(* Title: HOL/Real/RealArith.ML
ID: $Id$
Author: Lawrence C Paulson, Cambridge University Computer Laboratory
Copyright 1999 University of Cambridge
Common factor cancellation
*)
val real_inverse_eq_divide = thm"real_inverse_eq_divide";
val real_mult_less_cancel2 = thm"real_mult_less_cancel2";
val real_mult_le_cancel2 = thm"real_mult_le_cancel2";
val real_mult_less_cancel1 = thm"real_mult_less_cancel1";
val real_mult_le_cancel1 = thm"real_mult_le_cancel1";
val real_mult_eq_cancel1 = thm"real_mult_eq_cancel1";
val real_mult_eq_cancel2 = thm"real_mult_eq_cancel2";
val real_mult_div_cancel1 = thm"real_mult_div_cancel1";
val real_mult_div_cancel_disj = thm"real_mult_div_cancel_disj";
local
open Real_Numeral_Simprocs
in
val rel_real_number_of = [eq_real_number_of, less_real_number_of,
le_real_number_of_eq_not_less]
structure CancelNumeralFactorCommon =
struct
val mk_coeff = mk_coeff
val dest_coeff = dest_coeff 1
val trans_tac = trans_tac
val norm_tac =
ALLGOALS (simp_tac (HOL_ss addsimps real_minus_from_mult_simps @ mult_1s))
THEN ALLGOALS (simp_tac (HOL_ss addsimps bin_simps@real_mult_minus_simps))
THEN ALLGOALS (simp_tac (HOL_ss addsimps real_mult_ac))
val numeral_simp_tac =
ALLGOALS (simp_tac (HOL_ss addsimps rel_real_number_of@bin_simps))
val simplify_meta_eq = simplify_meta_eq
end
structure DivCancelNumeralFactor = CancelNumeralFactorFun
(open CancelNumeralFactorCommon
val prove_conv = Bin_Simprocs.prove_conv
val mk_bal = HOLogic.mk_binop "HOL.divide"
val dest_bal = HOLogic.dest_bin "HOL.divide" HOLogic.realT
val cancel = real_mult_div_cancel1 RS trans
val neg_exchanges = false
)
structure EqCancelNumeralFactor = CancelNumeralFactorFun
(open CancelNumeralFactorCommon
val prove_conv = Bin_Simprocs.prove_conv
val mk_bal = HOLogic.mk_eq
val dest_bal = HOLogic.dest_bin "op =" HOLogic.realT
val cancel = real_mult_eq_cancel1 RS trans
val neg_exchanges = false
)
structure LessCancelNumeralFactor = CancelNumeralFactorFun
(open CancelNumeralFactorCommon
val prove_conv = Bin_Simprocs.prove_conv
val mk_bal = HOLogic.mk_binrel "op <"
val dest_bal = HOLogic.dest_bin "op <" HOLogic.realT
val cancel = real_mult_less_cancel1 RS trans
val neg_exchanges = true
)
structure LeCancelNumeralFactor = CancelNumeralFactorFun
(open CancelNumeralFactorCommon
val prove_conv = Bin_Simprocs.prove_conv
val mk_bal = HOLogic.mk_binrel "op <="
val dest_bal = HOLogic.dest_bin "op <=" HOLogic.realT
val cancel = real_mult_le_cancel1 RS trans
val neg_exchanges = true
)
val real_cancel_numeral_factors_relations =
map prep_simproc
[("realeq_cancel_numeral_factor",
["(l::real) * m = n", "(l::real) = m * n"],
EqCancelNumeralFactor.proc),
("realless_cancel_numeral_factor",
["(l::real) * m < n", "(l::real) < m * n"],
LessCancelNumeralFactor.proc),
("realle_cancel_numeral_factor",
["(l::real) * m <= n", "(l::real) <= m * n"],
LeCancelNumeralFactor.proc)]
val real_cancel_numeral_factors_divide = prep_simproc
("realdiv_cancel_numeral_factor",
["((l::real) * m) / n", "(l::real) / (m * n)",
"((number_of v)::real) / (number_of w)"],
DivCancelNumeralFactor.proc)
val real_cancel_numeral_factors =
real_cancel_numeral_factors_relations @
[real_cancel_numeral_factors_divide]
end;
Addsimprocs real_cancel_numeral_factors;
(*examples:
print_depth 22;
set timing;
set trace_simp;
fun test s = (Goal s; by (Simp_tac 1));
test "0 <= (y::real) * -2";
test "9*x = 12 * (y::real)";
test "(9*x) / (12 * (y::real)) = z";
test "9*x < 12 * (y::real)";
test "9*x <= 12 * (y::real)";
test "-99*x = 132 * (y::real)";
test "(-99*x) / (132 * (y::real)) = z";
test "-99*x < 132 * (y::real)";
test "-99*x <= 132 * (y::real)";
test "999*x = -396 * (y::real)";
test "(999*x) / (-396 * (y::real)) = z";
test "999*x < -396 * (y::real)";
test "999*x <= -396 * (y::real)";
test "(- ((2::real) * x) <= 2 * y)";
test "-99*x = -81 * (y::real)";
test "(-99*x) / (-81 * (y::real)) = z";
test "-99*x <= -81 * (y::real)";
test "-99*x < -81 * (y::real)";
test "-2 * x = -1 * (y::real)";
test "-2 * x = -(y::real)";
test "(-2 * x) / (-1 * (y::real)) = z";
test "-2 * x < -(y::real)";
test "-2 * x <= -1 * (y::real)";
test "-x < -23 * (y::real)";
test "-x <= -23 * (y::real)";
*)
(** Declarations for ExtractCommonTerm **)
local
open Real_Numeral_Simprocs
in
structure CancelFactorCommon =
struct
val mk_sum = long_mk_prod
val dest_sum = dest_prod
val mk_coeff = mk_coeff
val dest_coeff = dest_coeff
val find_first = find_first []
val trans_tac = trans_tac
val norm_tac = ALLGOALS (simp_tac (HOL_ss addsimps mult_1s@real_mult_ac))
end;
structure EqCancelFactor = ExtractCommonTermFun
(open CancelFactorCommon
val prove_conv = Bin_Simprocs.prove_conv
val mk_bal = HOLogic.mk_eq
val dest_bal = HOLogic.dest_bin "op =" HOLogic.realT
val simplify_meta_eq = cancel_simplify_meta_eq real_mult_eq_cancel1
);
structure DivideCancelFactor = ExtractCommonTermFun
(open CancelFactorCommon
val prove_conv = Bin_Simprocs.prove_conv
val mk_bal = HOLogic.mk_binop "HOL.divide"
val dest_bal = HOLogic.dest_bin "HOL.divide" HOLogic.realT
val simplify_meta_eq = cancel_simplify_meta_eq real_mult_div_cancel_disj
);
val real_cancel_factor =
map prep_simproc
[("real_eq_cancel_factor", ["(l::real) * m = n", "(l::real) = m * n"], EqCancelFactor.proc),
("real_divide_cancel_factor", ["((l::real) * m) / n", "(l::real) / (m * n)"],
DivideCancelFactor.proc)];
end;
Addsimprocs real_cancel_factor;
(*examples:
print_depth 22;
set timing;
set trace_simp;
fun test s = (Goal s; by (Asm_simp_tac 1));
test "x*k = k*(y::real)";
test "k = k*(y::real)";
test "a*(b*c) = (b::real)";
test "a*(b*c) = d*(b::real)*(x*a)";
test "(x*k) / (k*(y::real)) = (uu::real)";
test "(k) / (k*(y::real)) = (uu::real)";
test "(a*(b*c)) / ((b::real)) = (uu::real)";
test "(a*(b*c)) / (d*(b::real)*(x*a)) = (uu::real)";
(*FIXME: what do we do about this?*)
test "a*(b*c)/(y*z) = d*(b::real)*(x*a)/z";
*)
val real_inverse_less_iff = thm"real_inverse_less_iff";
val real_inverse_le_iff = thm"real_inverse_le_iff";
val pos_real_less_divide_eq = thm"pos_less_divide_eq";
val pos_real_divide_less_eq = thm"pos_divide_less_eq";
val pos_real_le_divide_eq = thm"pos_le_divide_eq";
val pos_real_divide_le_eq = thm"pos_divide_le_eq";