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4 (* ||A|| A project by Andrea Asperti *)
6 (* ||I|| Developers: *)
7 (* ||T|| The HELM team. *)
8 (* ||A|| http://helm.cs.unibo.it *)
10 (* \ / This file is distributed under the terms of the *)
11 (* v GNU General Public License Version 2 *)
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15 include "arithmetics/nat.ma".
16 include "Ground_2/xoa_props.ma".
18 (* ARITHMETICAL PROPERTIES **************************************************)
20 lemma plus_S_eq_O_false: ∀n,m. n + S m = 0 → False.
21 #n #m <plus_n_Sm #H destruct
24 lemma plus_S_le_to_pos: ∀n,m,p. n + S m ≤ p → 0 < p.
25 #n #m #p <plus_n_Sm #H @(lt_to_le_to_lt … H) //
28 lemma minus_le: ∀m,n. m - n ≤ m.
31 lemma le_O_to_eq_O: ∀n. n ≤ 0 → n = 0.
34 lemma lt_to_le: ∀a,b. a < b → a ≤ b.
37 lemma lt_refl_false: ∀n. n < n → False.
38 #n #H elim (lt_to_not_eq … H) -H /2/
41 lemma lt_zero_false: ∀n. n < 0 → False.
42 #n #H elim (lt_to_not_le … H) -H /2/
45 lemma lt_or_ge: ∀m,n. m < n ∨ n ≤ m.
46 #m #n elim (decidable_lt m n) /3/
49 lemma lt_or_eq_or_gt: ∀m,n. ∨∨ m < n | n = m | n < m.
53 #n elim (IHm n) -IHm #H
54 [ @or3_intro0 | @or3_intro1 destruct | @or3_intro2 ] /2/ (**) (* /3/ is slow *)
57 lemma le_to_lt_or_eq: ∀m,n. m ≤ n → m < n ∨ m = n.
61 lemma plus_le_weak: ∀m,n,p. m + n ≤ p → n ≤ p.
64 lemma plus_lt_false: ∀m,n. m + n < m → False.
65 #m #n #H1 lapply (le_plus_n_r n m) #H2
66 lapply (le_to_lt_to_lt … H2 H1) -H2 H1 #H
67 elim (lt_refl_false … H)
70 lemma monotonic_lt_minus_l: ∀p,q,n. n ≤ q → q < p → q - n < p - n.
72 @lt_plus_to_minus_r <plus_minus_m_m //.
75 lemma plus_le_minus: ∀a,b,c. a + b ≤ c → a ≤ c - b.
78 lemma lt_plus_minus: ∀i,u,d. u ≤ i → i < d + u → i - u < d.
81 lemma plus_plus_comm_23: ∀m,n,p. m + n + p = m + p + n.
84 lemma le_plus_minus_comm: ∀n,m,p. p ≤ m → m + n - p = m - p + n.
85 #n #m #p #lepm @plus_to_minus <associative_plus
86 >(commutative_plus p) <plus_minus_m_m //
89 lemma minus_le_minus_minus_comm: ∀b,c,a. c ≤ b → a - (b - c) = a + c - b.
91 [ #c #a #H >(le_O_to_eq_O … H) -H //
92 | #b #IHb #c elim c -c //
94 lapply (le_S_S_to_le … Hcb) -Hcb #Hcb
95 <plus_n_Sm normalize /2/
99 lemma minus_plus_comm: ∀a,b,c. a - b - c = a - (c + b).
102 lemma minus_minus_comm: ∀a,b,c. a - b - c = a - c - b.
105 lemma le_plus_minus: ∀a,b,c. c ≤ b → a + b - c = a + (b - c).
108 lemma plus_minus_m_m_comm: ∀n,m. m ≤ n → n = m + (n - m).
111 lemma minus_plus_m_m_comm: ∀n,m. n = (m + n) - m.
114 lemma arith_a2: ∀a,c1,c2. c1 + c2 ≤ a → a - c1 - c2 + (c1 + c2) = a.
117 lemma arith_b1: ∀a,b,c1. c1 ≤ b → a - c1 - (b - c1) = a - b.
118 #a #b #c1 #H >minus_plus @eq_f2 /2/
121 lemma arith_b2: ∀a,b,c1,c2. c1 + c2 ≤ b → a - c1 - c2 - (b - c1 - c2) = a - b.
122 #a #b #c1 #c2 #H >minus_plus >minus_plus >minus_plus /2/
125 lemma arith_c1: ∀a,b,c1. a + c1 - (b + c1) = a - b.
128 lemma arith_c1x: ∀x,a,b,c1. x + c1 + a - (b + c1) = x + a - b.
129 #x #a #b #c1 >plus_plus_comm_23 //
132 lemma arith_d1: ∀a,b,c1. c1 ≤ b → a + c1 + (b - c1) = a + b.
135 lemma arith_e2: ∀a,c1,c2. a ≤ c1 → c1 + c2 - (c1 - a + c2) = a.
138 lemma arith_f1: ∀a,b,c1. a + b ≤ c1 → c1 - (c1 - a - b) = a + b.
139 #a #b #c1 #H >minus_plus <minus_minus //
142 lemma arith_g1: ∀a,b,c1. c1 ≤ b → a - (b - c1) - c1 = a - b.
145 lemma arith_h1: ∀a1,a2,b,c1. c1 ≤ a1 → c1 ≤ b →
146 a1 - c1 + a2 - (b - c1) = a1 + a2 - b.
147 #a1 #a2 #b #c1 #H1 #H2 <le_plus_minus_comm /2/
150 lemma arith_i2: ∀a,c1,c2. c1 + c2 ≤ a → c1 + c2 + (a - c1 - c2) = a.
153 lemma arith_z1: ∀a,b,c1. a + c1 - b - c1 = a - b.
156 (* unstable *****************************************************************)
158 lemma arith1: ∀n,h,m,p. n + h + m ≤ p + h → n + m ≤ p.
161 lemma arith2: ∀j,i,e,d. d + e ≤ i → d ≤ i - e + j.
162 #j #i #e #d #H lapply (plus_le_minus … H) -H /2/
165 lemma arith3: ∀a1,a2,b,c1. a1 + a2 ≤ b → a1 + c1 + a2 ≤ b + c1.
168 lemma arith4: ∀h,d,e1,e2. d ≤ e1 + e2 → d + h ≤ e1 + h + e2.
171 lemma arith5: ∀a,b1,b2,c1. c1 ≤ b1 → c1 ≤ a → a < b1 + b2 → a - c1 < b1 - c1 + b2.
172 #a #b1 #b2 #c1 #H1 #H2 #H3
173 <le_plus_minus_comm // @monotonic_lt_minus_l //
176 lemma arith8: ∀a,b. a < a + b + 1.
179 lemma arith9: ∀a,b,c. c < a + (b + c + 1) + 1.
182 lemma arith10: ∀a,b,c,d,e. a ≤ b → c + (a - d - e) ≤ c + (b - d - e).
184 >minus_plus >minus_plus @monotonic_le_plus_r @monotonic_le_minus_l //