// -*- c -*- // // %CopyrightBegin% // // Copyright Ericsson AB 2017. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // // %CopyrightEnd% // OUTLINED_ARITH_2(Fail, Live, Name, BIF, Op1, Op2, Dst) { Eterm result; Uint live = $Live; HEAVY_SWAPOUT; reg[live] = $Op1; reg[live+1] = $Op2; result = erts_gc_$Name (c_p, reg, live); HEAVY_SWAPIN; ERTS_HOLE_CHECK(c_p); if (is_value(result)) { $REFRESH_GEN_DEST(); $Dst = result; $NEXT0(); } $BIF_ERROR_ARITY_2($Fail, $BIF, reg[live], reg[live+1]); } i_plus := plus.fetch.execute; plus.head() { Eterm PlusOp1, PlusOp2; } plus.fetch(Op1, Op2) { PlusOp1 = $Op1; PlusOp2 = $Op2; } plus.execute(Fail, Live, Dst) { if (is_both_small(PlusOp1, PlusOp2)) { Sint i = signed_val(PlusOp1) + signed_val(PlusOp2); ASSERT(MY_IS_SSMALL(i) == IS_SSMALL(i)); if (MY_IS_SSMALL(i)) { $Dst = make_small(i); $NEXT0(); } } $OUTLINED_ARITH_2($Fail, $Live, mixed_plus, BIF_splus_2, PlusOp1, PlusOp2, $Dst); } i_minus := minus.fetch.execute; minus.head() { Eterm MinusOp1, MinusOp2; } minus.fetch(Op1, Op2) { MinusOp1 = $Op1; MinusOp2 = $Op2; } minus.execute(Fail, Live, Dst) { if (is_both_small(MinusOp1, MinusOp2)) { Sint i = signed_val(MinusOp1) - signed_val(MinusOp2); ASSERT(MY_IS_SSMALL(i) == IS_SSMALL(i)); if (MY_IS_SSMALL(i)) { $Dst = make_small(i); $NEXT0(); } } $OUTLINED_ARITH_2($Fail, $Live, mixed_minus, BIF_sminus_2, MinusOp1, MinusOp2, $Dst); } i_increment := increment.fetch.execute; increment.head() { Eterm increment_reg_val; Eterm increment_val; Uint live; Eterm result; } increment.fetch(Src) { increment_reg_val = $Src; } increment.execute(IncrementVal, Live, Dst) { increment_val = $IncrementVal; if (is_small(increment_reg_val)) { Sint i = signed_val(increment_reg_val) + increment_val; ASSERT(MY_IS_SSMALL(i) == IS_SSMALL(i)); if (MY_IS_SSMALL(i)) { $Dst = make_small(i); $NEXT0(); } } live = $Live; HEAVY_SWAPOUT; reg[live] = increment_reg_val; reg[live+1] = make_small(increment_val); result = erts_gc_mixed_plus(c_p, reg, live); HEAVY_SWAPIN; ERTS_HOLE_CHECK(c_p); if (is_value(result)) { $REFRESH_GEN_DEST(); $Dst = result; $NEXT0(); } ASSERT(c_p->freason != BADMATCH || is_value(c_p->fvalue)); goto find_func_info; } i_times(Fail, Live, Op1, Op2, Dst) { Eterm op1 = $Op1; Eterm op2 = $Op2; $OUTLINED_ARITH_2($Fail, $Live, mixed_times, BIF_stimes_2, op1, op2, $Dst); } i_m_div(Fail, Live, Op1, Op2, Dst) { Eterm op1 = $Op1; Eterm op2 = $Op2; $OUTLINED_ARITH_2($Fail, $Live, mixed_div, BIF_div_2, op1, op2, $Dst); } i_int_div(Fail, Live, Op1, Op2, Dst) { Eterm op1 = $Op1; Eterm op2 = $Op2; if (op2 == SMALL_ZERO) { c_p->freason = BADARITH; $BIF_ERROR_ARITY_2($Fail, BIF_intdiv_2, op1, op2); } else if (is_both_small(op1, op2)) { Sint ires = signed_val(op1) / signed_val(op2); if (MY_IS_SSMALL(ires)) { $Dst = make_small(ires); $NEXT0(); } } $OUTLINED_ARITH_2($Fail, $Live, int_div, BIF_intdiv_2, op1, op2, $Dst); } i_rem := rem.fetch.execute; rem.head() { Eterm RemOp1, RemOp2; } rem.fetch(Src1, Src2) { RemOp1 = $Src1; RemOp2 = $Src2; } rem.execute(Fail, Live, Dst) { if (RemOp2 == SMALL_ZERO) { c_p->freason = BADARITH; $BIF_ERROR_ARITY_2($Fail, BIF_rem_2, RemOp1, RemOp2); } else if (is_both_small(RemOp1, RemOp2)) { $Dst = make_small(signed_val(RemOp1) % signed_val(RemOp2)); $NEXT0(); } else { $OUTLINED_ARITH_2($Fail, $Live, int_rem, BIF_rem_2, RemOp1, RemOp2, $Dst); } } i_band := band.fetch.execute; band.head() { Eterm BandOp1, BandOp2; } band.fetch(Src1, Src2) { BandOp1 = $Src1; BandOp2 = $Src2; } band.execute(Fail, Live, Dst) { if (is_both_small(BandOp1, BandOp2)) { /* * No need to untag -- TAG & TAG == TAG. */ $Dst = BandOp1 & BandOp2; $NEXT0(); } $OUTLINED_ARITH_2($Fail, $Live, band, BIF_band_2, BandOp1, BandOp2, $Dst); } i_bor(Fail, Live, Src1, Src2, Dst) { if (is_both_small($Src1, $Src2)) { /* * No need to untag -- TAG | TAG == TAG. */ $Dst = $Src1 | $Src2; $NEXT0(); } $OUTLINED_ARITH_2($Fail, $Live, bor, BIF_bor_2, $Src1, $Src2, $Dst); } i_bxor(Fail, Live, Src1, Src2, Dst) { if (is_both_small($Src1, $Src2)) { /* * TAG ^ TAG == 0. * * Therefore, we perform the XOR operation on the tagged values, * and OR in the tag bits. */ $Dst = ($Src1 ^ $Src2) | make_small(0); $NEXT0(); } $OUTLINED_ARITH_2($Fail, $Live, bxor, BIF_bxor_2, $Src1, $Src2, $Dst); } i_bsl := shift.setup_bsl.execute; i_bsr := shift.setup_bsr.execute; shift.head() { Eterm Op1, Op2; Sint shift_left_count; Sint ires; Eterm* bigp; Eterm tmp_big[2]; Uint BIF; } shift.setup_bsr(Src1, Src2) { Op1 = $Src1; Op2 = $Src2; BIF = BIF_bsr_2; if (is_small(Op2)) { shift_left_count = -signed_val(Op2); } else if (is_big(Op2)) { /* * N bsr NegativeBigNum == N bsl MAX_SMALL * N bsr PositiveBigNum == N bsl MIN_SMALL */ shift_left_count = make_small(bignum_header_is_neg(*big_val(Op2)) ? MAX_SMALL : MIN_SMALL); } else { shift_left_count = 0; } } shift.setup_bsl(Src1, Src2) { Op1 = $Src1; Op2 = $Src2; BIF = BIF_bsl_2; if (is_small(Op2)) { shift_left_count = signed_val(Op2); } else if (is_big(Op2)) { if (bignum_header_is_neg(*big_val(Op2))) { /* * N bsl NegativeBigNum is either 0 or -1, depending on * the sign of N. Since we don't believe this case * is common, do the calculation with the minimum * amount of code. */ shift_left_count = MIN_SMALL; } else if (is_integer(Op1)) { /* * N bsl PositiveBigNum is too large to represent. */ shift_left_count = MAX_SMALL; } } else { shift_left_count = 0; } } shift.execute(Fail, Live, Dst) { if (is_small(Op1)) { ires = signed_val(Op1); if (shift_left_count == 0 || ires == 0) { if (is_not_integer(Op2)) { c_p->freason = BADARITH; $BIF_ERROR_ARITY_2($Fail, BIF, Op1, Op2); } if (ires == 0) { $Dst = Op1; $NEXT0(); } } else if (shift_left_count < 0) { /* Right shift */ shift_left_count = -shift_left_count; if (shift_left_count >= SMALL_BITS-1) { $Dst = (ires < 0) ? SMALL_MINUS_ONE : SMALL_ZERO; } else { $Dst = make_small(ires >> shift_left_count); } $NEXT0(); } else if (shift_left_count < SMALL_BITS-1) { /* Left shift */ if ((ires > 0 && ((~(Uint)0 << ((SMALL_BITS-1)-shift_left_count)) & ires) == 0) || ((~(Uint)0 << ((SMALL_BITS-1)-shift_left_count)) & ~ires) == 0) { $Dst = make_small(ires << shift_left_count); $NEXT0(); } } ires = 1; /* big_size(small_to_big(Op1)) */ goto big_shift; } else if (is_big(Op1)) { if (shift_left_count == 0) { if (is_not_integer(Op2)) { c_p->freason = BADARITH; $BIF_ERROR_ARITY_2($Fail, BIF, Op1, Op2); } $Dst = Op1; $NEXT0(); } ires = big_size(Op1); big_shift: if (shift_left_count > 0) { /* Left shift. */ ires += (shift_left_count / D_EXP); } else { /* Right shift. */ if (ires <= (-shift_left_count / D_EXP)) { ires = 3; /* ??? */ } else { ires -= (-shift_left_count / D_EXP); } } { ires = BIG_NEED_SIZE(ires+1); /* * Slightly conservative check the size to avoid * allocating huge amounts of memory for bignums that * clearly would overflow the arity in the header * word. */ if (ires-8 > BIG_ARITY_MAX) { $SYSTEM_LIMIT($Fail); } $GC_TEST_PRESERVE(ires+1, $Live, Op1); if (is_small(Op1)) { Op1 = small_to_big(signed_val(Op1), tmp_big); } bigp = HTOP; Op1 = big_lshift(Op1, shift_left_count, bigp); if (is_big(Op1)) { HTOP += bignum_header_arity(*HTOP) + 1; } HEAP_SPACE_VERIFIED(0); if (is_nil(Op1)) { /* * This result must have been only slighty larger * than allowed since it wasn't caught by the * previous test. */ $SYSTEM_LIMIT($Fail); } ERTS_HOLE_CHECK(c_p); $REFRESH_GEN_DEST(); $Dst = Op1; $NEXT0(); } } /* * One or more non-integer arguments. */ c_p->freason = BADARITH; $BIF_ERROR_ARITY_2($Fail, BIF, Op1, Op2); } i_int_bnot(Fail, Src, Live, Dst) { Eterm bnot_val = $Src; if (is_small(bnot_val)) { bnot_val = make_small(~signed_val(bnot_val)); } else { Uint live = $Live; HEAVY_SWAPOUT; reg[live] = bnot_val; bnot_val = erts_gc_bnot(c_p, reg, live); HEAVY_SWAPIN; ERTS_HOLE_CHECK(c_p); if (is_nil(bnot_val)) { $BIF_ERROR_ARITY_1($Fail, BIF_bnot_1, reg[live]); } $REFRESH_GEN_DEST(); } $Dst = bnot_val; }