#define PUT(x) std::cout << #x "=" << x << std::endl;
#define CYBOZU_TEST_DISABLE_AUTO_RUN
#include <cybozu/benchmark.hpp>
cybozu::CpuClock clk;
#include <cybozu/test.hpp>
#include <mcl/bn256.hpp>
#include <cybozu/option.hpp>
#include <cybozu/xorshift.hpp>

#if defined(__EMSCRIPTEN__) && !defined(MCL_AVOID_EXCEPTION_TEST)
	#define MCL_AVOID_EXCEPTION_TEST
#endif

typedef mcl::bn::local::Compress Compress;
using namespace mcl::bn;

mcl::fp::Mode g_mode;

const struct TestSet {
	mcl::CurveParam cp;
	const char *name;
	struct G2 {
		const char *aa;
		const char *ab;
		const char *ba;
		const char *bb;
	} g2;
	struct G1 {
		int a;
		int b;
	} g1;
	const char *e;
} g_testSetTbl[] = {
	{
		mcl::BN254,
		"BN254",
		{
			"12723517038133731887338407189719511622662176727675373276651903807414909099441",
			"4168783608814932154536427934509895782246573715297911553964171371032945126671",
			"13891744915211034074451795021214165905772212241412891944830863846330766296736",
			"7937318970632701341203597196594272556916396164729705624521405069090520231616",
		},
		{
			-1, 1
		},
		"8118772341496577043438385328606447626730215814727396173233264007541007797690 "
		"6742571767760762192519140673058087976840103832045324348366170860928670686713 "
		"9727912590495366720378364920530546614235713408261568635512172059018197267630 "
		"10180700148605185348549931182990442059136187839792856455707820203302941578832 "
		"5054507763444412917986776641611331046146804026682679569910978464879371792565 "
		"6917005519826733659554708445125877487590687705432214234949972860245110398023 "
		"10448556317747236258066222816126375978842661908560317699736569642190930635294 "
		"1516980358051268127904344653343215863076753141133525905743113718749531324025 "
		"9794836735385959178744195210089532061310424844916928682580569566332541022353 "
		"9375574834170998962484906689780052970915033987453510324648351251071086068423 "
		"710778048594563655498360873129325895716179849942646859397874562033386335205 "
		"10688745994254573144943003027511098295097561129365638275727908595677791826005"
	},
	{
		mcl::BN_SNARK1,
		"BN_SNARK1",
		{
			"15267802884793550383558706039165621050290089775961208824303765753922461897946",
			"9034493566019742339402378670461897774509967669562610788113215988055021632533",
			"644888581738283025171396578091639672120333224302184904896215738366765861164",
			"20532875081203448695448744255224543661959516361327385779878476709582931298750",
		},
		{
			1, 2
		},
		"15163392945550945552839911839294582974434771053565812675833291179413834896953 "
		"20389211011850518572149982239826345669421868561029856883955740401696801984953 "
		"17766795911013516700216709333389761327222334145011922123798810516425387779347 "
		"6064163297423711021549973931984064750876944939004405231004441199168710504090 "
		"296093106139306574860102680862436174771023602986903675151017278048818344347 "
		"1573596951222456889652521728261836933382094474023551133585236991207205981715 "
		"3511871642997169996730611220058787939468653751355351269812083879279936651479 "
		"17848534184080172844395614793152774197360421729995967636680357250333093768504 "
		"3273860031361637906105800996652640969711942192883181518057117446820546419132 "
		"7212721189663231589365009629980400132745687533815732336503876102977912682966 "
		"18569236611881855981733896549089319395087993987737891870319625215675547032585 "
		"10088832670068482545658647976676953228519838542958787800193793260459700064172 "
	},
};

CYBOZU_TEST_AUTO(size)
{
	CYBOZU_TEST_EQUAL(sizeof(Fp), 32u);
	CYBOZU_TEST_EQUAL(sizeof(Fp2), sizeof(Fp) * 2);
	CYBOZU_TEST_EQUAL(sizeof(Fp6), sizeof(Fp) * 6);
	CYBOZU_TEST_EQUAL(sizeof(Fp12), sizeof(Fp) * 12);
	CYBOZU_TEST_EQUAL(sizeof(G1), sizeof(Fp) * 3);
	CYBOZU_TEST_EQUAL(sizeof(G2), sizeof(Fp2) * 3);
}

void testSetStr(const G2& Q0)
{
	G2::setCompressedExpression();
	G2 Q;
	Q.clear();
	for (int i = 0; i < 10; i++) {
		G2 R;
		R.setStr(Q.getStr());
		CYBOZU_TEST_EQUAL(Q, R);
		G2::add(Q, Q, Q0);
	}
}

void testMapToG1()
{
	G1 g;
	for (int i = 1; i < 10; i++) {
		mapToG1(g, i);
		CYBOZU_TEST_ASSERT(!g.isZero());
		G1 gr;
		G1::mulGeneric(gr, g, BN::param.r);
		CYBOZU_TEST_ASSERT(gr.isZero());
	}
#ifndef MCL_AVOID_EXCEPTION_TEST
	if (BN::param.cp.b == 2) {
		Fp c1;
		bool b = Fp::squareRoot(c1, -3);
		CYBOZU_TEST_ASSERT(b);
		CYBOZU_TEST_EXCEPTION(mapToG1(g, 0), cybozu::Exception);
		CYBOZU_TEST_EXCEPTION(mapToG1(g, c1), cybozu::Exception);
		CYBOZU_TEST_EXCEPTION(mapToG1(g, -c1), cybozu::Exception);
	}
#endif
}

void testMapToG2()
{
	G2 g;
	for (int i = 1; i < 10; i++) {
		mapToG2(g, i);
		CYBOZU_TEST_ASSERT(!g.isZero());
		G2 gr;
		G2::mulGeneric(gr, g, BN::param.r);
		CYBOZU_TEST_ASSERT(gr.isZero());
	}
#ifndef MCL_AVOID_EXCEPTION_TEST
	if (BN::param.cp.b == 2) {
		CYBOZU_TEST_EXCEPTION(mapToG2(g, 0), cybozu::Exception);
	}
#endif
	Fp x;
	x.setHashOf("abc");
	mapToG2(g, Fp2(x, 0));
	CYBOZU_TEST_ASSERT(g.isValid());
}

void testCyclotomic()
{
	Fp12 a;
	for (int i = 0; i < 12; ++i) {
		a.getFp0()[i] = i * i;
	}
	local::mapToCyclotomic(a, a);
	Fp12 d;
	Compress b(d, a);
	a *= a;
	Fp12 d2;
	Compress c(d2, b);
	Compress::square_n(c, 1);
	c.decompress();
	CYBOZU_TEST_EQUAL(a, d2);
	Compress::square_n(b, 1);
	b.decompress();
	CYBOZU_TEST_EQUAL(a, d);
}

void testCompress(const G1& P, const G2& Q)
{
	if (BN::param.cp.curveType != MCL_BN254) return;
	Fp12 a;
	pairing(a, P, Q);
	local::mapToCyclotomic(a, a);
	Fp12 b;
	Compress::fixed_power(b, a);
	Fp12 c;
	Fp12::pow(c, a, BN::param.abs_z);
	CYBOZU_TEST_EQUAL(b, c);
}

void testPrecomputed(const G1& P, const G2& Q)
{
	Fp12 e1, e2;
	pairing(e1, P, Q);
	std::vector<Fp6> Qcoeff;
	precomputeG2(Qcoeff, Q);
	precomputedMillerLoop(e2, P, Qcoeff);
	finalExp(e2, e2);
	CYBOZU_TEST_EQUAL(e1, e2);
}

void testFp12pow(const G1& P, const G2& Q)
{
	Fp12 e, e1, e2;
	pairing(e, P, Q);
	cybozu::XorShift rg;
	for (int i = -10; i < 10; i++) {
		mpz_class xm = i;
		Fp12::pow(e1, e, xm);
		Fp12::powGeneric(e2, e, xm);
		CYBOZU_TEST_EQUAL(e1, e2);
	}
	for (int i = 0; i < 10; i++) {
		Fr x;
		x.setRand(rg);
		mpz_class xm = x.getMpz();
		Fp12::pow(e1, e, xm);
		BN::param.glv2.pow(e2, e, xm);
		CYBOZU_TEST_EQUAL(e1, e2);
	}
}

void testMillerLoop2(const G1& P1, const G2& Q1)
{
	Fp12 e1, e2, e3;
	mpz_class c1("12342342423442");
	mpz_class c2("329428049820348209482");
	G2 Q2;
	G1 P2;
	G2::mul(Q2, Q1, c1);
	G1::mul(P2, P1, c2);
	pairing(e1, P1, Q1);
	pairing(e2, P2, Q2);
	e1 *= e2;

	std::vector<Fp6> Q1coeff, Q2coeff;
	precomputeG2(Q1coeff, Q1);
	precomputeG2(Q2coeff, Q2);
	precomputedMillerLoop2(e2, P1, Q1coeff, P2, Q2coeff);
	precomputedMillerLoop2mixed(e3, P1, Q1, P2, Q2coeff);
	CYBOZU_TEST_EQUAL(e2, e3);
	finalExp(e2, e2);
	CYBOZU_TEST_EQUAL(e1, e2);

	// special value
	G2 Z;
	Z.clear();
	Q2 += Q2;
	precomputeG2(Q1coeff, Z);
	precomputeG2(Q2coeff, Q2);
	precomputedMillerLoop2(e2, P1, Q1coeff, P2, Q2coeff);
	precomputedMillerLoop2mixed(e3, P1, Z, P2, Q2coeff);
	finalExp(e2, e2);
	finalExp(e3, e3);
	CYBOZU_TEST_EQUAL(e2, e3);
}

void testPairing(const G1& P, const G2& Q, const char *eStr)
{
	Fp12 e1;
	pairing(e1, P, Q);
	Fp12 e2;
	{
		std::stringstream ss(eStr);
		ss >> e2;
	}
	CYBOZU_TEST_EQUAL(e1, e2);

	Fp12 e = e1, ea;
	G1 Pa;
	G2 Qa;
#if defined(__EMSCRIPTEN__) || MCL_SIZEOF_UNIT == 4
	const int count = 100;
#else
	const int count = 1000;
#endif
	mpz_class a;
	cybozu::XorShift rg;
	for (int i = 0; i < count; i++) {
		Fr r;
		r.setRand(rg);
		a = r.getMpz();
		Fp12::pow(ea, e, a);
		G1::mul(Pa, P, a);
		G2::mul(Qa, Q, a);
		G1 T;
		G1::mulCT(T, P, a);
		CYBOZU_TEST_EQUAL(Pa, T);
		pairing(e1, Pa, Q);
		pairing(e2, P, Qa);
		CYBOZU_TEST_EQUAL(ea, e1);
		CYBOZU_TEST_EQUAL(ea, e2);
	}
}

void testTrivial(const G1& P, const G2& Q)
{
	G1 Z1; Z1.clear();
	G2 Z2; Z2.clear();
	Fp12 e;
	pairing(e, Z1, Q);
	CYBOZU_TEST_EQUAL(e, 1);
	pairing(e, P, Z2);
	CYBOZU_TEST_EQUAL(e, 1);
	pairing(e, Z1, Z2);
	CYBOZU_TEST_EQUAL(e, 1);

	std::vector<Fp6> Qcoeff;
	precomputeG2(Qcoeff, Z2);
	precomputedMillerLoop(e, P, Qcoeff);
	finalExp(e, e);
	CYBOZU_TEST_EQUAL(e, 1);

	precomputeG2(Qcoeff, Q);
	precomputedMillerLoop(e, Z1, Qcoeff);
	finalExp(e, e);
	CYBOZU_TEST_EQUAL(e, 1);
}

void testIoAll(const G1& P, const G2& Q)
{
	const int FpTbl[] = { 0, 2, 2|mcl::IoPrefix, 10, 16, 16|mcl::IoPrefix, mcl::IoArray, mcl::IoArrayRaw };
	const int EcTbl[] = { mcl::IoEcAffine, mcl::IoEcProj, mcl::IoEcCompY, mcl::IoSerialize };
	for (size_t i = 0; i < CYBOZU_NUM_OF_ARRAY(FpTbl); i++) {
		for (size_t j = 0; j < CYBOZU_NUM_OF_ARRAY(EcTbl); j++) {
			G1 P2 = P, P3;
			G2 Q2 = Q, Q3;
			int ioMode = FpTbl[i] | EcTbl[j];
			std::string s = P2.getStr(ioMode);
			P3.setStr(s, ioMode);
			CYBOZU_TEST_EQUAL(P2, P3);
			s = Q2.getStr(ioMode);
			Q3.setStr(s, ioMode);
			CYBOZU_TEST_EQUAL(Q2, Q3);
			s = P.x.getStr(ioMode);
			Fp Px;
			Px.setStr(s, ioMode);
			CYBOZU_TEST_EQUAL(P.x, Px);
			s = Q.x.getStr(ioMode);
			Fp2 Qx;
			Qx.setStr(s, ioMode);
			CYBOZU_TEST_EQUAL(Q.x, Qx);
		}
	}
}

void testIo(const G1& P, const G2& Q)
{
	testIoAll(P, Q);
	G1 Z1;
	G2 Z2;
	Z1.clear();
	Z2.clear();
	testIoAll(Z1, Z2);
}

#include "bench.hpp"

CYBOZU_TEST_AUTO(naive)
{
	printf("mcl version=%03x\n", mcl::version);
	for (size_t i = 0; i < CYBOZU_NUM_OF_ARRAY(g_testSetTbl); i++) {
		const TestSet& ts = g_testSetTbl[i];
		printf("i=%d curve=%s\n", int(i), ts.name);
		initPairing(ts.cp, g_mode);
		const G1 P(ts.g1.a, ts.g1.b);
		const G2 Q(Fp2(ts.g2.aa, ts.g2.ab), Fp2(ts.g2.ba, ts.g2.bb));
#ifdef ONLY_BENCH
		{
			Fp12 e;
			for (int i = 0; i < 10000; i++) { clk.begin(); pairing(e, P, Q); clk.end(); }
		}
		clk.put();
		return;
#endif
		testFp12pow(P, Q);
		testIo(P, Q);
		testTrivial(P, Q);
		testSetStr(Q);
		testMapToG1();
		testMapToG2();
		testCyclotomic();
		testCompress(P, Q);
		testPairing(P, Q, ts.e);
		testPrecomputed(P, Q);
		testMillerLoop2(P, Q);
		testBench(P, Q);
		benchAddDblG1();
		benchAddDblG2();
	}
	int count = (int)clk.getCount();
	if (count) {
		printf("count=%d ", count);
		clk.put();
	}
}

int main(int argc, char *argv[])
	try
{
	cybozu::Option opt;
	std::string mode;
	opt.appendOpt(&mode, "auto", "m", ": mode(gmp/gmp_mont/llvm/llvm_mont/xbyak)");
	if (!opt.parse(argc, argv)) {
		opt.usage();
		return 1;
	}
	g_mode = mcl::fp::StrToMode(mode);
	printf("JIT %d\n", mcl::fp::isEnableJIT());
	return cybozu::test::autoRun.run(argc, argv);
} catch (std::exception& e) {
	printf("ERR %s\n", e.what());
	return 1;
}