diff options
author | Stephane Glondu <steph@glondu.net> | 2012-08-20 18:27:01 +0200 |
---|---|---|
committer | Stephane Glondu <steph@glondu.net> | 2012-08-20 18:27:01 +0200 |
commit | e0d682ec25282a348d35c5b169abafec48555690 (patch) | |
tree | 1a46f0142a85df553388c932110793881f3af52f /theories/Numbers/Cyclic/DoubleCyclic/DoubleLift.v | |
parent | 86535d84cc3cffeee1dcd8545343f234e7285530 (diff) |
Imported Upstream version 8.4dfsgupstream/8.4dfsg
Diffstat (limited to 'theories/Numbers/Cyclic/DoubleCyclic/DoubleLift.v')
-rw-r--r-- | theories/Numbers/Cyclic/DoubleCyclic/DoubleLift.v | 186 |
1 files changed, 93 insertions, 93 deletions
diff --git a/theories/Numbers/Cyclic/DoubleCyclic/DoubleLift.v b/theories/Numbers/Cyclic/DoubleCyclic/DoubleLift.v index a6a0fc8e..0a70dbf4 100644 --- a/theories/Numbers/Cyclic/DoubleCyclic/DoubleLift.v +++ b/theories/Numbers/Cyclic/DoubleCyclic/DoubleLift.v @@ -1,6 +1,6 @@ (************************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) -(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2010 *) +(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2012 *) (* \VV/ **************************************************************) (* // * This file is distributed under the terms of the *) (* * GNU Lesser General Public License Version 2.1 *) @@ -104,9 +104,9 @@ Section DoubleLift. Variable spec_w_W0 : forall h, [[w_W0 h]] = [|h|] * wB. Variable spec_w_0W : forall l, [[w_0W l]] = [|l|]. Variable spec_compare : forall x y, - w_compare x y = Zcompare [|x|] [|y|]. + w_compare x y = Z.compare [|x|] [|y|]. Variable spec_ww_compare : forall x y, - ww_compare x y = Zcompare [[x]] [[y]]. + ww_compare x y = Z.compare [[x]] [[y]]. Variable spec_ww_digits : ww_Digits = xO w_digits. Variable spec_w_head00 : forall x, [|x|] = 0 -> [|w_head0 x|] = Zpos w_digits. Variable spec_w_head0 : forall x, 0 < [|x|] -> @@ -140,20 +140,20 @@ Section DoubleLift. case (spec_to_Z xh); intros Hx1 Hx2. case (spec_to_Z xl); intros Hy1 Hy2. assert (F1: [|xh|] = 0). - case (Zle_lt_or_eq _ _ Hy1); auto; intros Hy3. - absurd (0 < [|xh|] * wB + [|xl|]); auto with zarith. - apply Zlt_le_trans with (1 := Hy3); auto with zarith. - pattern [|xl|] at 1; rewrite <- (Zplus_0_l [|xl|]). - apply Zplus_le_compat_r; auto with zarith. - case (Zle_lt_or_eq _ _ Hx1); auto; intros Hx3. - absurd (0 < [|xh|] * wB + [|xl|]); auto with zarith. - rewrite <- Hy3; rewrite Zplus_0_r; auto with zarith. - apply Zmult_lt_0_compat; auto with zarith. - rewrite spec_compare. case Zcompare_spec. + { Z.le_elim Hy1; auto. + - absurd (0 < [|xh|] * wB + [|xl|]); auto with zarith. + apply Z.lt_le_trans with (1 := Hy1); auto with zarith. + pattern [|xl|] at 1; rewrite <- (Z.add_0_l [|xl|]). + apply Z.add_le_mono_r; auto with zarith. + - Z.le_elim Hx1; auto. + absurd (0 < [|xh|] * wB + [|xl|]); auto with zarith. + rewrite <- Hy1; rewrite Z.add_0_r; auto with zarith. + apply Z.mul_pos_pos; auto with zarith. } + rewrite spec_compare. case Z.compare_spec. intros H; simpl. rewrite spec_w_add; rewrite spec_w_head00. rewrite spec_zdigits; rewrite spec_ww_digits. - rewrite Zpos_xO; auto with zarith. + rewrite Pos2Z.inj_xO; auto with zarith. rewrite F1 in Hx; auto with zarith. rewrite spec_w_0; auto with zarith. rewrite spec_w_0; auto with zarith. @@ -163,43 +163,43 @@ Section DoubleLift. wwB/ 2 <= 2 ^ [[ww_head0 x]] * [[x]] < wwB. Proof. clear spec_ww_zdigits. - rewrite wwB_div_2;rewrite Zmult_comm;rewrite wwB_wBwB. + rewrite wwB_div_2;rewrite Z.mul_comm;rewrite wwB_wBwB. assert (U:= lt_0_wB w_digits); destruct x as [ |xh xl];simpl ww_to_Z;intros H. - unfold Zlt in H;discriminate H. - rewrite spec_compare, spec_w_0. case Zcompare_spec; intros H0. - rewrite <- H0 in *. simpl Zplus. simpl in H. + unfold Z.lt in H;discriminate H. + rewrite spec_compare, spec_w_0. case Z.compare_spec; intros H0. + rewrite <- H0 in *. simpl Z.add. simpl in H. case (spec_to_Z w_zdigits); case (spec_to_Z (w_head0 xl)); intros HH1 HH2 HH3 HH4. rewrite spec_w_add. rewrite spec_zdigits; rewrite Zpower_exp; auto with zarith. case (spec_w_head0 H); intros H1 H2. - rewrite Zpower_2; fold wB; rewrite <- Zmult_assoc; split. - apply Zmult_le_compat_l; auto with zarith. - apply Zmult_lt_compat_l; auto with zarith. + rewrite Z.pow_2_r; fold wB; rewrite <- Z.mul_assoc; split. + apply Z.mul_le_mono_nonneg_l; auto with zarith. + apply Z.mul_lt_mono_pos_l; auto with zarith. assert (H1 := spec_w_head0 H0). rewrite spec_w_0W. split. - rewrite Zmult_plus_distr_r;rewrite Zmult_assoc. - apply Zle_trans with (2 ^ [|w_head0 xh|] * [|xh|] * wB). - rewrite Zmult_comm; zarith. + rewrite Z.mul_add_distr_l;rewrite Z.mul_assoc. + apply Z.le_trans with (2 ^ [|w_head0 xh|] * [|xh|] * wB). + rewrite Z.mul_comm; zarith. assert (0 <= 2 ^ [|w_head0 xh|] * [|xl|]);zarith. - assert (H2:=spec_to_Z xl);apply Zmult_le_0_compat;zarith. + assert (H2:=spec_to_Z xl);apply Z.mul_nonneg_nonneg;zarith. case (spec_to_Z (w_head0 xh)); intros H2 _. generalize ([|w_head0 xh|]) H1 H2;clear H1 H2; intros p H1 H2. assert (Eq1 : 2^p < wB). - rewrite <- (Zmult_1_r (2^p));apply Zle_lt_trans with (2^p*[|xh|]);zarith. + rewrite <- (Z.mul_1_r (2^p));apply Z.le_lt_trans with (2^p*[|xh|]);zarith. assert (Eq2: p < Zpos w_digits). - destruct (Zle_or_lt (Zpos w_digits) p);trivial;contradict Eq1. - apply Zle_not_lt;unfold base;apply Zpower_le_monotone;zarith. + destruct (Z.le_gt_cases (Zpos w_digits) p);trivial;contradict Eq1. + apply Z.le_ngt;unfold base;apply Zpower_le_monotone;zarith. assert (Zpos w_digits = p + (Zpos w_digits - p)). ring. - rewrite Zpower_2. + rewrite Z.pow_2_r. unfold base at 2;rewrite H3;rewrite Zpower_exp;zarith. - rewrite <- Zmult_assoc; apply Zmult_lt_compat_l; zarith. - rewrite <- (Zplus_0_r (2^(Zpos w_digits - p)*wB));apply beta_lex_inv;zarith. - apply Zmult_lt_reg_r with (2 ^ p); zarith. + rewrite <- Z.mul_assoc; apply Z.mul_lt_mono_pos_l; zarith. + rewrite <- (Z.add_0_r (2^(Zpos w_digits - p)*wB));apply beta_lex_inv;zarith. + apply Z.mul_lt_mono_pos_r with (2 ^ p); zarith. rewrite <- Zpower_exp;zarith. - rewrite Zmult_comm;ring_simplify (Zpos w_digits - p + p);fold wB;zarith. + rewrite Z.mul_comm;ring_simplify (Zpos w_digits - p + p);fold wB;zarith. assert (H1 := spec_to_Z xh);zarith. Qed. @@ -211,22 +211,22 @@ Section DoubleLift. case (spec_to_Z xh); intros Hx1 Hx2. case (spec_to_Z xl); intros Hy1 Hy2. assert (F1: [|xh|] = 0). - case (Zle_lt_or_eq _ _ Hy1); auto; intros Hy3. - absurd (0 < [|xh|] * wB + [|xl|]); auto with zarith. - apply Zlt_le_trans with (1 := Hy3); auto with zarith. - pattern [|xl|] at 1; rewrite <- (Zplus_0_l [|xl|]). - apply Zplus_le_compat_r; auto with zarith. - case (Zle_lt_or_eq _ _ Hx1); auto; intros Hx3. - absurd (0 < [|xh|] * wB + [|xl|]); auto with zarith. - rewrite <- Hy3; rewrite Zplus_0_r; auto with zarith. - apply Zmult_lt_0_compat; auto with zarith. + { Z.le_elim Hy1; auto. + - absurd (0 < [|xh|] * wB + [|xl|]); auto with zarith. + apply Z.lt_le_trans with (1 := Hy1); auto with zarith. + pattern [|xl|] at 1; rewrite <- (Z.add_0_l [|xl|]). + apply Z.add_le_mono_r; auto with zarith. + - Z.le_elim Hx1; auto. + absurd (0 < [|xh|] * wB + [|xl|]); auto with zarith. + rewrite <- Hy1; rewrite Z.add_0_r; auto with zarith. + apply Z.mul_pos_pos; auto with zarith. } assert (F2: [|xl|] = 0). rewrite F1 in Hx; auto with zarith. - rewrite spec_compare; case Zcompare_spec. + rewrite spec_compare; case Z.compare_spec. intros H; simpl. rewrite spec_w_add; rewrite spec_w_tail00; auto. rewrite spec_zdigits; rewrite spec_ww_digits. - rewrite Zpos_xO; auto with zarith. + rewrite Pos2Z.inj_xO; auto with zarith. rewrite spec_w_0; auto with zarith. rewrite spec_w_0; auto with zarith. Qed. @@ -236,51 +236,51 @@ Section DoubleLift. Proof. clear spec_ww_zdigits. destruct x as [ |xh xl];simpl ww_to_Z;intros H. - unfold Zlt in H;discriminate H. - rewrite spec_compare, spec_w_0. case Zcompare_spec; intros H0. - rewrite <- H0; rewrite Zplus_0_r. + unfold Z.lt in H;discriminate H. + rewrite spec_compare, spec_w_0. case Z.compare_spec; intros H0. + rewrite <- H0; rewrite Z.add_0_r. case (spec_to_Z (w_tail0 xh)); intros HH1 HH2. - generalize H; rewrite <- H0; rewrite Zplus_0_r; clear H; intros H. + generalize H; rewrite <- H0; rewrite Z.add_0_r; clear H; intros H. case (@spec_w_tail0 xh). - apply Zmult_lt_reg_r with wB; auto with zarith. + apply Z.mul_lt_mono_pos_r with wB; auto with zarith. unfold base; auto with zarith. intros z (Hz1, Hz2); exists z; split; auto. - rewrite spec_w_add; rewrite (fun x => Zplus_comm [|x|]). + rewrite spec_w_add; rewrite (fun x => Z.add_comm [|x|]). rewrite spec_zdigits; rewrite Zpower_exp; auto with zarith. - rewrite Zmult_assoc; rewrite <- Hz2; auto. + rewrite Z.mul_assoc; rewrite <- Hz2; auto. case (spec_to_Z (w_tail0 xh)); intros HH1 HH2. case (spec_w_tail0 H0); intros z (Hz1, Hz2). assert (Hp: [|w_tail0 xl|] < Zpos w_digits). - case (Zle_or_lt (Zpos w_digits) [|w_tail0 xl|]); auto; intros H1. + case (Z.le_gt_cases (Zpos w_digits) [|w_tail0 xl|]); auto; intros H1. absurd (2 ^ (Zpos w_digits) <= 2 ^ [|w_tail0 xl|]). - apply Zlt_not_le. + apply Z.lt_nge. case (spec_to_Z xl); intros HH3 HH4. - apply Zle_lt_trans with (2 := HH4). - apply Zle_trans with (1 * 2 ^ [|w_tail0 xl|]); auto with zarith. + apply Z.le_lt_trans with (2 := HH4). + apply Z.le_trans with (1 * 2 ^ [|w_tail0 xl|]); auto with zarith. rewrite Hz2. - apply Zmult_le_compat_r; auto with zarith. + apply Z.mul_le_mono_nonneg_r; auto with zarith. apply Zpower_le_monotone; auto with zarith. exists ([|xh|] * (2 ^ ((Zpos w_digits - [|w_tail0 xl|]) - 1)) + z); split. - apply Zplus_le_0_compat; auto. - apply Zmult_le_0_compat; auto with zarith. + apply Z.add_nonneg_nonneg; auto. + apply Z.mul_nonneg_nonneg; auto with zarith. case (spec_to_Z xh); auto. rewrite spec_w_0W. - rewrite (Zmult_plus_distr_r 2); rewrite <- Zplus_assoc. - rewrite Zmult_plus_distr_l; rewrite <- Hz2. - apply f_equal2 with (f := Zplus); auto. - rewrite (Zmult_comm 2). - repeat rewrite <- Zmult_assoc. - apply f_equal2 with (f := Zmult); auto. + rewrite (Z.mul_add_distr_l 2); rewrite <- Z.add_assoc. + rewrite Z.mul_add_distr_r; rewrite <- Hz2. + apply f_equal2 with (f := Z.add); auto. + rewrite (Z.mul_comm 2). + repeat rewrite <- Z.mul_assoc. + apply f_equal2 with (f := Z.mul); auto. case (spec_to_Z (w_tail0 xl)); intros HH3 HH4. - pattern 2 at 2; rewrite <- Zpower_1_r. + pattern 2 at 2; rewrite <- Z.pow_1_r. lazy beta; repeat rewrite <- Zpower_exp; auto with zarith. - unfold base; apply f_equal with (f := Zpower 2); auto with zarith. + unfold base; apply f_equal with (f := Z.pow 2); auto with zarith. contradict H0; case (spec_to_Z xl); auto with zarith. Qed. - Hint Rewrite Zdiv_0_l Zmult_0_l Zplus_0_l Zmult_0_r Zplus_0_r + Hint Rewrite Zdiv_0_l Z.mul_0_l Z.add_0_l Z.mul_0_r Z.add_0_r spec_w_W0 spec_w_0W spec_w_WW spec_w_0 (wB_div w_digits w_to_Z spec_to_Z) (wB_div_plus w_digits w_to_Z spec_to_Z) : w_rewrite. @@ -304,20 +304,20 @@ Section DoubleLift. intros xh xl yh yl p zdigits;assert (HwwB := wwB_pos w_digits). case (spec_to_w_Z p); intros Hv1 Hv2. replace (Zpos (xO w_digits)) with (Zpos w_digits + Zpos w_digits). - 2 : rewrite Zpos_xO;ring. + 2 : rewrite Pos2Z.inj_xO;ring. replace (Zpos w_digits + Zpos w_digits - [[p]]) with (Zpos w_digits + (Zpos w_digits - [[p]])). 2:ring. intros Hp; assert (Hxh := spec_to_Z xh);assert (Hxl:=spec_to_Z xl); assert (Hx := spec_ww_to_Z w_digits w_to_Z spec_to_Z (WW xh xl)); simpl in Hx;assert (Hyh := spec_to_Z yh);assert (Hyl:=spec_to_Z yl); assert (Hy:=spec_ww_to_Z w_digits w_to_Z spec_to_Z (WW yh yl));simpl in Hy. - rewrite spec_ww_compare; case Zcompare_spec; intros H1. + rewrite spec_ww_compare; case Z.compare_spec; intros H1. rewrite H1; unfold zdigits; rewrite spec_w_0W. - rewrite spec_zdigits; rewrite Zminus_diag; rewrite Zplus_0_r. + rewrite spec_zdigits; rewrite Z.sub_diag; rewrite Z.add_0_r. simpl ww_to_Z; w_rewrite;zarith. fold wB. - rewrite Zmult_plus_distr_l;rewrite <- Zmult_assoc;rewrite <- Zplus_assoc. - rewrite <- Zpower_2. + rewrite Z.mul_add_distr_r;rewrite <- Z.mul_assoc;rewrite <- Z.add_assoc. + rewrite <- Z.pow_2_r. rewrite <- wwB_wBwB;apply Zmod_unique with [|xh|]. exact (spec_ww_to_Z w_digits w_to_Z spec_to_Z (WW xl yh)). ring. simpl ww_to_Z; w_rewrite;zarith. @@ -327,7 +327,7 @@ Section DoubleLift. case (spec_to_w_Z p); intros HH1 HH2; split; auto. generalize H1; unfold zdigits; rewrite spec_w_0W; rewrite spec_zdigits; intros tmp. - apply Zlt_le_trans with (1 := tmp). + apply Z.lt_le_trans with (1 := tmp). unfold base. apply Zpower2_le_lin; auto with zarith. 2: generalize H1; unfold zdigits; rewrite spec_w_0W; @@ -338,16 +338,16 @@ Section DoubleLift. rewrite HH0; auto with zarith. repeat rewrite spec_w_add_mul_div with (1 := HH). rewrite HH0. - rewrite Zmult_plus_distr_l. + rewrite Z.mul_add_distr_r. pattern ([|xl|] * 2 ^ [[p]]) at 2; rewrite shift_unshift_mod with (n:= Zpos w_digits);fold wB;zarith. replace ([|xh|] * wB * 2^[[p]]) with ([|xh|] * 2^[[p]] * wB). 2:ring. - rewrite Zplus_assoc;rewrite <- Zmult_plus_distr_l. rewrite <- Zplus_assoc. + rewrite Z.add_assoc;rewrite <- Z.mul_add_distr_r. rewrite <- Z.add_assoc. unfold base at 5;rewrite <- Zmod_shift_r;zarith. unfold base;rewrite Zmod_shift_r with (b:= Zpos (ww_digits w_digits)); fold wB;fold wwB;zarith. - rewrite wwB_wBwB;rewrite Zpower_2; rewrite Zmult_mod_distr_r;zarith. - unfold ww_digits;rewrite Zpos_xO;zarith. apply Z_mod_lt;zarith. + rewrite wwB_wBwB;rewrite Z.pow_2_r; rewrite Zmult_mod_distr_r;zarith. + unfold ww_digits;rewrite Pos2Z.inj_xO;zarith. apply Z_mod_lt;zarith. split;zarith. apply Zdiv_lt_upper_bound;zarith. rewrite <- Zpower_exp;zarith. ring_simplify ([[p]] + (Zpos w_digits - [[p]]));fold wB;zarith. @@ -362,10 +362,10 @@ Section DoubleLift. rewrite <- Zmod_div_mod; auto with zarith. rewrite Zmod_small; auto with zarith. split; auto with zarith. - apply Zle_lt_trans with (Zpos w_digits); auto with zarith. + apply Z.le_lt_trans with (Zpos w_digits); auto with zarith. unfold base; apply Zpower2_lt_lin; auto with zarith. exists wB; unfold base. - unfold ww_digits; rewrite (Zpos_xO w_digits). + unfold ww_digits; rewrite (Pos2Z.inj_xO w_digits). rewrite <- Zpower_exp; auto with zarith. apply f_equal with (f := fun x => 2 ^ x); auto with zarith. assert (HH: [|low (ww_sub p zdigits)|] <= Zpos w_digits). @@ -378,25 +378,25 @@ Section DoubleLift. pattern wB at 5;replace wB with (2^(([[p]] - Zpos w_digits) + (Zpos w_digits - ([[p]] - Zpos w_digits)))). - rewrite Zpower_exp;zarith. rewrite Zmult_assoc. + rewrite Zpower_exp;zarith. rewrite Z.mul_assoc. rewrite Z_div_plus_l;zarith. rewrite shift_unshift_mod with (a:= [|yh|]) (p:= [[p]] - Zpos w_digits) (n := Zpos w_digits);zarith. fold wB. set (u := [[p]] - Zpos w_digits). replace [[p]] with (u + Zpos w_digits);zarith. - rewrite Zpower_exp;zarith. rewrite Zmult_assoc. fold wB. - repeat rewrite Zplus_assoc. rewrite <- Zmult_plus_distr_l. - repeat rewrite <- Zplus_assoc. + rewrite Zpower_exp;zarith. rewrite Z.mul_assoc. fold wB. + repeat rewrite Z.add_assoc. rewrite <- Z.mul_add_distr_r. + repeat rewrite <- Z.add_assoc. unfold base;rewrite Zmod_shift_r with (b:= Zpos (ww_digits w_digits)); fold wB;fold wwB;zarith. unfold base;rewrite Zmod_shift_r with (a:= Zpos w_digits) (b:= Zpos w_digits);fold wB;fold wwB;zarith. - rewrite wwB_wBwB; rewrite Zpower_2; rewrite Zmult_mod_distr_r;zarith. - rewrite Zmult_plus_distr_l. + rewrite wwB_wBwB; rewrite Z.pow_2_r; rewrite Zmult_mod_distr_r;zarith. + rewrite Z.mul_add_distr_r. replace ([|xh|] * wB * 2 ^ u) with ([|xh|]*2^u*wB). 2:ring. - repeat rewrite <- Zplus_assoc. - rewrite (Zplus_comm ([|xh|] * 2 ^ u * wB)). + repeat rewrite <- Z.add_assoc. + rewrite (Z.add_comm ([|xh|] * 2 ^ u * wB)). rewrite Z_mod_plus;zarith. rewrite Z_mod_mult;zarith. unfold base;rewrite <- Zmod_shift_r;zarith. fold base;apply Z_mod_lt;zarith. unfold u; split;zarith. @@ -404,7 +404,7 @@ Section DoubleLift. rewrite <- Zpower_exp;zarith. fold u. ring_simplify (u + (Zpos w_digits - u)); fold - wB;zarith. unfold ww_digits;rewrite Zpos_xO;zarith. + wB;zarith. unfold ww_digits;rewrite Pos2Z.inj_xO;zarith. unfold base;rewrite <- Zmod_shift_r;zarith. fold base;apply Z_mod_lt;zarith. unfold u; split;zarith. unfold u; split;zarith. @@ -434,14 +434,14 @@ Section DoubleLift. clear H1;w_rewrite);simpl ww_add_mul_div. replace [[WW w_0 w_0]] with 0;[w_rewrite|simpl;w_rewrite;trivial]. intros Heq;rewrite <- Heq;clear Heq; auto. - rewrite spec_ww_compare. case Zcompare_spec; intros H1; w_rewrite. + rewrite spec_ww_compare. case Z.compare_spec; intros H1; w_rewrite. rewrite (spec_w_add_mul_div w_0 w_0);w_rewrite;zarith. generalize H1; w_rewrite; rewrite spec_zdigits; clear H1; intros H1. assert (HH0: [|low p|] = [[p]]). rewrite spec_low. apply Zmod_small. case (spec_to_w_Z p); intros HH1 HH2; split; auto. - apply Zlt_le_trans with (1 := H1). + apply Z.lt_le_trans with (1 := H1). unfold base; apply Zpower2_le_lin; auto with zarith. rewrite HH0; auto with zarith. replace [[WW w_0 w_0]] with 0;[w_rewrite|simpl;w_rewrite;trivial]. @@ -449,7 +449,7 @@ Section DoubleLift. generalize (spec_ww_compare p (w_0W w_zdigits)); case ww_compare; intros H1; w_rewrite. rewrite (spec_w_add_mul_div w_0 w_0);w_rewrite;zarith. - rewrite Zpos_xO in H;zarith. + rewrite Pos2Z.inj_xO in H;zarith. assert (HH: [|low (ww_sub p (w_0W w_zdigits)) |] = [[p]] - Zpos w_digits). symmetry in H1; change ([[p]] > [[w_0W w_zdigits]]) in H1. revert H1. @@ -458,12 +458,12 @@ Section DoubleLift. rewrite <- Zmod_div_mod; auto with zarith. rewrite Zmod_small; auto with zarith. split; auto with zarith. - apply Zle_lt_trans with (Zpos w_digits); auto with zarith. + apply Z.le_lt_trans with (Zpos w_digits); auto with zarith. unfold base; apply Zpower2_lt_lin; auto with zarith. unfold base; auto with zarith. unfold base; auto with zarith. exists wB; unfold base. - unfold ww_digits; rewrite (Zpos_xO w_digits). + unfold ww_digits; rewrite (Pos2Z.inj_xO w_digits). rewrite <- Zpower_exp; auto with zarith. apply f_equal with (f := fun x => 2 ^ x); auto with zarith. case (spec_to_Z xh); auto with zarith. |