From d181afb16b43429add6517e415c7ff8f84ddf629 Mon Sep 17 00:00:00 2001 From: Jason Gross Date: Sun, 18 Jun 2017 00:47:42 -0400 Subject: Add notations --- src/Compilers/Z/BinaryNotationConstants.v | 65 ++++++++++++++------ src/Compilers/Z/CNotations.v | 98 +++++++++++++++++++++++++++++++ src/Compilers/Z/HexNotationConstants.v | 69 ++++++++++++++++------ 3 files changed, 194 insertions(+), 38 deletions(-) (limited to 'src/Compilers/Z') diff --git a/src/Compilers/Z/BinaryNotationConstants.v b/src/Compilers/Z/BinaryNotationConstants.v index 6e240ff87..8aacbee65 100644 --- a/src/Compilers/Z/BinaryNotationConstants.v +++ b/src/Compilers/Z/BinaryNotationConstants.v @@ -1,31 +1,22 @@ +Require Import Coq.ZArith.ZArith. Require Export Crypto.Compilers.Syntax. Require Import Crypto.Compilers.Z.Syntax. Require Export Bedrock.Word. Require Export Crypto.Util.Notations. -Local Notation Const x := (Op (OpConst x) TT). +Notation Const x := (Op (OpConst x) TT). (* python: -<< -#!/usr/bin/env python -print(r"""Require Export Crypto.Compilers.Syntax. -Require Import Crypto.Compilers.Z.Syntax. -Require Export Bedrock.Word. -Require Export Crypto.Util.Notations. +<<#!/usr/bin/env python +from __future__ import with_statement -Local Notation Const x := (Op (OpConst x) TT). -(""" + r"""* python: -<<""") -print(open(__file__).read()) -print(r""">> - *""" + r""")""") -print('\n'.join('''Notation "'%s'" (* %d (%s) *)\n := (Const %s).''' % (b, d, h, i) - for d, h, b, i in sorted([(eval(bv), hex(eval(bv)), bv, i) - for (bv, i) in (('0b' + i[2:].replace('~', ''), i) - for i in r"""WO~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0 +words = r"""WO~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0 WO~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1 WO~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~0~1~1~0 WO~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~0 WO~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0 +WO~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1 +WO~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0 +WO~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1 WO~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1 WO~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1 WO~0~0~0~0~0~0~0~0~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1 @@ -67,8 +58,38 @@ WO~1~0~0~1 WO~1~0 WO~1~1 WO~0 -WO~1""".split('\n'))]))) +WO~1""" + +def header(): + return (r"""Require Import Coq.ZArith.ZArith. +Require Export Crypto.Compilers.Syntax. +Require Import Crypto.Compilers.Z.Syntax. +Require Export Bedrock.Word. +Require Export Crypto.Util.Notations. + +Notation Const x := (Op (OpConst x) TT). +(""" + r"""* python: +<<""" + + open(__file__).read() + + r""">> + *""" + r""")""") + +def hex_nots(): + return ('\n'.join('''Notation "'%s'" (* %d (%s) *)\n := (Const %s%%Z).\nNotation "'%s'" (* %d (%s) *)\n := (Const %s).''' % (h, d, h, d, h, d, h, w) + for d, h, b, w in sorted([(eval(bv), hex(eval(bv)), bv, i) + for (bv, i) in (('0b' + i[2:].replace('~', ''), i) + for i in sorted(words.split('\n')))]))) +def bin_nots(): + return ('\n'.join('''Notation "'%s'" (* %d (%s) *)\n := (Const %s).''' % (b, d, h, i) + for d, h, b, i in sorted([(eval(bv), hex(eval(bv)), bv, i) + for (bv, i) in (('0b' + i[2:].replace('~', ''), i) + for i in sorted(words.split('\n')))]))) + +with open('HexNotationConstants.v', 'w') as f: + f.write(header() + '\n' + hex_nots()) +with open('BinaryNotationConstants.v', 'w') as f: + f.write(header() + '\n' + bin_nots()) >> *) Notation "'0b0'" (* 0 (0x0) *) @@ -163,5 +184,11 @@ Notation "'0b0000000000000000000000000000000000000000001111111111111111111111111 := (Const WO~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~0~1~1~0). Notation "'0b00000000000000000000000000000000000000000011111111111111111111111111111111111111111111111111111111111111111111111111111111111110'" (* 77371252455336267181195262 (0x3ffffffffffffffffffffeL) *) := (Const WO~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~0). +Notation "'0b00000000000000000000000000000000111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111'" (* 79228162514264337593543950335 (0xffffffffffffffffffffffffL) *) + := (Const WO~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1). +Notation "'0b11111111111111111111111111111111000000000000000000000000000000010000000000000000000000000000000000000000000000000000000000000000'" (* 340282366841710300967557013911933812736 (0xffffffff000000010000000000000000L) *) + := (Const WO~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0). +Notation "'0b11111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111'" (* 340282366920938463463374607431768211455 (0xffffffffffffffffffffffffffffffffL) *) + := (Const WO~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1). Notation "'0b100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000'" (* 26959946667150639794667015087019630673637144422540572481103610249216 (0x100000000000000000000000000000000000000000000000000000000L) *) - := (Const WO~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0). + := (Const WO~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0). \ No newline at end of file diff --git a/src/Compilers/Z/CNotations.v b/src/Compilers/Z/CNotations.v index 69adb06c7..5e542f4c4 100644 --- a/src/Compilers/Z/CNotations.v +++ b/src/Compilers/Z/CNotations.v @@ -193,8 +193,10 @@ for opn, op in (('addcarryx', 'AddWithGetCarry'), ('subborrow', 'SubWithGetBorro b = ('b' if not v2 else '(Var b)') print(('Notation "\'%s_u%d\' ( c , a , b )" := (Op (%s %d (TWord 0) (TWord %d) (TWord %d) (TWord %d) (TWord 0)) (Pair (Pair %s %s) %s)).') % (opn, wordsz, op, wordsz, lgwordsz, lgwordsz, lgwordsz, c, a, b)) print(('Notation "\'%s_u%d\' ( c , a , b )" := (Op (%s %d (TWord 0) (TWord 0) (TWord %d) (TWord %d) (TWord 0)) (Pair (Pair %s %s) %s)).') % (opn, wordsz, op, wordsz, lgwordsz, lgwordsz, c, a, b)) + print(('Notation "\'%s_u%d\' ( c , a , b )" := (Op (%s %d (TWord 0) (TWord %d) (TWord 0) (TWord %d) (TWord 0)) (Pair (Pair %s %s) %s)).') % (opn, wordsz, op, wordsz, lgwordsz, lgwordsz, c, a, b)) print(('(' + '*Notation "T0 out ; T1 c_out = \'_%s_u%d\' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (%s %d (TWord 0) (TWord %d) (TWord %d) (TWord %d) (TWord 0)) (Pair (Pair %s %s) %s)) (fun \'((out, c_out)%%core) => REST)).*' + ')') % (opn, wordsz, op, wordsz, lgwordsz, lgwordsz, lgwordsz, c, a, b)) print(('(' + '*Notation "T0 out ; T1 c_out = \'_%s_u%d\' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (%s %d (TWord 0) (TWord 0) (TWord %d) (TWord %d) (TWord 0)) (Pair (Pair %s %s) %s)) (fun \'((out, c_out)%%core) => REST)).*' + ')') % (opn, wordsz, op, wordsz, lgwordsz, lgwordsz, c, a, b)) + print(('(' + '*Notation "T0 out ; T1 c_out = \'_%s_u%d\' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (%s %d (TWord 0) (TWord %d) (TWord 0) (TWord %d) (TWord 0)) (Pair (Pair %s %s) %s)) (fun \'((out, c_out)%%core) => REST)).*' + ')') % (opn, wordsz, op, wordsz, lgwordsz, lgwordsz, c, a, b)) print('Notation Return x := (Var x).') print('Notation C_like := (Expr base_type op _).') >> *) @@ -1571,195 +1573,291 @@ Notation "'(uint256_t)' ( v == 0 ? x : y )" := (Op (Zselect _ (TWord _) (TWord _ Notation "v == 0 ? x : y" := (Op (Zselect _ (TWord 8) (TWord 8) (TWord 8)) (Pair (Pair (Var v) (Var x)) (Var y))). Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c a) b)). Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c a) b)). +Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair c a) b)). (*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c a) (Var b))). Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c a) (Var b))). +Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair c a) (Var b))). (*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) b)). Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) b)). +Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) b)). (*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). +Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). (*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) b)). Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) b)). +Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) b)). (*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). +Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). (*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). +Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). (*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). +Notation "'addcarryx_u32' ( c , a , b )" := (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). (*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) b)). Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) b)). +Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c a) b)). (*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))). Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))). +Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))). (*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)). Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)). +Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)). (*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). +Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). (*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)). Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)). +Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)). (*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). +Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). (*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). +Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). (*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). +Notation "'addcarryx_u64' ( c , a , b )" := (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). (*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) b)). Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) b)). +Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c a) b)). (*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))). Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))). +Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))). (*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)). Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)). +Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)). (*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). +Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). (*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)). Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)). +Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)). (*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). +Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). (*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). +Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). (*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). +Notation "'addcarryx_u51' ( c , a , b )" := (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). (*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_addcarryx_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (AddWithGetCarry 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c a) b)). Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c a) b)). +Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair c a) b)). (*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c a) (Var b))). Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c a) (Var b))). +Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair c a) (Var b))). (*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) b)). Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) b)). +Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) b)). (*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). +Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). (*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) b)). Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) b)). +Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) b)). (*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). +Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). (*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). +Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). (*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). +Notation "'subborrow_u32' ( c , a , b )" := (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). (*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 0) (TWord 5) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u32' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 32 (TWord 0) (TWord 5) (TWord 0) (TWord 5) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) b)). Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) b)). +Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c a) b)). (*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))). Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))). +Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))). (*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)). Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)). +Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)). (*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). +Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). (*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)). Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)). +Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)). (*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). +Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). (*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). +Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). (*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). +Notation "'subborrow_u64' ( c , a , b )" := (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). (*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u64' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 64 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) b)). Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) b)). +Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c a) b)). (*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c a) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))). Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))). +Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))). (*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c a) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)). Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)). +Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)). (*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). +Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))). (*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair c (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)). Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)). +Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)). (*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). +Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))). (*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) a) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). +Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)). (*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) b)) (fun '((out, c_out)%core) => REST)).*) Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). +Notation "'subborrow_u51' ( c , a , b )" := (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))). (*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) (*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 0) (TWord 6) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) +(*Notation "T0 out ; T1 c_out = '_subborrow_u51' ( c , a , b , & out ) ; REST" := (LetIn (tx:=Prod T0 T1) (Op (SubWithGetBorrow 51 (TWord 0) (TWord 6) (TWord 0) (TWord 6) (TWord 0)) (Pair (Pair (Var c) (Var a)) (Var b))) (fun '((out, c_out)%core) => REST)).*) Notation Return x := (Var x). Notation C_like := (Expr base_type op _). diff --git a/src/Compilers/Z/HexNotationConstants.v b/src/Compilers/Z/HexNotationConstants.v index b818b97d7..f900c7f11 100644 --- a/src/Compilers/Z/HexNotationConstants.v +++ b/src/Compilers/Z/HexNotationConstants.v @@ -6,28 +6,17 @@ Require Export Crypto.Util.Notations. Notation Const x := (Op (OpConst x) TT). (* python: -<< -#!/usr/bin/env python -print(r"""Require Import Coq.ZArith.ZArith. -Require Export Crypto.Compilers.Syntax. -Require Import Crypto.Compilers.Z.Syntax. -Require Export Bedrock.Word. -Require Export Crypto.Util.Notations. +<<#!/usr/bin/env python +from __future__ import with_statement -Notation Const x := (Op (OpConst x) TT). -(""" + r"""* python: -<<""") -print(open(__file__).read()) -print(r""">> - *""" + r""")""") -print('\n'.join('''Notation "'%s'" (* %d (%s) *)\n := (Const %s%%Z).\nNotation "'%s'" (* %d (%s) *)\n := (Const %s).''' % (h, d, h, d, h, d, h, w) - for d, h, b, w in sorted([(eval(bv), hex(eval(bv)), bv, i) - for (bv, i) in (('0b' + i[2:].replace('~', ''), i) - for i in r"""WO~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0 +words = r"""WO~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0 WO~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1 WO~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~0~1~1~0 WO~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~0 WO~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0 +WO~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1 +WO~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0 +WO~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1 WO~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1 WO~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1 WO~0~0~0~0~0~0~0~0~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1 @@ -69,8 +58,38 @@ WO~1~0~0~1 WO~1~0 WO~1~1 WO~0 -WO~1""".split('\n'))]))) +WO~1""" + +def header(): + return (r"""Require Import Coq.ZArith.ZArith. +Require Export Crypto.Compilers.Syntax. +Require Import Crypto.Compilers.Z.Syntax. +Require Export Bedrock.Word. +Require Export Crypto.Util.Notations. + +Notation Const x := (Op (OpConst x) TT). +(""" + r"""* python: +<<""" + + open(__file__).read() + + r""">> + *""" + r""")""") + +def hex_nots(): + return ('\n'.join('''Notation "'%s'" (* %d (%s) *)\n := (Const %s%%Z).\nNotation "'%s'" (* %d (%s) *)\n := (Const %s).''' % (h, d, h, d, h, d, h, w) + for d, h, b, w in sorted([(eval(bv), hex(eval(bv)), bv, i) + for (bv, i) in (('0b' + i[2:].replace('~', ''), i) + for i in sorted(words.split('\n')))]))) +def bin_nots(): + return ('\n'.join('''Notation "'%s'" (* %d (%s) *)\n := (Const %s).''' % (b, d, h, i) + for d, h, b, i in sorted([(eval(bv), hex(eval(bv)), bv, i) + for (bv, i) in (('0b' + i[2:].replace('~', ''), i) + for i in sorted(words.split('\n')))]))) + +with open('HexNotationConstants.v', 'w') as f: + f.write(header() + '\n' + hex_nots()) +with open('BinaryNotationConstants.v', 'w') as f: + f.write(header() + '\n' + bin_nots()) >> *) Notation "'0x0'" (* 0 (0x0) *) @@ -257,7 +276,19 @@ Notation "'0x3ffffffffffffffffffffeL'" (* 77371252455336267181195262 (0x3fffffff := (Const 77371252455336267181195262%Z). Notation "'0x3ffffffffffffffffffffeL'" (* 77371252455336267181195262 (0x3ffffffffffffffffffffeL) *) := (Const WO~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~0). +Notation "'0xffffffffffffffffffffffffL'" (* 79228162514264337593543950335 (0xffffffffffffffffffffffffL) *) + := (Const 79228162514264337593543950335%Z). +Notation "'0xffffffffffffffffffffffffL'" (* 79228162514264337593543950335 (0xffffffffffffffffffffffffL) *) + := (Const WO~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1). +Notation "'0xffffffff000000010000000000000000L'" (* 340282366841710300967557013911933812736 (0xffffffff000000010000000000000000L) *) + := (Const 340282366841710300967557013911933812736%Z). +Notation "'0xffffffff000000010000000000000000L'" (* 340282366841710300967557013911933812736 (0xffffffff000000010000000000000000L) *) + := (Const WO~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0). +Notation "'0xffffffffffffffffffffffffffffffffL'" (* 340282366920938463463374607431768211455 (0xffffffffffffffffffffffffffffffffL) *) + := (Const 340282366920938463463374607431768211455%Z). +Notation "'0xffffffffffffffffffffffffffffffffL'" (* 340282366920938463463374607431768211455 (0xffffffffffffffffffffffffffffffffL) *) + := (Const WO~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1~1). Notation "'0x100000000000000000000000000000000000000000000000000000000L'" (* 26959946667150639794667015087019630673637144422540572481103610249216 (0x100000000000000000000000000000000000000000000000000000000L) *) := (Const 26959946667150639794667015087019630673637144422540572481103610249216%Z). Notation "'0x100000000000000000000000000000000000000000000000000000000L'" (* 26959946667150639794667015087019630673637144422540572481103610249216 (0x100000000000000000000000000000000000000000000000000000000L) *) - := (Const WO~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0). + := (Const WO~1~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0~0). \ No newline at end of file -- cgit v1.2.3