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90aa9647e0
Implement the fp16 version of the VFP VRINT* insns. Backports 0a6f4b4cb338665b81ad824d9a6868932461b7f7
77 lines
3.1 KiB
Plaintext
77 lines
3.1 KiB
Plaintext
# AArch32 VFP instruction descriptions (unconditional insns)
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#
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# Copyright (c) 2019 Linaro, Ltd
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#
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# This library is free software; you can redistribute it and/or
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# modify it under the terms of the GNU Lesser General Public
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# License as published by the Free Software Foundation; either
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# version 2 of the License, or (at your option) any later version.
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#
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# This library is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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# Lesser General Public License for more details.
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#
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# You should have received a copy of the GNU Lesser General Public
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# License along with this library; if not, see <http://www.gnu.org/licenses/>.
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#
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# This file is processed by scripts/decodetree.py
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#
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# Encodings for the unconditional VFP instructions are here:
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# generally anything matching A32
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# 1111 1110 .... .... .... 101. ...0 ....
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# and T32
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# 1111 110. .... .... .... 101. .... ....
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# 1111 1110 .... .... .... 101. .... ....
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# (but those patterns might also cover some Neon instructions,
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# which do not live in this file.)
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# VFP registers have an odd encoding with a four-bit field
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# and a one-bit field which are assembled in different orders
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# depending on whether the register is double or single precision.
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# Each individual instruction function must do the checks for
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# "double register selected but CPU does not have double support"
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# and "double register number has bit 4 set but CPU does not
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# support D16-D31" (which should UNDEF).
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%vm_dp 5:1 0:4
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%vm_sp 0:4 5:1
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%vn_dp 7:1 16:4
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%vn_sp 16:4 7:1
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%vd_dp 22:1 12:4
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%vd_sp 12:4 22:1
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@vfp_dnm_s ................................ vm=%vm_sp vn=%vn_sp vd=%vd_sp
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@vfp_dnm_d ................................ vm=%vm_dp vn=%vn_dp vd=%vd_dp
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VSEL 1111 1110 0. cc:2 .... .... 1001 .0.0 .... \
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vm=%vm_sp vn=%vn_sp vd=%vd_sp sz=1
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VSEL 1111 1110 0. cc:2 .... .... 1010 .0.0 .... \
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vm=%vm_sp vn=%vn_sp vd=%vd_sp sz=2
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VSEL 1111 1110 0. cc:2 .... .... 1011 .0.0 .... \
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vm=%vm_dp vn=%vn_dp vd=%vd_dp sz=3
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VMAXNM_hp 1111 1110 1.00 .... .... 1001 .0.0 .... @vfp_dnm_s
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VMINNM_hp 1111 1110 1.00 .... .... 1001 .1.0 .... @vfp_dnm_s
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VMAXNM_sp 1111 1110 1.00 .... .... 1010 .0.0 .... @vfp_dnm_s
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VMINNM_sp 1111 1110 1.00 .... .... 1010 .1.0 .... @vfp_dnm_s
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VMAXNM_dp 1111 1110 1.00 .... .... 1011 .0.0 .... @vfp_dnm_d
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VMINNM_dp 1111 1110 1.00 .... .... 1011 .1.0 .... @vfp_dnm_d
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VRINT 1111 1110 1.11 10 rm:2 .... 1001 01.0 .... \
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vm=%vm_sp vd=%vd_sp sz=1
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VRINT 1111 1110 1.11 10 rm:2 .... 1010 01.0 .... \
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vm=%vm_sp vd=%vd_sp sz=2
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VRINT 1111 1110 1.11 10 rm:2 .... 1011 01.0 .... \
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vm=%vm_dp vd=%vd_dp sz=3
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# VCVT float to int with specified rounding mode; Vd is always single-precision
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VCVT 1111 1110 1.11 11 rm:2 .... 1001 op:1 1.0 .... \
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vm=%vm_sp vd=%vd_sp sz=1
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VCVT 1111 1110 1.11 11 rm:2 .... 1010 op:1 1.0 .... \
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vm=%vm_sp vd=%vd_sp sz=2
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VCVT 1111 1110 1.11 11 rm:2 .... 1011 op:1 1.0 .... \
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vm=%vm_dp vd=%vd_sp sz=3
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