url
stringclasses 147
values | commit
stringclasses 147
values | file_path
stringlengths 7
101
| full_name
stringlengths 1
94
| start
stringlengths 6
10
| end
stringlengths 6
11
| tactic
stringlengths 1
11.2k
| state_before
stringlengths 3
2.09M
| state_after
stringlengths 6
2.09M
|
|---|---|---|---|---|---|---|---|---|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/HypersonicShapeDesign.lean
|
HypersonicShapeDesign.one_sub_bβ_nonneg
|
[58, 1]
|
[60, 22]
|
unfold bβ
|
a b : β
β’ 0 β€ 1 - bβ
|
a b : β
β’ 0 β€ 1 - 0.65
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/HypersonicShapeDesign.lean
|
HypersonicShapeDesign.one_sub_bβ_nonneg
|
[58, 1]
|
[60, 22]
|
norm_num
|
a b : β
β’ 0 β€ 1 - 0.65
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
calc
_ = β i, ((a i) ^ 2 - 2 * (a i) * x + (x ^ 2)) := by
congr; funext i; simp; ring
_ = β i, ((a i) ^ 2) - 2 * x * β i, (a i) + n * (x ^ 2) := by
rw [sum_add_distrib, sum_sub_distrib, β sum_mul, β mul_sum]; simp [sum_const]; ring
_ = n * mean (a ^ 2) - 2 * x * n * mean a + n * (x ^ 2) := by
simp [mean]; field_simp; ring
_ = n * ((x - mean a) ^ 2 + (mean (a ^ 2) - (mean a) ^ 2)) := by
simp [mean]; field_simp; ring
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ β i : Fin n, (a i - x) ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
congr
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ β i : Fin n, (a i - x) ^ 2 = β i : Fin n, (a i ^ 2 - 2 * a i * x + x ^ 2)
|
case e_f
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ (fun i => (a i - x) ^ 2) = fun i => a i ^ 2 - 2 * a i * x + x ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
funext i
|
case e_f
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ (fun i => (a i - x) ^ 2) = fun i => a i ^ 2 - 2 * a i * x + x ^ 2
|
case e_f.h
n : β
hn : 0 < n
a : Fin n β β
x : β
i : Fin n
β’ (a i - x) ^ 2 = a i ^ 2 - 2 * a i * x + x ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
ring
|
case e_f.h
n : β
hn : 0 < n
a : Fin n β β
x : β
i : Fin n
β’ (a i - x) ^ 2 = a i ^ 2 - 2 * a i * x + x ^ 2
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
rw [sum_add_distrib, sum_sub_distrib, β sum_mul, β mul_sum]
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ β i : Fin n, (a i ^ 2 - 2 * a i * x + x ^ 2) = β i : Fin n, a i ^ 2 - 2 * x * β i : Fin n, a i + βn * x ^ 2
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ β x : Fin n, a x ^ 2 - (2 * β i : Fin n, a i) * x + β x_1 : Fin n, x ^ 2 =
β i : Fin n, a i ^ 2 - 2 * x * β i : Fin n, a i + βn * x ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
simp [sum_const]
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ β x : Fin n, a x ^ 2 - (2 * β i : Fin n, a i) * x + β x_1 : Fin n, x ^ 2 =
β i : Fin n, a i ^ 2 - 2 * x * β i : Fin n, a i + βn * x ^ 2
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ (2 * β i : Fin n, a i) * x = 2 * x * β i : Fin n, a i
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
ring
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ (2 * β i : Fin n, a i) * x = 2 * x * β i : Fin n, a i
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
simp [mean]
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ β i : Fin n, a i ^ 2 - 2 * x * β i : Fin n, a i + βn * x ^ 2 = βn * mean (a ^ 2) - 2 * x * βn * mean a + βn * x ^ 2
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ β x : Fin n, a x ^ 2 - 2 * x * β i : Fin n, a i =
βn * ((βn)β»ΒΉ * β x : Fin n, a x ^ 2) - 2 * x * βn * ((βn)β»ΒΉ * β i : Fin n, a i)
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
field_simp
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ β x : Fin n, a x ^ 2 - 2 * x * β i : Fin n, a i =
βn * ((βn)β»ΒΉ * β x : Fin n, a x ^ 2) - 2 * x * βn * ((βn)β»ΒΉ * β i : Fin n, a i)
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ (β x : Fin n, a x ^ 2 - 2 * x * β i : Fin n, a i) * βn = (β x : Fin n, a x ^ 2) * βn - 2 * x * βn * β i : Fin n, a i
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
ring
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ (β x : Fin n, a x ^ 2 - 2 * x * β i : Fin n, a i) * βn = (β x : Fin n, a x ^ 2) * βn - 2 * x * βn * β i : Fin n, a i
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
simp [mean]
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ βn * mean (a ^ 2) - 2 * x * βn * mean a + βn * x ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ βn * ((βn)β»ΒΉ * β x : Fin n, a x ^ 2) - 2 * x * βn * ((βn)β»ΒΉ * β i : Fin n, a i) + βn * x ^ 2 =
βn * ((x - (βn)β»ΒΉ * β i : Fin n, a i) ^ 2 + ((βn)β»ΒΉ * β x : Fin n, a x ^ 2 - ((βn)β»ΒΉ * β i : Fin n, a i) ^ 2))
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
field_simp
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ βn * ((βn)β»ΒΉ * β x : Fin n, a x ^ 2) - 2 * x * βn * ((βn)β»ΒΉ * β i : Fin n, a i) + βn * x ^ 2 =
βn * ((x - (βn)β»ΒΉ * β i : Fin n, a i) ^ 2 + ((βn)β»ΒΉ * β x : Fin n, a x ^ 2 - ((βn)β»ΒΉ * β i : Fin n, a i) ^ 2))
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ ((β x : Fin n, a x ^ 2) * βn - 2 * x * βn * β i : Fin n, a i + βn * x ^ 2 * βn) * (βn ^ 2 * (βn * βn ^ 2)) =
βn *
((x * βn - β i : Fin n, a i) ^ 2 * (βn * βn ^ 2) +
((β x : Fin n, a x ^ 2) * βn ^ 2 - βn * (β i : Fin n, a i) ^ 2) * βn ^ 2) *
βn
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
ring
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ ((β x : Fin n, a x ^ 2) * βn - 2 * x * βn * β i : Fin n, a i + βn * x ^ 2 * βn) * (βn ^ 2 * (βn * βn ^ 2)) =
βn *
((x * βn - β i : Fin n, a i) ^ 2 * (βn * βn ^ 2) +
((β x : Fin n, a x ^ 2) * βn ^ 2 - βn * (β i : Fin n, a i) ^ 2) * βn ^ 2) *
βn
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
simp [optimal, feasible, leastSquares] at h
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : (leastSquares a).optimal x
β’ x = mean a
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
β’ x = mean a
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
replace h : β y, (x - mean a) ^ 2 β€ (y - mean a) ^ 2 := by
intros y
have hy := h y
have h_rw_x := leastSquares_alt_objFun hn a x
have h_rw_y := leastSquares_alt_objFun hn a y
simp only [rpow_two] at h_rw_x h_rw_y β’
rwa [h_rw_x, h_rw_y, mul_le_mul_left (by positivity), add_le_add_iff_right] at hy
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
β’ x = mean a
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
β’ x = mean a
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
have hmean := h (mean a)
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
β’ x = mean a
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
hmean : (x - mean a) ^ 2 β€ (mean a - mean a) ^ 2
β’ x = mean a
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
simp at hmean
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
hmean : (x - mean a) ^ 2 β€ (mean a - mean a) ^ 2
β’ x = mean a
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
hmean : (x - mean a) ^ 2 β€ 0
β’ x = mean a
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
have h_sq_eq_zero := le_antisymm hmean (sq_nonneg _)
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
hmean : (x - mean a) ^ 2 β€ 0
β’ x = mean a
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
hmean : (x - mean a) ^ 2 β€ 0
h_sq_eq_zero : (x - mean a) ^ 2 = 0
β’ x = mean a
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
rwa [sq_eq_zero_iff, sub_eq_zero] at h_sq_eq_zero
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
hmean : (x - mean a) ^ 2 β€ 0
h_sq_eq_zero : (x - mean a) ^ 2 = 0
β’ x = mean a
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
intros y
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
β’ β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
have hy := h y
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
have h_rw_x := leastSquares_alt_objFun hn a x
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
h_rw_x : β i : Fin n, (a i - x) ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
have h_rw_y := leastSquares_alt_objFun hn a y
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
h_rw_x : β i : Fin n, (a i - x) ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
h_rw_x : β i : Fin n, (a i - x) ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
h_rw_y : β i : Fin n, (a i - y) ^ 2 = βn * ((y - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
simp only [rpow_two] at h_rw_x h_rw_y β’
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
h_rw_x : β i : Fin n, (a i - x) ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
h_rw_y : β i : Fin n, (a i - y) ^ 2 = βn * ((y - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
h_rw_x : β x_1 : Fin n, (a x_1 - x) ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
h_rw_y : β x : Fin n, (a x - y) ^ 2 = βn * ((y - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
rwa [h_rw_x, h_rw_y, mul_le_mul_left (by positivity), add_le_add_iff_right] at hy
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
h_rw_x : β x_1 : Fin n, (a x_1 - x) ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
h_rw_y : β x : Fin n, (a x - y) ^ 2 = βn * ((y - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
positivity
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2)) β€ βn * ((y - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
h_rw_x : β x_1 : Fin n, (a x_1 - x) ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
h_rw_y : β x : Fin n, (a x - y) ^ 2 = βn * ((y - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
β’ 0 < βn
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquaresVec_optimal_eq_mean
|
[63, 1]
|
[70, 12]
|
apply leastSquares_optimal_eq_mean hn a
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : (leastSquaresVec a).optimal x
β’ x = mean a
|
case h
n : β
hn : 0 < n
a : Fin n β β
x : β
h : (leastSquaresVec a).optimal x
β’ (leastSquares a).optimal x
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquaresVec_optimal_eq_mean
|
[63, 1]
|
[70, 12]
|
simp [leastSquaresVec, leastSquares, optimal, feasible] at h β’
|
case h
n : β
hn : 0 < n
a : Fin n β β
x : β
h : (leastSquaresVec a).optimal x
β’ (leastSquares a).optimal x
|
case h
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), Vec.sum ((a - Vec.const n x) ^ 2) β€ Vec.sum ((a - Vec.const n y) ^ 2)
β’ β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquaresVec_optimal_eq_mean
|
[63, 1]
|
[70, 12]
|
intros y
|
case h
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), Vec.sum ((a - Vec.const n x) ^ 2) β€ Vec.sum ((a - Vec.const n y) ^ 2)
β’ β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
|
case h
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), Vec.sum ((a - Vec.const n x) ^ 2) β€ Vec.sum ((a - Vec.const n y) ^ 2)
y : β
β’ β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquaresVec_optimal_eq_mean
|
[63, 1]
|
[70, 12]
|
simp only [Vec.sum, Pi.pow_apply, Pi.sub_apply, Vec.const, rpow_two] at h
|
case h
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), Vec.sum ((a - Vec.const n x) ^ 2) β€ Vec.sum ((a - Vec.const n y) ^ 2)
y : β
β’ β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
|
case h
n : β
hn : 0 < n
a : Fin n β β
x : β
y : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
β’ β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquaresVec_optimal_eq_mean
|
[63, 1]
|
[70, 12]
|
exact h y
|
case h
n : β
hn : 0 < n
a : Fin n β β
x : β
y : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
β’ β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
simp [fittingSphereT, fittingSphereConvex, optimal, feasible] at h_opt β’
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt : (fittingSphereConvex n m x).optimal (c, t)
β’ (fittingSphereT n m x).optimal (c, t)
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
β’ 0 β€ t + βcβ ^ 2 β§
β (a : Fin n β β) (b : β),
0 β€ b + βaβ ^ 2 β
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
constructor
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
β’ 0 β€ t + βcβ ^ 2 β§
β (a : Fin n β β) (b : β),
0 β€ b + βaβ ^ 2 β
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
|
case left
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
β’ 0 β€ t + βcβ ^ 2
case right
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
β’ β (a : Fin n β β) (b : β),
0 β€ b + βaβ ^ 2 β
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
let a := Vec.norm x ^ 2 - 2 * mulVec x c
|
case left
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
β’ 0 β€ t + βcβ ^ 2
|
case left
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
β’ 0 β€ t + βcβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
have h_ls : optimal (leastSquaresVec a) t := by
refine β¨trivial, ?_β©
intros y _
simp [objFun, leastSquaresVec]
exact h_opt c y
|
case left
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
β’ 0 β€ t + βcβ ^ 2
|
case left
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
β’ 0 β€ t + βcβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
have h_t_eq := leastSquaresVec_optimal_eq_mean hm a t h_ls
|
case left
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
β’ 0 β€ t + βcβ ^ 2
|
case left
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
β’ 0 β€ t + βcβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
have h_c2_eq : βcβ ^ 2 = (1 / m) * β i : Fin m, βcβ ^ 2 := by
simp [sum_const]
field_simp
|
case left
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
β’ 0 β€ t + βcβ ^ 2
|
case left
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
β’ 0 β€ t + βcβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
have h_t_add_c2_eq : t + βcβ ^ 2 = (1 / m) * β i, β(x i) - cβ ^ 2 := by
rw [h_t_eq]; dsimp [mean]
rw [h_c2_eq, mul_sum, mul_sum, mul_sum, β sum_add_distrib]
congr; funext i; rw [β mul_add]
congr; simp [Vec.norm]
rw [norm_sub_sq (π := β) (E := Fin n β β)]
simp [a]; congr
|
case left
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
β’ 0 β€ t + βcβ ^ 2
|
case left
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
h_t_add_c2_eq : t + βcβ ^ 2 = 1 / βm * β i : Fin m, βx i - cβ ^ 2
β’ 0 β€ t + βcβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
rw [β rpow_two, h_t_add_c2_eq]
|
case left
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
h_t_add_c2_eq : t + βcβ ^ 2 = 1 / βm * β i : Fin m, βx i - cβ ^ 2
β’ 0 β€ t + βcβ ^ 2
|
case left
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
h_t_add_c2_eq : t + βcβ ^ 2 = 1 / βm * β i : Fin m, βx i - cβ ^ 2
β’ 0 β€ 1 / βm * β i : Fin m, βx i - cβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
apply mul_nonneg (by norm_num)
|
case left
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
h_t_add_c2_eq : t + βcβ ^ 2 = 1 / βm * β i : Fin m, βx i - cβ ^ 2
β’ 0 β€ 1 / βm * β i : Fin m, βx i - cβ ^ 2
|
case left
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
h_t_add_c2_eq : t + βcβ ^ 2 = 1 / βm * β i : Fin m, βx i - cβ ^ 2
β’ 0 β€ β i : Fin m, βx i - cβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
apply sum_nonneg
|
case left
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
h_t_add_c2_eq : t + βcβ ^ 2 = 1 / βm * β i : Fin m, βx i - cβ ^ 2
β’ 0 β€ β i : Fin m, βx i - cβ ^ 2
|
case left.h
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
h_t_add_c2_eq : t + βcβ ^ 2 = 1 / βm * β i : Fin m, βx i - cβ ^ 2
β’ β i β univ, 0 β€ βx i - cβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
intros i _
|
case left.h
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
h_t_add_c2_eq : t + βcβ ^ 2 = 1 / βm * β i : Fin m, βx i - cβ ^ 2
β’ β i β univ, 0 β€ βx i - cβ ^ 2
|
case left.h
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
h_t_add_c2_eq : t + βcβ ^ 2 = 1 / βm * β i : Fin m, βx i - cβ ^ 2
i : Fin m
aβ : i β univ
β’ 0 β€ βx i - cβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
exact sq_nonneg _
|
case left.h
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
h_t_add_c2_eq : t + βcβ ^ 2 = 1 / βm * β i : Fin m, βx i - cβ ^ 2
i : Fin m
aβ : i β univ
β’ 0 β€ βx i - cβ ^ 2
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
refine β¨trivial, ?_β©
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
β’ (leastSquaresVec a).optimal t
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
β’ β (y : β), (leastSquaresVec a).feasible y β (leastSquaresVec a).objFun t β€ (leastSquaresVec a).objFun y
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
intros y _
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
β’ β (y : β), (leastSquaresVec a).feasible y β (leastSquaresVec a).objFun t β€ (leastSquaresVec a).objFun y
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
y : β
aβ : (leastSquaresVec a).feasible y
β’ (leastSquaresVec a).objFun t β€ (leastSquaresVec a).objFun y
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
simp [objFun, leastSquaresVec]
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
y : β
aβ : (leastSquaresVec a).feasible y
β’ (leastSquaresVec a).objFun t β€ (leastSquaresVec a).objFun y
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
y : β
aβ : (leastSquaresVec a).feasible y
β’ Vec.sum ((a - Vec.const m t) ^ 2) β€ Vec.sum ((a - Vec.const m y) ^ 2)
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
exact h_opt c y
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
y : β
aβ : (leastSquaresVec a).feasible y
β’ Vec.sum ((a - Vec.const m t) ^ 2) β€ Vec.sum ((a - Vec.const m y) ^ 2)
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
simp [sum_const]
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
β’ βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
β’ βcβ ^ 2 = (βm)β»ΒΉ * (βm * βcβ ^ 2)
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
field_simp
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
β’ βcβ ^ 2 = (βm)β»ΒΉ * (βm * βcβ ^ 2)
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
rw [h_t_eq]
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
β’ t + βcβ ^ 2 = 1 / βm * β i : Fin m, βx i - cβ ^ 2
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
β’ mean a + βcβ ^ 2 = 1 / βm * β i : Fin m, βx i - cβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
dsimp [mean]
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
β’ mean a + βcβ ^ 2 = 1 / βm * β i : Fin m, βx i - cβ ^ 2
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
β’ 1 / βm * β i : Fin m, a i + βcβ ^ 2 = 1 / βm * β i : Fin m, βx i - cβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
rw [h_c2_eq, mul_sum, mul_sum, mul_sum, β sum_add_distrib]
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
β’ 1 / βm * β i : Fin m, a i + βcβ ^ 2 = 1 / βm * β i : Fin m, βx i - cβ ^ 2
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
β’ β x : Fin m, (1 / βm * a x + 1 / βm * βcβ ^ 2) = β i : Fin m, 1 / βm * βx i - cβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
congr
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
β’ β x : Fin m, (1 / βm * a x + 1 / βm * βcβ ^ 2) = β i : Fin m, 1 / βm * βx i - cβ ^ 2
|
case e_f
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
β’ (fun x => 1 / βm * a x + 1 / βm * βcβ ^ 2) = fun i => 1 / βm * βx i - cβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
funext i
|
case e_f
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
β’ (fun x => 1 / βm * a x + 1 / βm * βcβ ^ 2) = fun i => 1 / βm * βx i - cβ ^ 2
|
case e_f.h
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
i : Fin m
β’ 1 / βm * a i + 1 / βm * βcβ ^ 2 = 1 / βm * βx i - cβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
rw [β mul_add]
|
case e_f.h
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
i : Fin m
β’ 1 / βm * a i + 1 / βm * βcβ ^ 2 = 1 / βm * βx i - cβ ^ 2
|
case e_f.h
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
i : Fin m
β’ 1 / βm * (a i + βcβ ^ 2) = 1 / βm * βx i - cβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
congr
|
case e_f.h
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
i : Fin m
β’ 1 / βm * (a i + βcβ ^ 2) = 1 / βm * βx i - cβ ^ 2
|
case e_f.h.e_a
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
i : Fin m
β’ a i + βcβ ^ 2 = βx i - cβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
rw [norm_sub_sq (π := β) (E := Fin n β β)]
|
case e_f.h.e_a
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
i : Fin m
β’ a i + βcβ ^ 2 = βx i - cβ ^ 2
|
case e_f.h.e_a
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
i : Fin m
β’ a i + βcβ ^ 2 = βx iβ ^ 2 - 2 * RCLike.re βͺx i, cβ«_β + βcβ ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
simp [a]
|
case e_f.h.e_a
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
i : Fin m
β’ a i + βcβ ^ 2 = βx iβ ^ 2 - 2 * RCLike.re βͺx i, cβ«_β + βcβ ^ 2
|
case e_f.h.e_a
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
i : Fin m
β’ Vec.norm x i ^ 2 - 2 * (x *α΅₯ c) i = βx iβ ^ 2 - 2 * βͺx i, cβ«_β
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
congr
|
case e_f.h.e_a
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
i : Fin m
β’ Vec.norm x i ^ 2 - 2 * (x *α΅₯ c) i = βx iβ ^ 2 - 2 * βͺx i, cβ«_β
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
norm_num
|
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
a : Fin m β β := Vec.norm x ^ 2 - 2 * x *α΅₯ c
h_ls : (leastSquaresVec a).optimal t
h_t_eq : t = mean a
h_c2_eq : βcβ ^ 2 = 1 / βm * β i : Fin m, βcβ ^ 2
h_t_add_c2_eq : t + βcβ ^ 2 = 1 / βm * β i : Fin m, βx i - cβ ^ 2
β’ 0 β€ 1 / βm
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
intros c' x' _
|
case right
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
β’ β (a : Fin n β β) (b : β),
0 β€ b + βaβ ^ 2 β
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
|
case right
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
c' : Fin n β β
x' : β
aβ : 0 β€ x' + βc'β ^ 2
β’ Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c' - Vec.const m x') ^ 2)
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
FittingSphere.optimal_convex_implies_optimal_t
|
[157, 1]
|
[191, 22]
|
exact h_opt c' x'
|
case right
n m : β
x : Fin m β Fin n β β
hm : 0 < m
c : Fin n β β
t : β
h_opt :
β (a : Fin n β β) (b : β),
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ a - Vec.const m b) ^ 2)
c' : Fin n β β
x' : β
aβ : 0 β€ x' + βc'β ^ 2
β’ Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c - Vec.const m t) ^ 2) β€
Vec.sum ((Vec.norm x ^ 2 - 2 * x *α΅₯ c' - Vec.const m x') ^ 2)
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Lib/Math/Analysis/InnerProductSpace/GramSchmidtOrtho.lean
|
repr_gramSchmidt_diagonal
|
[18, 1]
|
[24, 67]
|
rw [gramSchmidt_def, map_sub, Finsupp.sub_apply, Basis.repr_self, Finsupp.single_eq_same,
sub_eq_self, map_sum, Finsupp.coe_finset_sum, Finset.sum_apply, Finset.sum_eq_zero]
|
π : Type u_2
E : Type u_1
instββ΅ : RCLike π
instββ΄ : NormedAddCommGroup E
instβΒ³ : InnerProductSpace π E
ΞΉ : Type u_3
instβΒ² : LinearOrder ΞΉ
instβΒΉ : LocallyFiniteOrderBot ΞΉ
instβ : IsWellOrder ΞΉ fun x x_1 => x < x_1
i : ΞΉ
b : Basis ΞΉ π E
β’ (b.repr (gramSchmidt π (βb) i)) i = 1
|
π : Type u_2
E : Type u_1
instββ΅ : RCLike π
instββ΄ : NormedAddCommGroup E
instβΒ³ : InnerProductSpace π E
ΞΉ : Type u_3
instβΒ² : LinearOrder ΞΉ
instβΒΉ : LocallyFiniteOrderBot ΞΉ
instβ : IsWellOrder ΞΉ fun x x_1 => x < x_1
i : ΞΉ
b : Basis ΞΉ π E
β’ β x β Finset.Iio i, (b.repr β((orthogonalProjection (Submodule.span π {gramSchmidt π (βb) x})) (b i))) i = 0
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Lib/Math/Analysis/InnerProductSpace/GramSchmidtOrtho.lean
|
repr_gramSchmidt_diagonal
|
[18, 1]
|
[24, 67]
|
intros j hj
|
π : Type u_2
E : Type u_1
instββ΅ : RCLike π
instββ΄ : NormedAddCommGroup E
instβΒ³ : InnerProductSpace π E
ΞΉ : Type u_3
instβΒ² : LinearOrder ΞΉ
instβΒΉ : LocallyFiniteOrderBot ΞΉ
instβ : IsWellOrder ΞΉ fun x x_1 => x < x_1
i : ΞΉ
b : Basis ΞΉ π E
β’ β x β Finset.Iio i, (b.repr β((orthogonalProjection (Submodule.span π {gramSchmidt π (βb) x})) (b i))) i = 0
|
π : Type u_2
E : Type u_1
instββ΅ : RCLike π
instββ΄ : NormedAddCommGroup E
instβΒ³ : InnerProductSpace π E
ΞΉ : Type u_3
instβΒ² : LinearOrder ΞΉ
instβΒΉ : LocallyFiniteOrderBot ΞΉ
instβ : IsWellOrder ΞΉ fun x x_1 => x < x_1
i : ΞΉ
b : Basis ΞΉ π E
j : ΞΉ
hj : j β Finset.Iio i
β’ (b.repr β((orthogonalProjection (Submodule.span π {gramSchmidt π (βb) j})) (b i))) i = 0
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Lib/Math/Analysis/InnerProductSpace/GramSchmidtOrtho.lean
|
repr_gramSchmidt_diagonal
|
[18, 1]
|
[24, 67]
|
rw [Finset.mem_Iio] at hj
|
π : Type u_2
E : Type u_1
instββ΅ : RCLike π
instββ΄ : NormedAddCommGroup E
instβΒ³ : InnerProductSpace π E
ΞΉ : Type u_3
instβΒ² : LinearOrder ΞΉ
instβΒΉ : LocallyFiniteOrderBot ΞΉ
instβ : IsWellOrder ΞΉ fun x x_1 => x < x_1
i : ΞΉ
b : Basis ΞΉ π E
j : ΞΉ
hj : j β Finset.Iio i
β’ (b.repr β((orthogonalProjection (Submodule.span π {gramSchmidt π (βb) j})) (b i))) i = 0
|
π : Type u_2
E : Type u_1
instββ΅ : RCLike π
instββ΄ : NormedAddCommGroup E
instβΒ³ : InnerProductSpace π E
ΞΉ : Type u_3
instβΒ² : LinearOrder ΞΉ
instβΒΉ : LocallyFiniteOrderBot ΞΉ
instβ : IsWellOrder ΞΉ fun x x_1 => x < x_1
i : ΞΉ
b : Basis ΞΉ π E
j : ΞΉ
hj : j < i
β’ (b.repr β((orthogonalProjection (Submodule.span π {gramSchmidt π (βb) j})) (b i))) i = 0
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Lib/Math/Analysis/InnerProductSpace/GramSchmidtOrtho.lean
|
repr_gramSchmidt_diagonal
|
[18, 1]
|
[24, 67]
|
simp [orthogonalProjection_singleton, gramSchmidt_triangular hj]
|
π : Type u_2
E : Type u_1
instββ΅ : RCLike π
instββ΄ : NormedAddCommGroup E
instβΒ³ : InnerProductSpace π E
ΞΉ : Type u_3
instβΒ² : LinearOrder ΞΉ
instβΒΉ : LocallyFiniteOrderBot ΞΉ
instβ : IsWellOrder ΞΉ fun x x_1 => x < x_1
i : ΞΉ
b : Basis ΞΉ π E
j : ΞΉ
hj : j < i
β’ (b.repr β((orthogonalProjection (Submodule.span π {gramSchmidt π (βb) j})) (b i))) i = 0
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Tactic/DCP/AtomLibrary/Fns/Norm.lean
|
CvxLean.norm2β_eq_norm2
|
[57, 1]
|
[58, 36]
|
simp [Norm.norm, sqrt_eq_rpow]
|
x y : β
β’ β![x, y]β = (x ^ 2 + y ^ 2).sqrt
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
calc
_ = β i, ((a i) ^ 2 - 2 * (a i) * x + (x ^ 2)) := by
congr; funext i; simp; ring
_ = β i, ((a i) ^ 2) - 2 * x * β i, (a i) + n * (x ^ 2) := by
rw [sum_add_distrib, sum_sub_distrib, β sum_mul, β mul_sum]; simp [sum_const]; ring
_ = n * mean (a ^ 2) - 2 * x * n * mean a + n * (x ^ 2) := by
simp [mean]; field_simp; ring
_ = n * ((x - mean a) ^ 2 + (mean (a ^ 2) - (mean a) ^ 2)) := by
simp [mean]; field_simp; ring
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ β i : Fin n, (a i - x) ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
congr
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ β i : Fin n, (a i - x) ^ 2 = β i : Fin n, (a i ^ 2 - 2 * a i * x + x ^ 2)
|
case e_f
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ (fun i => (a i - x) ^ 2) = fun i => a i ^ 2 - 2 * a i * x + x ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
funext i
|
case e_f
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ (fun i => (a i - x) ^ 2) = fun i => a i ^ 2 - 2 * a i * x + x ^ 2
|
case e_f.h
n : β
hn : 0 < n
a : Fin n β β
x : β
i : Fin n
β’ (a i - x) ^ 2 = a i ^ 2 - 2 * a i * x + x ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
ring
|
case e_f.h
n : β
hn : 0 < n
a : Fin n β β
x : β
i : Fin n
β’ (a i - x) ^ 2 = a i ^ 2 - 2 * a i * x + x ^ 2
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
rw [sum_add_distrib, sum_sub_distrib, β sum_mul, β mul_sum]
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ β i : Fin n, (a i ^ 2 - 2 * a i * x + x ^ 2) = β i : Fin n, a i ^ 2 - 2 * x * β i : Fin n, a i + βn * x ^ 2
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ β x : Fin n, a x ^ 2 - (2 * β i : Fin n, a i) * x + β x_1 : Fin n, x ^ 2 =
β i : Fin n, a i ^ 2 - 2 * x * β i : Fin n, a i + βn * x ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
simp [sum_const]
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ β x : Fin n, a x ^ 2 - (2 * β i : Fin n, a i) * x + β x_1 : Fin n, x ^ 2 =
β i : Fin n, a i ^ 2 - 2 * x * β i : Fin n, a i + βn * x ^ 2
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ (2 * β i : Fin n, a i) * x = 2 * x * β i : Fin n, a i
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
ring
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ (2 * β i : Fin n, a i) * x = 2 * x * β i : Fin n, a i
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
simp [mean]
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ β i : Fin n, a i ^ 2 - 2 * x * β i : Fin n, a i + βn * x ^ 2 = βn * mean (a ^ 2) - 2 * x * βn * mean a + βn * x ^ 2
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ β x : Fin n, a x ^ 2 - 2 * x * β i : Fin n, a i =
βn * ((βn)β»ΒΉ * β x : Fin n, a x ^ 2) - 2 * x * βn * ((βn)β»ΒΉ * β i : Fin n, a i)
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
field_simp
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ β x : Fin n, a x ^ 2 - 2 * x * β i : Fin n, a i =
βn * ((βn)β»ΒΉ * β x : Fin n, a x ^ 2) - 2 * x * βn * ((βn)β»ΒΉ * β i : Fin n, a i)
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ (β x : Fin n, a x ^ 2 - 2 * x * β i : Fin n, a i) * βn = (β x : Fin n, a x ^ 2) * βn - 2 * x * βn * β i : Fin n, a i
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
ring
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ (β x : Fin n, a x ^ 2 - 2 * x * β i : Fin n, a i) * βn = (β x : Fin n, a x ^ 2) * βn - 2 * x * βn * β i : Fin n, a i
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
simp [mean]
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ βn * mean (a ^ 2) - 2 * x * βn * mean a + βn * x ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ βn * ((βn)β»ΒΉ * β x : Fin n, a x ^ 2) - 2 * x * βn * ((βn)β»ΒΉ * β i : Fin n, a i) + βn * x ^ 2 =
βn * ((x - (βn)β»ΒΉ * β i : Fin n, a i) ^ 2 + ((βn)β»ΒΉ * β x : Fin n, a x ^ 2 - ((βn)β»ΒΉ * β i : Fin n, a i) ^ 2))
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
field_simp
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ βn * ((βn)β»ΒΉ * β x : Fin n, a x ^ 2) - 2 * x * βn * ((βn)β»ΒΉ * β i : Fin n, a i) + βn * x ^ 2 =
βn * ((x - (βn)β»ΒΉ * β i : Fin n, a i) ^ 2 + ((βn)β»ΒΉ * β x : Fin n, a x ^ 2 - ((βn)β»ΒΉ * β i : Fin n, a i) ^ 2))
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ ((β x : Fin n, a x ^ 2) * βn - 2 * x * βn * β i : Fin n, a i + βn * x ^ 2 * βn) * (βn ^ 2 * (βn * βn ^ 2)) =
βn *
((x * βn - β i : Fin n, a i) ^ 2 * (βn * βn ^ 2) +
((β x : Fin n, a x ^ 2) * βn ^ 2 - βn * (β i : Fin n, a i) ^ 2) * βn ^ 2) *
βn
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_alt_objFun
|
[24, 1]
|
[41, 34]
|
ring
|
n : β
hn : 0 < n
a : Fin n β β
x : β
β’ ((β x : Fin n, a x ^ 2) * βn - 2 * x * βn * β i : Fin n, a i + βn * x ^ 2 * βn) * (βn ^ 2 * (βn * βn ^ 2)) =
βn *
((x * βn - β i : Fin n, a i) ^ 2 * (βn * βn ^ 2) +
((β x : Fin n, a x ^ 2) * βn ^ 2 - βn * (β i : Fin n, a i) ^ 2) * βn ^ 2) *
βn
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
simp [optimal, feasible, leastSquares] at h
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : (leastSquares a).optimal x
β’ x = mean a
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
β’ x = mean a
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
replace h : β y, (x - mean a) ^ 2 β€ (y - mean a) ^ 2 := by
intros y
have hy := h y
have h_rw_x := leastSquares_alt_objFun hn a x
have h_rw_y := leastSquares_alt_objFun hn a y
simp only [rpow_two] at h_rw_x h_rw_y β’
rwa [h_rw_x, h_rw_y, mul_le_mul_left (by positivity), add_le_add_iff_right] at hy
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
β’ x = mean a
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
β’ x = mean a
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
have hmean := h (mean a)
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
β’ x = mean a
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
hmean : (x - mean a) ^ 2 β€ (mean a - mean a) ^ 2
β’ x = mean a
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
simp at hmean
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
hmean : (x - mean a) ^ 2 β€ (mean a - mean a) ^ 2
β’ x = mean a
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
hmean : (x - mean a) ^ 2 β€ 0
β’ x = mean a
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
have h_sq_eq_zero := le_antisymm hmean (sq_nonneg _)
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
hmean : (x - mean a) ^ 2 β€ 0
β’ x = mean a
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
hmean : (x - mean a) ^ 2 β€ 0
h_sq_eq_zero : (x - mean a) ^ 2 = 0
β’ x = mean a
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
rwa [sq_eq_zero_iff, sub_eq_zero] at h_sq_eq_zero
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
hmean : (x - mean a) ^ 2 β€ 0
h_sq_eq_zero : (x - mean a) ^ 2 = 0
β’ x = mean a
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
intros y
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
β’ β (y : β), (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
have hy := h y
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
have h_rw_x := leastSquares_alt_objFun hn a x
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
h_rw_x : β i : Fin n, (a i - x) ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
have h_rw_y := leastSquares_alt_objFun hn a y
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
h_rw_x : β i : Fin n, (a i - x) ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
h_rw_x : β i : Fin n, (a i - x) ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
h_rw_y : β i : Fin n, (a i - y) ^ 2 = βn * ((y - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
simp only [rpow_two] at h_rw_x h_rw_y β’
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
h_rw_x : β i : Fin n, (a i - x) ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
h_rw_y : β i : Fin n, (a i - y) ^ 2 = βn * ((y - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
h_rw_x : β x_1 : Fin n, (a x_1 - x) ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
h_rw_y : β x : Fin n, (a x - y) ^ 2 = βn * ((y - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
rwa [h_rw_x, h_rw_y, mul_le_mul_left (by positivity), add_le_add_iff_right] at hy
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
h_rw_x : β x_1 : Fin n, (a x_1 - x) ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
h_rw_y : β x : Fin n, (a x - y) ^ 2 = βn * ((y - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
β’ (x - mean a) ^ 2 β€ (y - mean a) ^ 2
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquares_optimal_eq_mean
|
[43, 1]
|
[57, 52]
|
positivity
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
y : β
hy : βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2)) β€ βn * ((y - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
h_rw_x : β x_1 : Fin n, (a x_1 - x) ^ 2 = βn * ((x - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
h_rw_y : β x : Fin n, (a x - y) ^ 2 = βn * ((y - mean a) ^ 2 + (mean (a ^ 2) - mean a ^ 2))
β’ 0 < βn
|
no goals
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquaresVec_optimal_eq_mean
|
[63, 1]
|
[70, 12]
|
apply leastSquares_optimal_eq_mean hn a
|
n : β
hn : 0 < n
a : Fin n β β
x : β
h : (leastSquaresVec a).optimal x
β’ x = mean a
|
case h
n : β
hn : 0 < n
a : Fin n β β
x : β
h : (leastSquaresVec a).optimal x
β’ (leastSquares a).optimal x
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquaresVec_optimal_eq_mean
|
[63, 1]
|
[70, 12]
|
simp [leastSquaresVec, leastSquares, optimal, feasible] at h β’
|
case h
n : β
hn : 0 < n
a : Fin n β β
x : β
h : (leastSquaresVec a).optimal x
β’ (leastSquares a).optimal x
|
case h
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), Vec.sum ((a - Vec.const n x) ^ 2) β€ Vec.sum ((a - Vec.const n y) ^ 2)
β’ β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquaresVec_optimal_eq_mean
|
[63, 1]
|
[70, 12]
|
intros y
|
case h
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), Vec.sum ((a - Vec.const n x) ^ 2) β€ Vec.sum ((a - Vec.const n y) ^ 2)
β’ β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
|
case h
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), Vec.sum ((a - Vec.const n x) ^ 2) β€ Vec.sum ((a - Vec.const n y) ^ 2)
y : β
β’ β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquaresVec_optimal_eq_mean
|
[63, 1]
|
[70, 12]
|
simp only [Vec.sum, Pi.pow_apply, Pi.sub_apply, Vec.const, rpow_two] at h
|
case h
n : β
hn : 0 < n
a : Fin n β β
x : β
h : β (y : β), Vec.sum ((a - Vec.const n x) ^ 2) β€ Vec.sum ((a - Vec.const n y) ^ 2)
y : β
β’ β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
|
case h
n : β
hn : 0 < n
a : Fin n β β
x : β
y : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
β’ β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
|
https://github.com/verified-optimization/CvxLean.git
|
c62c2f292c6420f31a12e738ebebdfed50f6f840
|
CvxLean/Examples/FittingSphere.lean
|
leastSquaresVec_optimal_eq_mean
|
[63, 1]
|
[70, 12]
|
exact h y
|
case h
n : β
hn : 0 < n
a : Fin n β β
x : β
y : β
h : β (y : β), β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
β’ β x_1 : Fin n, (a x_1 - x) ^ 2 β€ β x : Fin n, (a x - y) ^ 2
|
no goals
|
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