yosys/libs/ezsat/demo_cmp.cc

/*
 *  ezSAT -- A simple and easy to use CNF generator for SAT solvers
 *
 *  Copyright (C) 2013  Clifford Wolf <clifford@clifford.at>
 *
 *  Permission to use, copy, modify, and/or distribute this software for any
 *  purpose with or without fee is hereby granted, provided that the above
 *  copyright notice and this permission notice appear in all copies.
 *
 *  THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
 *  WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
 *  MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
 *  ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
 *  WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
 *  ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
 *  OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
 *
 */

#include "ezminisat.h"
#include <assert.h>

#define INIT_X 123456789
#define INIT_Y 362436069
#define INIT_Z 521288629
#define INIT_W  88675123

uint32_t xorshift128() {
	static uint32_t x = INIT_X;
	static uint32_t y = INIT_Y;
	static uint32_t z = INIT_Z;
	static uint32_t w = INIT_W;
	uint32_t t = x ^ (x << 11);
	x = y; y = z; z = w;
	w ^= (w >> 19) ^ t ^ (t >> 8);
	return w;
}

void test_cmp(uint32_t a, uint32_t b)
{
	ezMiniSAT sat;

	printf("A = %10u (%10d)\n", a, int32_t(a));
	printf("B = %10u (%10d)\n", b, int32_t(b));
	printf("\n");

	std::vector<int> va = sat.vec_var("a", 32);
	std::vector<int> vb = sat.vec_var("b", 32);

	sat.vec_set_unsigned(va, a);
	sat.vec_set_unsigned(vb, b);

#define MONITOR_VARS \
	X(carry) X(overflow) X(sign) X(zero) \
	X(lt_signed) X(le_signed) X(ge_signed) X(gt_signed) \
	X(lt_unsigned) X(le_unsigned) X(ge_unsigned) X(gt_unsigned)

#define X(_n) int _n; bool _n ## _master;
	MONITOR_VARS
#undef X

	carry_master = ((uint64_t(a) - uint64_t(b)) >> 32) & 1;
	overflow_master = (int32_t(a) - int32_t(b)) != (int64_t(int32_t(a)) - int64_t(int32_t(b)));
	sign_master = ((a - b) >> 31) & 1;
	zero_master = a == b;

	sat.vec_cmp(va, vb, carry, overflow, sign, zero);

	lt_signed_master = int32_t(a) <  int32_t(b);
	le_signed_master = int32_t(a) <= int32_t(b);
	ge_signed_master = int32_t(a) >= int32_t(b);
	gt_signed_master = int32_t(a) >  int32_t(b);

	lt_unsigned_master = a <  b;
	le_unsigned_master = a <= b;
	ge_unsigned_master = a >= b;
	gt_unsigned_master = a >  b;

	lt_signed = sat.vec_lt_signed(va, vb);
	le_signed = sat.vec_le_signed(va, vb);
	ge_signed = sat.vec_ge_signed(va, vb);
	gt_signed = sat.vec_gt_signed(va, vb);

	lt_unsigned = sat.vec_lt_unsigned(va, vb);
	le_unsigned = sat.vec_le_unsigned(va, vb);
	ge_unsigned = sat.vec_ge_unsigned(va, vb);
	gt_unsigned = sat.vec_gt_unsigned(va, vb);

	std::vector<int> modelExpressions;
	std::vector<bool> modelValues, modelMaster;
	std::vector<std::string> modelNames;

#define X(_n) modelExpressions.push_back(_n); modelNames.push_back(#_n); modelMaster.push_back(_n ## _master);
	MONITOR_VARS
#undef X

	std::vector<int> add_ab = sat.vec_add(va, vb);
	std::vector<int> sub_ab = sat.vec_sub(va, vb);
	std::vector<int> sub_ba = sat.vec_sub(vb, va);

	sat.vec_append(modelExpressions, add_ab);
	sat.vec_append(modelExpressions, sub_ab);
	sat.vec_append(modelExpressions, sub_ba);

	if (!sat.solve(modelExpressions, modelValues)) {
		fprintf(stderr, "SAT solver failed to find a model!\n");
		abort();
	}

	bool found_error = false;

	for (size_t i = 0; i < modelMaster.size(); i++) {
		if (modelMaster.at(i) != int(modelValues.at(i)))
			found_error = true;
		printf("%-20s %d%s\n", modelNames.at(i).c_str(), int(modelValues.at(i)),
				modelMaster.at(i) != modelValues.at(i) ? "   !!!" : "");
	}
	printf("\n");

	uint32_t add_ab_value = sat.vec_model_get_unsigned(modelExpressions, modelValues, add_ab);
	uint32_t sub_ab_value = sat.vec_model_get_unsigned(modelExpressions, modelValues, sub_ab);
	uint32_t sub_ba_value = sat.vec_model_get_unsigned(modelExpressions, modelValues, sub_ba);

	printf("%-20s %10u %10u%s\n", "result(a+b)", add_ab_value, a+b, add_ab_value != a+b ? "   !!!" : "");
	printf("%-20s %10u %10u%s\n", "result(a-b)", sub_ab_value, a-b, sub_ab_value != a-b ? "   !!!" : "");
	printf("%-20s %10u %10u%s\n", "result(b-a)", sub_ba_value, b-a, sub_ba_value != b-a ? "   !!!" : "");
	printf("\n");

	if (found_error || add_ab_value != a+b || sub_ab_value != a-b || sub_ba_value != b-a)
		abort();
}

int main()
{
	printf("\n");
	for (int i = 0; i < 1024; i++) {
		printf("************** %d **************\n\n", i);
		uint32_t a = xorshift128();
		uint32_t b = xorshift128();
		if (xorshift128() % 16 == 0)
			a = b;
		test_cmp(a, b);
	}
	return 0;
}
Fixes and improvements in ezSAT library 2013-06-08 05:14:20 -05:00			`/*`
			`* ezSAT -- A simple and easy to use CNF generator for SAT solvers`
			`*`
			`* Copyright (C) 2013 Clifford Wolf <clifford@clifford.at>`
Fixed trailing whitespaces 2015-07-02 04:14:30 -05:00			`*`
Fixes and improvements in ezSAT library 2013-06-08 05:14:20 -05:00			`* Permission to use, copy, modify, and/or distribute this software for any`
			`* purpose with or without fee is hereby granted, provided that the above`
			`* copyright notice and this permission notice appear in all copies.`
Fixed trailing whitespaces 2015-07-02 04:14:30 -05:00			`*`
Fixes and improvements in ezSAT library 2013-06-08 05:14:20 -05:00			`* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES`
			`* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF`
			`* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR`
			`* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES`
			`* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN`
			`* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF`
			`* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.`
			`*`
			`*/`

			`#include "ezminisat.h"`
			`#include <assert.h>`

			`#define INIT_X 123456789`
			`#define INIT_Y 362436069`
			`#define INIT_Z 521288629`
			`#define INIT_W 88675123`

			`uint32_t xorshift128() {`
			`static uint32_t x = INIT_X;`
			`static uint32_t y = INIT_Y;`
			`static uint32_t z = INIT_Z;`
			`static uint32_t w = INIT_W;`
			`uint32_t t = x ^ (x << 11);`
			`x = y; y = z; z = w;`
			`w ^= (w >> 19) ^ t ^ (t >> 8);`
			`return w;`
			`}`

			`void test_cmp(uint32_t a, uint32_t b)`
			`{`
			`ezMiniSAT sat;`

			`printf("A = %10u (%10d)\n", a, int32_t(a));`
			`printf("B = %10u (%10d)\n", b, int32_t(b));`
			`printf("\n");`

			`std::vector<int> va = sat.vec_var("a", 32);`
			`std::vector<int> vb = sat.vec_var("b", 32);`

			`sat.vec_set_unsigned(va, a);`
			`sat.vec_set_unsigned(vb, b);`

			`#define MONITOR_VARS \`
			`X(carry) X(overflow) X(sign) X(zero) \`
			`X(lt_signed) X(le_signed) X(ge_signed) X(gt_signed) \`
			`X(lt_unsigned) X(le_unsigned) X(ge_unsigned) X(gt_unsigned)`

			`#define X(_n) int _n; bool _n ## _master;`
			`MONITOR_VARS`
			`#undef X`

			`carry_master = ((uint64_t(a) - uint64_t(b)) >> 32) & 1;`
			`overflow_master = (int32_t(a) - int32_t(b)) != (int64_t(int32_t(a)) - int64_t(int32_t(b)));`
			`sign_master = ((a - b) >> 31) & 1;`
			`zero_master = a == b;`

			`sat.vec_cmp(va, vb, carry, overflow, sign, zero);`

			`lt_signed_master = int32_t(a) < int32_t(b);`
			`le_signed_master = int32_t(a) <= int32_t(b);`
			`ge_signed_master = int32_t(a) >= int32_t(b);`
			`gt_signed_master = int32_t(a) > int32_t(b);`

			`lt_unsigned_master = a < b;`
			`le_unsigned_master = a <= b;`
			`ge_unsigned_master = a >= b;`
			`gt_unsigned_master = a > b;`

			`lt_signed = sat.vec_lt_signed(va, vb);`
			`le_signed = sat.vec_le_signed(va, vb);`
			`ge_signed = sat.vec_ge_signed(va, vb);`
			`gt_signed = sat.vec_gt_signed(va, vb);`

			`lt_unsigned = sat.vec_lt_unsigned(va, vb);`
			`le_unsigned = sat.vec_le_unsigned(va, vb);`
			`ge_unsigned = sat.vec_ge_unsigned(va, vb);`
			`gt_unsigned = sat.vec_gt_unsigned(va, vb);`

			`std::vector<int> modelExpressions;`
			`std::vector<bool> modelValues, modelMaster;`
			`std::vector<std::string> modelNames;`

			`#define X(_n) modelExpressions.push_back(_n); modelNames.push_back(#_n); modelMaster.push_back(_n ## _master);`
			`MONITOR_VARS`
			`#undef X`

			`std::vector<int> add_ab = sat.vec_add(va, vb);`
			`std::vector<int> sub_ab = sat.vec_sub(va, vb);`
			`std::vector<int> sub_ba = sat.vec_sub(vb, va);`

			`sat.vec_append(modelExpressions, add_ab);`
			`sat.vec_append(modelExpressions, sub_ab);`
			`sat.vec_append(modelExpressions, sub_ba);`

			`if (!sat.solve(modelExpressions, modelValues)) {`
			`fprintf(stderr, "SAT solver failed to find a model!\n");`
			`abort();`
			`}`

			`bool found_error = false;`

			`for (size_t i = 0; i < modelMaster.size(); i++) {`
			`if (modelMaster.at(i) != int(modelValues.at(i)))`
			`found_error = true;`
			`printf("%-20s %d%s\n", modelNames.at(i).c_str(), int(modelValues.at(i)),`
			`modelMaster.at(i) != modelValues.at(i) ? " !!!" : "");`
			`}`
			`printf("\n");`

			`uint32_t add_ab_value = sat.vec_model_get_unsigned(modelExpressions, modelValues, add_ab);`
			`uint32_t sub_ab_value = sat.vec_model_get_unsigned(modelExpressions, modelValues, sub_ab);`
			`uint32_t sub_ba_value = sat.vec_model_get_unsigned(modelExpressions, modelValues, sub_ba);`

			`printf("%-20s %10u %10u%s\n", "result(a+b)", add_ab_value, a+b, add_ab_value != a+b ? " !!!" : "");`
			`printf("%-20s %10u %10u%s\n", "result(a-b)", sub_ab_value, a-b, sub_ab_value != a-b ? " !!!" : "");`
			`printf("%-20s %10u %10u%s\n", "result(b-a)", sub_ba_value, b-a, sub_ba_value != b-a ? " !!!" : "");`
			`printf("\n");`

			`if (found_error \|\| add_ab_value != a+b \|\| sub_ab_value != a-b \|\| sub_ba_value != b-a)`
			`abort();`
			`}`

			`int main()`
			`{`
			`printf("\n");`
			`for (int i = 0; i < 1024; i++) {`
			`printf("************ %d ************\n\n", i);`
			`uint32_t a = xorshift128();`
			`uint32_t b = xorshift128();`
			`if (xorshift128() % 16 == 0)`
			`a = b;`
			`test_cmp(a, b);`
			`}`
			`return 0;`
			`}`