| Index: runtime/vm/intrinsifier_x64.cc
|
| ===================================================================
|
| --- runtime/vm/intrinsifier_x64.cc (revision 41048)
|
| +++ runtime/vm/intrinsifier_x64.cc (working copy)
|
| @@ -823,32 +823,411 @@
|
|
|
|
|
| void Intrinsifier::Bigint_absAdd(Assembler* assembler) {
|
| - // TODO(regis): Implement.
|
| + // static void _absAdd(Uint32List digits, int used,
|
| + // Uint32List a_digits, int a_used,
|
| + // Uint32List r_digits)
|
| +
|
| + __ movq(RDI, Address(RSP, 5 * kWordSize)); // digits
|
| + __ movq(R8, Address(RSP, 4 * kWordSize)); // used is Smi
|
| + __ SmiUntag(R8); // used > 0.
|
| + __ movq(RSI, Address(RSP, 3 * kWordSize)); // a_digits
|
| + __ movq(RCX, Address(RSP, 2 * kWordSize)); // a_used is Smi
|
| + __ SmiUntag(RCX); // a_used > 0.
|
| + __ movq(RBX, Address(RSP, 1 * kWordSize)); // r_digits
|
| +
|
| + // Precompute 'used - a_used' now so that carry flag is not lost later.
|
| + __ subq(R8, RCX);
|
| + __ incq(R8); // To account for the extra test between loops.
|
| +
|
| + __ xorq(RDX, RDX); // RDX = 0, carry flag = 0.
|
| + Label add_loop;
|
| + __ Bind(&add_loop);
|
| + // Loop a_used times, RCX = a_used, RCX > 0.
|
| + __ movl(RAX, FieldAddress(RDI, RDX, TIMES_4, TypedData::data_offset()));
|
| + __ adcl(RAX, FieldAddress(RSI, RDX, TIMES_4, TypedData::data_offset()));
|
| + __ movl(FieldAddress(RBX, RDX, TIMES_4, TypedData::data_offset()), RAX);
|
| + __ incq(RDX); // Does not affect carry flag.
|
| + __ decq(RCX); // Does not affect carry flag.
|
| + __ j(NOT_ZERO, &add_loop, Assembler::kNearJump);
|
| +
|
| + Label last_carry;
|
| + __ decq(R8); // Does not affect carry flag.
|
| + __ j(ZERO, &last_carry, Assembler::kNearJump); // If used - a_used == 0.
|
| +
|
| + Label carry_loop;
|
| + __ Bind(&carry_loop);
|
| + // Loop used - a_used times, R8 = used - a_used, R8 > 0.
|
| + __ movl(RAX, FieldAddress(RDI, RDX, TIMES_4, TypedData::data_offset()));
|
| + __ adcl(RAX, Immediate(0));
|
| + __ movl(FieldAddress(RBX, RDX, TIMES_4, TypedData::data_offset()), RAX);
|
| + __ incq(RDX); // Does not affect carry flag.
|
| + __ decq(R8); // Does not affect carry flag.
|
| + __ j(NOT_ZERO, &carry_loop, Assembler::kNearJump);
|
| +
|
| + __ Bind(&last_carry);
|
| + __ movl(RAX, Immediate(0));
|
| + __ adcl(RAX, Immediate(0));
|
| + __ movl(FieldAddress(RBX, RDX, TIMES_4, TypedData::data_offset()), RAX);
|
| +
|
| + // Returning Object::null() is not required, since this method is private.
|
| + __ ret();
|
| }
|
|
|
|
|
| void Intrinsifier::Bigint_absSub(Assembler* assembler) {
|
| - // TODO(regis): Implement.
|
| + // static void _absSub(Uint32List digits, int used,
|
| + // Uint32List a_digits, int a_used,
|
| + // Uint32List r_digits)
|
| +
|
| + __ movq(RDI, Address(RSP, 5 * kWordSize)); // digits
|
| + __ movq(R8, Address(RSP, 4 * kWordSize)); // used is Smi
|
| + __ SmiUntag(R8); // used > 0.
|
| + __ movq(RSI, Address(RSP, 3 * kWordSize)); // a_digits
|
| + __ movq(RCX, Address(RSP, 2 * kWordSize)); // a_used is Smi
|
| + __ SmiUntag(RCX); // a_used > 0.
|
| + __ movq(RBX, Address(RSP, 1 * kWordSize)); // r_digits
|
| +
|
| + // Precompute 'used - a_used' now so that carry flag is not lost later.
|
| + __ subq(R8, RCX);
|
| + __ incq(R8); // To account for the extra test between loops.
|
| +
|
| + __ xorq(RDX, RDX); // RDX = 0, carry flag = 0.
|
| + Label sub_loop;
|
| + __ Bind(&sub_loop);
|
| + // Loop a_used times, RCX = a_used, RCX > 0.
|
| + __ movl(RAX, FieldAddress(RDI, RDX, TIMES_4, TypedData::data_offset()));
|
| + __ sbbl(RAX, FieldAddress(RSI, RDX, TIMES_4, TypedData::data_offset()));
|
| + __ movl(FieldAddress(RBX, RDX, TIMES_4, TypedData::data_offset()), RAX);
|
| + __ incq(RDX); // Does not affect carry flag.
|
| + __ decq(RCX); // Does not affect carry flag.
|
| + __ j(NOT_ZERO, &sub_loop, Assembler::kNearJump);
|
| +
|
| + Label done;
|
| + __ decq(R8); // Does not affect carry flag.
|
| + __ j(ZERO, &done, Assembler::kNearJump); // If used - a_used == 0.
|
| +
|
| + Label carry_loop;
|
| + __ Bind(&carry_loop);
|
| + // Loop used - a_used times, R8 = used - a_used, R8 > 0.
|
| + __ movl(RAX, FieldAddress(RDI, RDX, TIMES_4, TypedData::data_offset()));
|
| + __ sbbl(RAX, Immediate(0));
|
| + __ movl(FieldAddress(RBX, RDX, TIMES_4, TypedData::data_offset()), RAX);
|
| + __ incq(RDX); // Does not affect carry flag.
|
| + __ decq(R8); // Does not affect carry flag.
|
| + __ j(NOT_ZERO, &carry_loop, Assembler::kNearJump);
|
| +
|
| + __ Bind(&done);
|
| + // Returning Object::null() is not required, since this method is private.
|
| + __ ret();
|
| }
|
|
|
|
|
| void Intrinsifier::Bigint_mulAdd(Assembler* assembler) {
|
| - // TODO(regis): Implement.
|
| + // Pseudo code:
|
| + // static void _mulAdd(Uint32List x_digits, int xi,
|
| + // Uint32List m_digits, int i,
|
| + // Uint32List a_digits, int j, int n) {
|
| + // uint32_t x = x_digits[xi >> 1]; // xi is Smi.
|
| + // if (x == 0 || n == 0) {
|
| + // return;
|
| + // }
|
| + // uint32_t* mip = &m_digits[i >> 1]; // i is Smi.
|
| + // uint32_t* ajp = &a_digits[j >> 1]; // j is Smi.
|
| + // uint32_t c = 0;
|
| + // SmiUntag(n);
|
| + // do {
|
| + // uint32_t mi = *mip++;
|
| + // uint32_t aj = *ajp;
|
| + // uint64_t t = x*mi + aj + c; // 32-bit * 32-bit -> 64-bit.
|
| + // *ajp++ = low32(t);
|
| + // c = high32(t);
|
| + // } while (--n > 0);
|
| + // while (c != 0) {
|
| + // uint64_t t = *ajp + c;
|
| + // *ajp++ = low32(t);
|
| + // c = high32(t); // c == 0 or 1.
|
| + // }
|
| + // }
|
| +
|
| + Label done;
|
| + // RBX = x, done if x == 0
|
| + __ movq(RCX, Address(RSP, 7 * kWordSize)); // x_digits
|
| + __ movq(RAX, Address(RSP, 6 * kWordSize)); // xi is Smi
|
| + __ movl(RBX, FieldAddress(RCX, RAX, TIMES_2, TypedData::data_offset()));
|
| + __ testl(RBX, RBX);
|
| + __ j(ZERO, &done, Assembler::kNearJump);
|
| +
|
| + // R8 = SmiUntag(n), no_op if n == 0
|
| + __ movq(R8, Address(RSP, 1 * kWordSize));
|
| + __ SmiUntag(R8);
|
| + __ j(ZERO, &done, Assembler::kNearJump);
|
| +
|
| + // RDI = mip = &m_digits[i >> 1]
|
| + __ movq(RDI, Address(RSP, 5 * kWordSize)); // m_digits
|
| + __ movq(RAX, Address(RSP, 4 * kWordSize)); // i is Smi
|
| + __ leaq(RDI, FieldAddress(RDI, RAX, TIMES_2, TypedData::data_offset()));
|
| +
|
| + // RSI = ajp = &a_digits[j >> 1]
|
| + __ movq(RSI, Address(RSP, 3 * kWordSize)); // a_digits
|
| + __ movq(RAX, Address(RSP, 2 * kWordSize)); // j is Smi
|
| + __ leaq(RSI, FieldAddress(RSI, RAX, TIMES_2, TypedData::data_offset()));
|
| +
|
| + // RCX = c = 0
|
| + __ xorq(RCX, RCX);
|
| +
|
| + Label muladd_loop;
|
| + __ Bind(&muladd_loop);
|
| + // x: RBX
|
| + // mip: RDI
|
| + // ajp: RSI
|
| + // c: RCX
|
| + // t: RDX:RAX (not live at loop entry)
|
| + // n: R8
|
| +
|
| + // uint32_t mi = *mip++
|
| + __ movl(RAX, Address(RDI, 0));
|
| + __ addq(RDI, Immediate(Bigint::kBytesPerDigit));
|
| +
|
| + // uint64_t t = x*mi
|
| + __ mull(RBX); // t = RDX:RAX = RAX * RBX, 32-bit * 32-bit -> 64-bit
|
| + __ addl(RAX, RCX); // t += c
|
| + __ adcl(RDX, Immediate(0));
|
| +
|
| + // uint32_t aj = *ajp; t += aj
|
| + __ addl(RAX, Address(RSI, 0));
|
| + __ adcl(RDX, Immediate(0));
|
| +
|
| + // *ajp++ = low32(t)
|
| + __ movl(Address(RSI, 0), RAX);
|
| + __ addq(RSI, Immediate(Bigint::kBytesPerDigit));
|
| +
|
| + // c = high32(t)
|
| + __ movl(RCX, RDX);
|
| +
|
| + // while (--n > 0)
|
| + __ decq(R8); // --n
|
| + __ j(NOT_ZERO, &muladd_loop, Assembler::kNearJump);
|
| +
|
| + __ testl(RCX, RCX);
|
| + __ j(ZERO, &done, Assembler::kNearJump);
|
| +
|
| + // *ajp += c
|
| + __ addl(Address(RSI, 0), RCX);
|
| + __ j(NOT_CARRY, &done, Assembler::kNearJump);
|
| +
|
| + Label propagate_carry_loop;
|
| + __ Bind(&propagate_carry_loop);
|
| + __ addq(RSI, Immediate(Bigint::kBytesPerDigit));
|
| + __ incl(Address(RSI, 0)); // c == 0 or 1
|
| + __ j(CARRY, &propagate_carry_loop, Assembler::kNearJump);
|
| +
|
| + __ Bind(&done);
|
| + // Returning Object::null() is not required, since this method is private.
|
| + __ ret();
|
| }
|
|
|
|
|
| void Intrinsifier::Bigint_sqrAdd(Assembler* assembler) {
|
| - // TODO(regis): Implement.
|
| + // Pseudo code:
|
| + // static void _sqrAdd(Uint32List x_digits, int i,
|
| + // Uint32List a_digits, int used) {
|
| + // uint32_t* xip = &x_digits[i >> 1]; // i is Smi.
|
| + // uint32_t x = *xip++;
|
| + // if (x == 0) return;
|
| + // uint32_t* ajp = &a_digits[i]; // j == 2*i, i is Smi.
|
| + // uint32_t aj = *ajp;
|
| + // uint64_t t = x*x + aj;
|
| + // *ajp++ = low32(t);
|
| + // uint64_t c = high32(t);
|
| + // int n = ((used - i) >> 1) - 1; // used and i are Smi.
|
| + // while (--n >= 0) {
|
| + // uint32_t xi = *xip++;
|
| + // uint32_t aj = *ajp;
|
| + // uint96_t t = 2*x*xi + aj + c; // 2-bit * 32-bit * 32-bit -> 65-bit.
|
| + // *ajp++ = low32(t);
|
| + // c = high64(t); // 33-bit.
|
| + // }
|
| + // uint32_t aj = *ajp;
|
| + // uint64_t t = aj + c; // 32-bit + 33-bit -> 34-bit.
|
| + // *ajp++ = low32(t);
|
| + // *ajp = high32(t);
|
| + // }
|
| +
|
| + // RDI = xip = &x_digits[i >> 1]
|
| + __ movq(RDI, Address(RSP, 4 * kWordSize)); // x_digits
|
| + __ movq(RAX, Address(RSP, 3 * kWordSize)); // i is Smi
|
| + __ leaq(RDI, FieldAddress(RDI, RAX, TIMES_2, TypedData::data_offset()));
|
| +
|
| + // RBX = x = *xip++, return if x == 0
|
| + Label x_zero;
|
| + __ movl(RBX, Address(RDI, 0));
|
| + __ cmpl(RBX, Immediate(0));
|
| + __ j(EQUAL, &x_zero, Assembler::kNearJump);
|
| + __ addq(RDI, Immediate(Bigint::kBytesPerDigit));
|
| +
|
| + // RSI = ajp = &a_digits[i]
|
| + __ movq(RSI, Address(RSP, 2 * kWordSize)); // a_digits
|
| + __ leaq(RSI, FieldAddress(RSI, RAX, TIMES_4, TypedData::data_offset()));
|
| +
|
| + // RDX:RAX = t = x*x + *ajp
|
| + __ movl(RAX, RBX);
|
| + __ mull(RBX);
|
| + __ addl(RAX, Address(RSI, 0));
|
| + __ adcl(RDX, Immediate(0));
|
| +
|
| + // *ajp++ = low32(t)
|
| + __ movl(Address(RSI, 0), RAX);
|
| + __ addq(RSI, Immediate(Bigint::kBytesPerDigit));
|
| +
|
| + // int n = used - i - 1
|
| + __ movq(R8, Address(RSP, 1 * kWordSize)); // used is Smi
|
| + __ subq(R8, Address(RSP, 3 * kWordSize)); // i is Smi
|
| + __ SmiUntag(R8);
|
| + __ decq(R8);
|
| +
|
| + // uint64_t c = high32(t)
|
| + __ xorl(R13, R13); // R13 = high32(c) == 0
|
| + __ movl(R12, RDX); // R12 = low32(c) == high32(t)
|
| +
|
| + Label loop, done;
|
| + __ Bind(&loop);
|
| + // x: RBX
|
| + // xip: RDI
|
| + // ajp: RSI
|
| + // c: R13:R12
|
| + // t: RCX:RDX:RAX (not live at loop entry)
|
| + // n: R8
|
| +
|
| + // while (--n >= 0)
|
| + __ decq(R8); // --n
|
| + __ j(NEGATIVE, &done, Assembler::kNearJump);
|
| +
|
| + // uint32_t xi = *xip++
|
| + __ movl(RAX, Address(RDI, 0));
|
| + __ addq(RDI, Immediate(Bigint::kBytesPerDigit));
|
| +
|
| + // uint96_t t = RCX:RDX:RAX = 2*x*xi + aj + c
|
| + __ mull(RBX); // RDX:RAX = RAX * RBX
|
| + __ xorl(RCX, RCX); // RCX = 0
|
| + __ shldl(RCX, RDX, Immediate(1));
|
| + __ shldl(RDX, RAX, Immediate(1));
|
| + __ shll(RAX, Immediate(1)); // RCX:RDX:RAX <<= 1
|
| + __ addl(RAX, Address(RSI, 0)); // t += aj
|
| + __ adcl(RDX, Immediate(0));
|
| + __ adcl(RCX, Immediate(0));
|
| + __ addl(RAX, R12); // t += low32(c)
|
| + __ adcl(RDX, R13); // t += high32(c) << 32
|
| + __ adcl(RCX, Immediate(0));
|
| +
|
| + // *ajp++ = low32(t)
|
| + __ movl(Address(RSI, 0), RAX);
|
| + __ addq(RSI, Immediate(Bigint::kBytesPerDigit));
|
| +
|
| + // c = high64(t)
|
| + __ movl(R12, RDX);
|
| + __ movl(R13, RCX);
|
| +
|
| + __ jmp(&loop, Assembler::kNearJump);
|
| +
|
| + __ Bind(&done);
|
| + // uint64_t t = aj + c
|
| + __ addl(R12, Address(RSI, 0)); // t = c, t += *ajp
|
| + __ adcl(R13, Immediate(0));
|
| +
|
| + // *ajp++ = low32(t)
|
| + // *ajp = high32(t)
|
| + __ movl(Address(RSI, 0), R12);
|
| + __ movl(Address(RSI, Bigint::kBytesPerDigit), R13);
|
| +
|
| + __ Bind(&x_zero);
|
| + // Returning Object::null() is not required, since this method is private.
|
| + __ ret();
|
| }
|
|
|
|
|
| void Intrinsifier::Bigint_estQuotientDigit(Assembler* assembler) {
|
| - // TODO(regis): Implement.
|
| + // Pseudo code:
|
| + // static void _estQuotientDigit(Uint32List args, Uint32List digits, int i) {
|
| + // uint32_t yt = args[_YT]; // _YT == 0.
|
| + // uint32_t* dp = &digits[i >> 1]; // i is Smi.
|
| + // uint32_t dh = dp[0]; // dh == digits[i >> 1].
|
| + // uint32_t qd;
|
| + // if (dh == yt) {
|
| + // qd = DIGIT_MASK;
|
| + // } else {
|
| + // dl = dp[-1]; // dl == digits[(i - 1) >> 1].
|
| + // qd = dh:dl / yt; // No overflow possible, because dh < yt.
|
| + // }
|
| + // args[_QD] = qd; // _QD == 1;
|
| + // }
|
| +
|
| + // RDI = args
|
| + __ movq(RDI, Address(RSP, 3 * kWordSize)); // args
|
| +
|
| + // RCX = yt = args[0]
|
| + __ movl(RCX, FieldAddress(RDI, TypedData::data_offset()));
|
| +
|
| + // RBX = dp = &digits[i >> 1]
|
| + __ movq(RBX, Address(RSP, 2 * kWordSize)); // digits
|
| + __ movq(RAX, Address(RSP, 1 * kWordSize)); // i is Smi
|
| + __ leaq(RBX, FieldAddress(RBX, RAX, TIMES_2, TypedData::data_offset()));
|
| +
|
| + // RDX = dh = dp[0]
|
| + __ movl(RDX, Address(RBX, 0));
|
| +
|
| + // RAX = qd = DIGIT_MASK = -1
|
| + __ movl(RAX, Immediate(-1));
|
| +
|
| + // Return qd if dh == yt
|
| + Label return_qd;
|
| + __ cmpl(RDX, RCX);
|
| + __ j(EQUAL, &return_qd, Assembler::kNearJump);
|
| +
|
| + // RAX = dl = dp[-1]
|
| + __ movl(RAX, Address(RBX, -Bigint::kBytesPerDigit));
|
| +
|
| + // RAX = qd = dh:dl / yt = RDX:RAX / RCX
|
| + __ divl(RCX);
|
| +
|
| + __ Bind(&return_qd);
|
| + // args[1] = qd
|
| + __ movl(FieldAddress(RDI, TypedData::data_offset() + Bigint::kBytesPerDigit),
|
| + RAX);
|
| +
|
| + // Returning Object::null() is not required, since this method is private.
|
| + __ ret();
|
| }
|
|
|
|
|
| void Intrinsifier::Montgomery_mulMod(Assembler* assembler) {
|
| - // TODO(regis): Implement.
|
| + // Pseudo code:
|
| + // static void _mulMod(Uint32List args, Uint32List digits, int i) {
|
| + // uint32_t rho = args[_RHO]; // _RHO == 0.
|
| + // uint32_t d = digits[i >> 1]; // i is Smi.
|
| + // uint64_t t = rho*d;
|
| + // args[_MU] = t mod DIGIT_BASE; // _MU == 1.
|
| + // }
|
| +
|
| + // RDI = args
|
| + __ movq(RDI, Address(RSP, 3 * kWordSize)); // args
|
| +
|
| + // RCX = rho = args[0]
|
| + __ movl(RCX, FieldAddress(RDI, TypedData::data_offset()));
|
| +
|
| + // RAX = digits[i >> 1]
|
| + __ movq(RBX, Address(RSP, 2 * kWordSize)); // digits
|
| + __ movq(RAX, Address(RSP, 1 * kWordSize)); // i is Smi
|
| + __ movl(RAX, FieldAddress(RBX, RAX, TIMES_2, TypedData::data_offset()));
|
| +
|
| + // RDX:RAX = t = rho*d
|
| + __ mull(RCX);
|
| +
|
| + // args[1] = t mod DIGIT_BASE = low32(t)
|
| + __ movl(FieldAddress(RDI, TypedData::data_offset() + Bigint::kBytesPerDigit),
|
| + RAX);
|
| +
|
| + // Returning Object::null() is not required, since this method is private.
|
| + __ ret();
|
| }
|
|
|
|
|
| @@ -1319,7 +1698,7 @@
|
|
|
| // Allocates one-byte string of length 'end - start'. The content is not
|
| // initialized. 'length-reg' contains tagged length.
|
| -// Returns new string as tagged pointer in EAX.
|
| +// Returns new string as tagged pointer in RAX.
|
| static void TryAllocateOnebyteString(Assembler* assembler,
|
| Label* ok,
|
| Label* failure,
|
| @@ -1459,7 +1838,7 @@
|
| __ movq(RDI, Address(RSP, + 1 * kWordSize)); // Length.v=
|
| Label fall_through, ok;
|
| TryAllocateOnebyteString(assembler, &ok, &fall_through, RDI);
|
| - // EDI: Start address to copy from (untagged).
|
| + // RDI: Start address to copy from (untagged).
|
|
|
| __ Bind(&ok);
|
| __ ret();
|
|
|
Chromium Code Reviews
Issue 648613006:
Implement bigint absAdd, absSub, mulAdd, sqrAdd, estQuotientDigit intrinsics, (Closed)
Base URL: http://dart.googlecode.com/svn/branches/bleeding_edge/dart/