6d497
7 changed files with 199 additions and 0 deletions
--- a/.gitignore
+++ b/.gitignore
@ -0,0 +1,2 @@
+__pycache__
+*.pyc
--- a/note/20250709134038-qjup165.sy
+++ b/note/20250709134038-qjup165.sy
--- a/transform/README.md
+++ b/transform/README.md
@ -0,0 +1 @@
+线性变换
--- a/transform/RotateSingle.pas
+++ b/transform/RotateSingle.pas
@ -0,0 +1,79 @@
+program RotateSingle;
+uses
+  Math;
+
+function LinearTrans(arr: array of array of Real; x: array of Real): array of Real;
+var
+  result: array[0..1] of Real;
+  i, j: Integer;
+begin
+  result[0] := x[0]*arr[0][0] + x[1]*arr[0][1];
+  result[1] := x[0]*arr[1][0] + x[1]*arr[1][1];
+  
+  LinearTrans := result;
+end;
+
+function RotateLine(line: array of Real; p: array of Real; dgr: Real): array of Real;
+var
+  k, b: Real;
+  arr: array[0..1, 0..1] of Real;
+  kvec, rkvec: array[0..1] of Real;
+  rk: Real;
+  p1: array[0..1] of Real;
+  pvec, rpvec: array[0..1] of Real;
+  rp1: array[0..1] of Real;
+  result: array[0..1] of Real;
+begin
+  { 
+    Rotate y=kx+b with p for dgr.
+    dgr measured in radians.
+    line: [k, b] => y = kx + b
+  }
+  
+  k := line[0];
+  b := line[1];
+  
+  arr[0][0] := Cos(dgr);
+  arr[0][1] := -Sin(dgr);
+  arr[1][0] := Sin(dgr);
+  arr[1][1] := Cos(dgr);
+  
+  kvec[0] := 1;
+  kvec[1] := k;
+  
+  rkvec := LinearTrans(arr, kvec);
+  rk := rkvec[1] / rkvec[0]; // (a,b) => (1,b/a)
+  
+  p1[0] := 0;
+  p1[1] := b;
+  
+  pvec[0] := p1[0] - p[0];
+  pvec[1] := p1[1] - p[1];
+  
+  rpvec := LinearTrans(arr, pvec);
+  
+  rp1[0] := p[0] + rpvec[0];
+  rp1[1] := p[1] + rpvec[1];
+  
+  result[0] := rk;
+  result[1] := rp1[1] - rk * rp1[0];
+  
+  RotateLine := result;
+end;
+
+var
+  line, p, result: array[0..1] of Real;
+  dgr: Real;
+begin
+  line[0] := 3;
+  line[1] := 4;
+  
+  p[0] := 2;
+  p[1] := 1;
+  
+  dgr := Pi / 4;
+  
+  result := RotateLine(line, p, dgr);
+  
+  WriteLn('Rotated line: k=', result[0]:0:6, ', b=', result[1]:0:6);
+end.
--- a/transform/rotate.py
+++ b/transform/rotate.py
@ -0,0 +1,42 @@
+import math
+from trans import linear_trans
+
+def rotate_point(p1:list[float],p2:list[float],dgr:float) -> list[float]:
+    '''
+    Rotate p1 with p2 for dgr.
+    dgr measured in radians.
+    '''
+    arr = [
+        [math.cos(dgr),-math.sin(dgr)],
+        [math.sin(dgr), math.cos(dgr)]
+    ]
+    vec = [p1[0]-p2[0],p1[1]-p2[1]]
+    rvec = linear_trans(arr,vec)
+    return  [p2[0]+rvec[0], p2[1]+rvec[1]]
+
+def rotate_line(line,p,dgr):
+    '''
+    Rotate y=kx+b with p for dgr.
+    dgr measured in radians.
+    @param line:
+        tuple[k, b] => y = kx + b
+    
+    '''
+    k,b = line
+    arr = [
+        [math.cos(dgr),-math.sin(dgr)],
+        [math.sin(dgr), math.cos(dgr)]
+    ]
+    vec  = [1, k]
+    rvec = linear_trans(arr,vec)
+    rk = rvec[1]/rvec[0] # (a,b) => (1,b/a)
+    
+    p1 = [0,b]
+    rp1 = rotate_point(p1,p,dgr)
+    
+    return [rk,rp1[1]-rk*rp1[0]]
+    
+    
+
+if __name__ == "__main__":
+    print(rotate_line((3,4),(2,1),math.pi/4))
--- a/transform/rotate_single.py
+++ b/transform/rotate_single.py
@ -0,0 +1,32 @@
+import math
+
+def linear_trans(arr,x):
+    return [x[0]*arr[0][0]+x[1]*arr[0][1], x[0]*arr[1][0]+x[1]*arr[1][1]]
+    return [sum(map(lambda x: x[0]*x[1],zip(line,x))) for line in arr]
+
+
+def rotate_line(line,p,dgr):
+    '''
+    Rotate y=kx+b with p for dgr.
+    dgr measured in radians.
+    @param line:
+        tuple[k, b] => y = kx + b
+    
+    '''
+    k,b = line
+    arr = [
+        [math.cos(dgr),-math.sin(dgr)],
+        [math.sin(dgr), math.cos(dgr)]
+    ]
+    kvec  = [1, k]
+    rkvec = linear_trans(arr,kvec)
+    rk = rkvec[1]/rkvec[0] # (a,b) => (1,b/a)
+    
+    p1 = [0,b]
+    pvec = [p1[0]-p[0],p1[1]-p[1]]
+    rpvec = linear_trans(arr,pvec)
+    rp1 = [p[0] + rpvec[0], p[1]+rpvec[1]]
+    
+    return [rk,rp1[1]-rk*rp1[0]]
+
+print(rotate_line((3,4),(2,1),math.pi/4))
--- a/transform/trans.py
+++ b/transform/trans.py
@ -0,0 +1,42 @@
+def linear_trans2d(arr:list[list[float]],x:list[float]) -> list[float]:
+    '''
+    @param arr:
+        [
+            [a,b],
+            [c,d]
+        ]
+        
+    @param x:
+        [x1,x2]
+    
+    @return
+        arr times x
+    '''
+    return [x[0]*arr[0][0]+x[1]*arr[0][1], x[0]*arr[1][0]+x[1]*arr[1][1]]
+
+def linear_trans(arr:list[list[float]],x:list[float]) -> list[float]:
+    if len(arr) != len(x):
+        raise ValueError("Shape must be same.")
+    return [sum(map(lambda x: x[0]*x[1],zip(line,x))) for line in arr]
+
+import numpy as np
+
+def linear_trans_np(arr:np.ndarray,x:np.ndarray) -> np.ndarray:
+    if not arr.shape[0] == arr.shape[1] == x.shape[0]:
+        raise ValueError("Shape must be (k,k) and (k,)")
+    return np.array([np.sum(line * x) for line in arr])
+
+if __name__ == "__main__":
+    # check code with np
+    import numpy as np
+    np.random.seed()
+    
+    for i in range(100):
+        arr = np.random.random_sample((4,4))
+        x = np.random.random_sample((4,))
+
+        ans = np.dot(arr,x)
+        out = linear_trans_np(arr,x)
+        # print(out)
+        # out = np.array(out)
+        assert np.all(np.abs(ans-out)<0.0001)