| // Inferno utils/5l/span.c |
| // https://bitbucket.org/inferno-os/inferno-os/src/default/utils/5l/span.c |
| // |
| // Copyright © 1994-1999 Lucent Technologies Inc. All rights reserved. |
| // Portions Copyright © 1995-1997 C H Forsyth (forsyth@terzarima.net) |
| // Portions Copyright © 1997-1999 Vita Nuova Limited |
| // Portions Copyright © 2000-2007 Vita Nuova Holdings Limited (www.vitanuova.com) |
| // Portions Copyright © 2004,2006 Bruce Ellis |
| // Portions Copyright © 2005-2007 C H Forsyth (forsyth@terzarima.net) |
| // Revisions Copyright © 2000-2007 Lucent Technologies Inc. and others |
| // Portions Copyright © 2009 The Go Authors. All rights reserved. |
| // |
| // Permission is hereby granted, free of charge, to any person obtaining a copy |
| // of this software and associated documentation files (the "Software"), to deal |
| // in the Software without restriction, including without limitation the rights |
| // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell |
| // copies of the Software, and to permit persons to whom the Software is |
| // furnished to do so, subject to the following conditions: |
| // |
| // The above copyright notice and this permission notice shall be included in |
| // all copies or substantial portions of the Software. |
| // |
| // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR |
| // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, |
| // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE |
| // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER |
| // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, |
| // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN |
| // THE SOFTWARE. |
| |
| package arm |
| |
| import ( |
| "cmd/internal/obj" |
| "cmd/internal/objabi" |
| "fmt" |
| "log" |
| "math" |
| "sort" |
| ) |
| |
| // ctxt5 holds state while assembling a single function. |
| // Each function gets a fresh ctxt5. |
| // This allows for multiple functions to be safely concurrently assembled. |
| type ctxt5 struct { |
| ctxt *obj.Link |
| newprog obj.ProgAlloc |
| cursym *obj.LSym |
| printp *obj.Prog |
| blitrl *obj.Prog |
| elitrl *obj.Prog |
| autosize int64 |
| instoffset int64 |
| pc int64 |
| pool struct { |
| start uint32 |
| size uint32 |
| extra uint32 |
| } |
| } |
| |
| type Optab struct { |
| as obj.As |
| a1 uint8 |
| a2 int8 |
| a3 uint8 |
| type_ uint8 |
| size int8 |
| param int16 |
| flag int8 |
| pcrelsiz uint8 |
| scond uint8 // optional flags accepted by the instruction |
| } |
| |
| type Opcross [32][2][32]uint8 |
| |
| const ( |
| LFROM = 1 << 0 |
| LTO = 1 << 1 |
| LPOOL = 1 << 2 |
| LPCREL = 1 << 3 |
| ) |
| |
| var optab = []Optab{ |
| /* struct Optab: |
| OPCODE, from, prog->reg, to, type, size, param, flag, extra data size, optional suffix */ |
| {obj.ATEXT, C_ADDR, C_NONE, C_TEXTSIZE, 0, 0, 0, 0, 0, 0}, |
| {AADD, C_REG, C_REG, C_REG, 1, 4, 0, 0, 0, C_SBIT}, |
| {AADD, C_REG, C_NONE, C_REG, 1, 4, 0, 0, 0, C_SBIT}, |
| {AAND, C_REG, C_REG, C_REG, 1, 4, 0, 0, 0, C_SBIT}, |
| {AAND, C_REG, C_NONE, C_REG, 1, 4, 0, 0, 0, C_SBIT}, |
| {AORR, C_REG, C_REG, C_REG, 1, 4, 0, 0, 0, C_SBIT}, |
| {AORR, C_REG, C_NONE, C_REG, 1, 4, 0, 0, 0, C_SBIT}, |
| {AMOVW, C_REG, C_NONE, C_REG, 1, 4, 0, 0, 0, C_SBIT}, |
| {AMVN, C_REG, C_NONE, C_REG, 1, 4, 0, 0, 0, C_SBIT}, |
| {ACMP, C_REG, C_REG, C_NONE, 1, 4, 0, 0, 0, 0}, |
| {AADD, C_RCON, C_REG, C_REG, 2, 4, 0, 0, 0, C_SBIT}, |
| {AADD, C_RCON, C_NONE, C_REG, 2, 4, 0, 0, 0, C_SBIT}, |
| {AAND, C_RCON, C_REG, C_REG, 2, 4, 0, 0, 0, C_SBIT}, |
| {AAND, C_RCON, C_NONE, C_REG, 2, 4, 0, 0, 0, C_SBIT}, |
| {AORR, C_RCON, C_REG, C_REG, 2, 4, 0, 0, 0, C_SBIT}, |
| {AORR, C_RCON, C_NONE, C_REG, 2, 4, 0, 0, 0, C_SBIT}, |
| {AMOVW, C_RCON, C_NONE, C_REG, 2, 4, 0, 0, 0, 0}, |
| {AMVN, C_RCON, C_NONE, C_REG, 2, 4, 0, 0, 0, 0}, |
| {ACMP, C_RCON, C_REG, C_NONE, 2, 4, 0, 0, 0, 0}, |
| {AADD, C_SHIFT, C_REG, C_REG, 3, 4, 0, 0, 0, C_SBIT}, |
| {AADD, C_SHIFT, C_NONE, C_REG, 3, 4, 0, 0, 0, C_SBIT}, |
| {AAND, C_SHIFT, C_REG, C_REG, 3, 4, 0, 0, 0, C_SBIT}, |
| {AAND, C_SHIFT, C_NONE, C_REG, 3, 4, 0, 0, 0, C_SBIT}, |
| {AORR, C_SHIFT, C_REG, C_REG, 3, 4, 0, 0, 0, C_SBIT}, |
| {AORR, C_SHIFT, C_NONE, C_REG, 3, 4, 0, 0, 0, C_SBIT}, |
| {AMVN, C_SHIFT, C_NONE, C_REG, 3, 4, 0, 0, 0, C_SBIT}, |
| {ACMP, C_SHIFT, C_REG, C_NONE, 3, 4, 0, 0, 0, 0}, |
| {AMOVW, C_RACON, C_NONE, C_REG, 4, 4, REGSP, 0, 0, C_SBIT}, |
| {AB, C_NONE, C_NONE, C_SBRA, 5, 4, 0, LPOOL, 0, 0}, |
| {ABL, C_NONE, C_NONE, C_SBRA, 5, 4, 0, 0, 0, 0}, |
| {ABX, C_NONE, C_NONE, C_SBRA, 74, 20, 0, 0, 0, 0}, |
| {ABEQ, C_NONE, C_NONE, C_SBRA, 5, 4, 0, 0, 0, 0}, |
| {ABEQ, C_RCON, C_NONE, C_SBRA, 5, 4, 0, 0, 0, 0}, // prediction hinted form, hint ignored |
| {AB, C_NONE, C_NONE, C_ROREG, 6, 4, 0, LPOOL, 0, 0}, |
| {ABL, C_NONE, C_NONE, C_ROREG, 7, 4, 0, 0, 0, 0}, |
| {ABL, C_REG, C_NONE, C_ROREG, 7, 4, 0, 0, 0, 0}, |
| {ABX, C_NONE, C_NONE, C_ROREG, 75, 12, 0, 0, 0, 0}, |
| {ABXRET, C_NONE, C_NONE, C_ROREG, 76, 4, 0, 0, 0, 0}, |
| {ASLL, C_RCON, C_REG, C_REG, 8, 4, 0, 0, 0, C_SBIT}, |
| {ASLL, C_RCON, C_NONE, C_REG, 8, 4, 0, 0, 0, C_SBIT}, |
| {ASLL, C_REG, C_NONE, C_REG, 9, 4, 0, 0, 0, C_SBIT}, |
| {ASLL, C_REG, C_REG, C_REG, 9, 4, 0, 0, 0, C_SBIT}, |
| {ASWI, C_NONE, C_NONE, C_NONE, 10, 4, 0, 0, 0, 0}, |
| {ASWI, C_NONE, C_NONE, C_LCON, 10, 4, 0, 0, 0, 0}, |
| {AWORD, C_NONE, C_NONE, C_LCON, 11, 4, 0, 0, 0, 0}, |
| {AWORD, C_NONE, C_NONE, C_LCONADDR, 11, 4, 0, 0, 0, 0}, |
| {AWORD, C_NONE, C_NONE, C_ADDR, 11, 4, 0, 0, 0, 0}, |
| {AWORD, C_NONE, C_NONE, C_TLS_LE, 103, 4, 0, 0, 0, 0}, |
| {AWORD, C_NONE, C_NONE, C_TLS_IE, 104, 4, 0, 0, 0, 0}, |
| {AMOVW, C_NCON, C_NONE, C_REG, 12, 4, 0, 0, 0, 0}, |
| {AMOVW, C_SCON, C_NONE, C_REG, 12, 4, 0, 0, 0, 0}, |
| {AMOVW, C_LCON, C_NONE, C_REG, 12, 4, 0, LFROM, 0, 0}, |
| {AMOVW, C_LCONADDR, C_NONE, C_REG, 12, 4, 0, LFROM | LPCREL, 4, 0}, |
| {AMVN, C_NCON, C_NONE, C_REG, 12, 4, 0, 0, 0, 0}, |
| {AADD, C_NCON, C_REG, C_REG, 13, 8, 0, 0, 0, C_SBIT}, |
| {AADD, C_NCON, C_NONE, C_REG, 13, 8, 0, 0, 0, C_SBIT}, |
| {AAND, C_NCON, C_REG, C_REG, 13, 8, 0, 0, 0, C_SBIT}, |
| {AAND, C_NCON, C_NONE, C_REG, 13, 8, 0, 0, 0, C_SBIT}, |
| {AORR, C_NCON, C_REG, C_REG, 13, 8, 0, 0, 0, C_SBIT}, |
| {AORR, C_NCON, C_NONE, C_REG, 13, 8, 0, 0, 0, C_SBIT}, |
| {ACMP, C_NCON, C_REG, C_NONE, 13, 8, 0, 0, 0, 0}, |
| {AADD, C_SCON, C_REG, C_REG, 13, 8, 0, 0, 0, C_SBIT}, |
| {AADD, C_SCON, C_NONE, C_REG, 13, 8, 0, 0, 0, C_SBIT}, |
| {AAND, C_SCON, C_REG, C_REG, 13, 8, 0, 0, 0, C_SBIT}, |
| {AAND, C_SCON, C_NONE, C_REG, 13, 8, 0, 0, 0, C_SBIT}, |
| {AORR, C_SCON, C_REG, C_REG, 13, 8, 0, 0, 0, C_SBIT}, |
| {AORR, C_SCON, C_NONE, C_REG, 13, 8, 0, 0, 0, C_SBIT}, |
| {AMVN, C_SCON, C_NONE, C_REG, 13, 8, 0, 0, 0, 0}, |
| {ACMP, C_SCON, C_REG, C_NONE, 13, 8, 0, 0, 0, 0}, |
| {AADD, C_RCON2A, C_REG, C_REG, 106, 8, 0, 0, 0, 0}, |
| {AADD, C_RCON2A, C_NONE, C_REG, 106, 8, 0, 0, 0, 0}, |
| {AORR, C_RCON2A, C_REG, C_REG, 106, 8, 0, 0, 0, 0}, |
| {AORR, C_RCON2A, C_NONE, C_REG, 106, 8, 0, 0, 0, 0}, |
| {AADD, C_RCON2S, C_REG, C_REG, 107, 8, 0, 0, 0, 0}, |
| {AADD, C_RCON2S, C_NONE, C_REG, 107, 8, 0, 0, 0, 0}, |
| {AADD, C_LCON, C_REG, C_REG, 13, 8, 0, LFROM, 0, C_SBIT}, |
| {AADD, C_LCON, C_NONE, C_REG, 13, 8, 0, LFROM, 0, C_SBIT}, |
| {AAND, C_LCON, C_REG, C_REG, 13, 8, 0, LFROM, 0, C_SBIT}, |
| {AAND, C_LCON, C_NONE, C_REG, 13, 8, 0, LFROM, 0, C_SBIT}, |
| {AORR, C_LCON, C_REG, C_REG, 13, 8, 0, LFROM, 0, C_SBIT}, |
| {AORR, C_LCON, C_NONE, C_REG, 13, 8, 0, LFROM, 0, C_SBIT}, |
| {AMVN, C_LCON, C_NONE, C_REG, 13, 8, 0, LFROM, 0, 0}, |
| {ACMP, C_LCON, C_REG, C_NONE, 13, 8, 0, LFROM, 0, 0}, |
| {AMOVB, C_REG, C_NONE, C_REG, 1, 4, 0, 0, 0, 0}, |
| {AMOVBS, C_REG, C_NONE, C_REG, 14, 8, 0, 0, 0, 0}, |
| {AMOVBU, C_REG, C_NONE, C_REG, 58, 4, 0, 0, 0, 0}, |
| {AMOVH, C_REG, C_NONE, C_REG, 1, 4, 0, 0, 0, 0}, |
| {AMOVHS, C_REG, C_NONE, C_REG, 14, 8, 0, 0, 0, 0}, |
| {AMOVHU, C_REG, C_NONE, C_REG, 14, 8, 0, 0, 0, 0}, |
| {AMUL, C_REG, C_REG, C_REG, 15, 4, 0, 0, 0, C_SBIT}, |
| {AMUL, C_REG, C_NONE, C_REG, 15, 4, 0, 0, 0, C_SBIT}, |
| {ADIV, C_REG, C_REG, C_REG, 16, 4, 0, 0, 0, 0}, |
| {ADIV, C_REG, C_NONE, C_REG, 16, 4, 0, 0, 0, 0}, |
| {ADIVHW, C_REG, C_REG, C_REG, 105, 4, 0, 0, 0, 0}, |
| {ADIVHW, C_REG, C_NONE, C_REG, 105, 4, 0, 0, 0, 0}, |
| {AMULL, C_REG, C_REG, C_REGREG, 17, 4, 0, 0, 0, C_SBIT}, |
| {ABFX, C_LCON, C_REG, C_REG, 18, 4, 0, 0, 0, 0}, // width in From, LSB in From3 |
| {ABFX, C_LCON, C_NONE, C_REG, 18, 4, 0, 0, 0, 0}, // width in From, LSB in From3 |
| {AMOVW, C_REG, C_NONE, C_SAUTO, 20, 4, REGSP, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVW, C_REG, C_NONE, C_SOREG, 20, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVB, C_REG, C_NONE, C_SAUTO, 20, 4, REGSP, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVB, C_REG, C_NONE, C_SOREG, 20, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBS, C_REG, C_NONE, C_SAUTO, 20, 4, REGSP, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBS, C_REG, C_NONE, C_SOREG, 20, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBU, C_REG, C_NONE, C_SAUTO, 20, 4, REGSP, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBU, C_REG, C_NONE, C_SOREG, 20, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVW, C_SAUTO, C_NONE, C_REG, 21, 4, REGSP, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVW, C_SOREG, C_NONE, C_REG, 21, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBU, C_SAUTO, C_NONE, C_REG, 21, 4, REGSP, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBU, C_SOREG, C_NONE, C_REG, 21, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AXTAB, C_SHIFT, C_REG, C_REG, 22, 4, 0, 0, 0, 0}, |
| {AXTAB, C_SHIFT, C_NONE, C_REG, 22, 4, 0, 0, 0, 0}, |
| {AMOVW, C_SHIFT, C_NONE, C_REG, 23, 4, 0, 0, 0, C_SBIT}, |
| {AMOVB, C_SHIFT, C_NONE, C_REG, 23, 4, 0, 0, 0, 0}, |
| {AMOVBS, C_SHIFT, C_NONE, C_REG, 23, 4, 0, 0, 0, 0}, |
| {AMOVBU, C_SHIFT, C_NONE, C_REG, 23, 4, 0, 0, 0, 0}, |
| {AMOVH, C_SHIFT, C_NONE, C_REG, 23, 4, 0, 0, 0, 0}, |
| {AMOVHS, C_SHIFT, C_NONE, C_REG, 23, 4, 0, 0, 0, 0}, |
| {AMOVHU, C_SHIFT, C_NONE, C_REG, 23, 4, 0, 0, 0, 0}, |
| {AMOVW, C_REG, C_NONE, C_LAUTO, 30, 8, REGSP, LTO, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVW, C_REG, C_NONE, C_LOREG, 30, 8, 0, LTO, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVW, C_REG, C_NONE, C_ADDR, 64, 8, 0, LTO | LPCREL, 4, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVB, C_REG, C_NONE, C_LAUTO, 30, 8, REGSP, LTO, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVB, C_REG, C_NONE, C_LOREG, 30, 8, 0, LTO, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVB, C_REG, C_NONE, C_ADDR, 64, 8, 0, LTO | LPCREL, 4, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBS, C_REG, C_NONE, C_LAUTO, 30, 8, REGSP, LTO, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBS, C_REG, C_NONE, C_LOREG, 30, 8, 0, LTO, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBS, C_REG, C_NONE, C_ADDR, 64, 8, 0, LTO | LPCREL, 4, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBU, C_REG, C_NONE, C_LAUTO, 30, 8, REGSP, LTO, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBU, C_REG, C_NONE, C_LOREG, 30, 8, 0, LTO, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBU, C_REG, C_NONE, C_ADDR, 64, 8, 0, LTO | LPCREL, 4, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVW, C_TLS_LE, C_NONE, C_REG, 101, 4, 0, LFROM, 0, 0}, |
| {AMOVW, C_TLS_IE, C_NONE, C_REG, 102, 8, 0, LFROM, 0, 0}, |
| {AMOVW, C_LAUTO, C_NONE, C_REG, 31, 8, REGSP, LFROM, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVW, C_LOREG, C_NONE, C_REG, 31, 8, 0, LFROM, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVW, C_ADDR, C_NONE, C_REG, 65, 8, 0, LFROM | LPCREL, 4, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBU, C_LAUTO, C_NONE, C_REG, 31, 8, REGSP, LFROM, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBU, C_LOREG, C_NONE, C_REG, 31, 8, 0, LFROM, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBU, C_ADDR, C_NONE, C_REG, 65, 8, 0, LFROM | LPCREL, 4, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVW, C_LACON, C_NONE, C_REG, 34, 8, REGSP, LFROM, 0, C_SBIT}, |
| {AMOVW, C_PSR, C_NONE, C_REG, 35, 4, 0, 0, 0, 0}, |
| {AMOVW, C_REG, C_NONE, C_PSR, 36, 4, 0, 0, 0, 0}, |
| {AMOVW, C_RCON, C_NONE, C_PSR, 37, 4, 0, 0, 0, 0}, |
| {AMOVM, C_REGLIST, C_NONE, C_SOREG, 38, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVM, C_SOREG, C_NONE, C_REGLIST, 39, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {ASWPW, C_SOREG, C_REG, C_REG, 40, 4, 0, 0, 0, 0}, |
| {ARFE, C_NONE, C_NONE, C_NONE, 41, 4, 0, 0, 0, 0}, |
| {AMOVF, C_FREG, C_NONE, C_FAUTO, 50, 4, REGSP, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVF, C_FREG, C_NONE, C_FOREG, 50, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVF, C_FAUTO, C_NONE, C_FREG, 51, 4, REGSP, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVF, C_FOREG, C_NONE, C_FREG, 51, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVF, C_FREG, C_NONE, C_LAUTO, 52, 12, REGSP, LTO, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVF, C_FREG, C_NONE, C_LOREG, 52, 12, 0, LTO, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVF, C_LAUTO, C_NONE, C_FREG, 53, 12, REGSP, LFROM, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVF, C_LOREG, C_NONE, C_FREG, 53, 12, 0, LFROM, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVF, C_FREG, C_NONE, C_ADDR, 68, 8, 0, LTO | LPCREL, 4, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVF, C_ADDR, C_NONE, C_FREG, 69, 8, 0, LFROM | LPCREL, 4, C_PBIT | C_WBIT | C_UBIT}, |
| {AADDF, C_FREG, C_NONE, C_FREG, 54, 4, 0, 0, 0, 0}, |
| {AADDF, C_FREG, C_FREG, C_FREG, 54, 4, 0, 0, 0, 0}, |
| {AMOVF, C_FREG, C_NONE, C_FREG, 55, 4, 0, 0, 0, 0}, |
| {ANEGF, C_FREG, C_NONE, C_FREG, 55, 4, 0, 0, 0, 0}, |
| {AMOVW, C_REG, C_NONE, C_FCR, 56, 4, 0, 0, 0, 0}, |
| {AMOVW, C_FCR, C_NONE, C_REG, 57, 4, 0, 0, 0, 0}, |
| {AMOVW, C_SHIFTADDR, C_NONE, C_REG, 59, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBU, C_SHIFTADDR, C_NONE, C_REG, 59, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVB, C_SHIFTADDR, C_NONE, C_REG, 60, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBS, C_SHIFTADDR, C_NONE, C_REG, 60, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVH, C_SHIFTADDR, C_NONE, C_REG, 60, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHS, C_SHIFTADDR, C_NONE, C_REG, 60, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHU, C_SHIFTADDR, C_NONE, C_REG, 60, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVW, C_REG, C_NONE, C_SHIFTADDR, 61, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVB, C_REG, C_NONE, C_SHIFTADDR, 61, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBS, C_REG, C_NONE, C_SHIFTADDR, 61, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBU, C_REG, C_NONE, C_SHIFTADDR, 61, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVH, C_REG, C_NONE, C_SHIFTADDR, 62, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHS, C_REG, C_NONE, C_SHIFTADDR, 62, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHU, C_REG, C_NONE, C_SHIFTADDR, 62, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVH, C_REG, C_NONE, C_HAUTO, 70, 4, REGSP, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVH, C_REG, C_NONE, C_HOREG, 70, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHS, C_REG, C_NONE, C_HAUTO, 70, 4, REGSP, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHS, C_REG, C_NONE, C_HOREG, 70, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHU, C_REG, C_NONE, C_HAUTO, 70, 4, REGSP, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHU, C_REG, C_NONE, C_HOREG, 70, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVB, C_HAUTO, C_NONE, C_REG, 71, 4, REGSP, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVB, C_HOREG, C_NONE, C_REG, 71, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBS, C_HAUTO, C_NONE, C_REG, 71, 4, REGSP, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBS, C_HOREG, C_NONE, C_REG, 71, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVH, C_HAUTO, C_NONE, C_REG, 71, 4, REGSP, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVH, C_HOREG, C_NONE, C_REG, 71, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHS, C_HAUTO, C_NONE, C_REG, 71, 4, REGSP, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHS, C_HOREG, C_NONE, C_REG, 71, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHU, C_HAUTO, C_NONE, C_REG, 71, 4, REGSP, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHU, C_HOREG, C_NONE, C_REG, 71, 4, 0, 0, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVH, C_REG, C_NONE, C_LAUTO, 72, 8, REGSP, LTO, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVH, C_REG, C_NONE, C_LOREG, 72, 8, 0, LTO, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVH, C_REG, C_NONE, C_ADDR, 94, 8, 0, LTO | LPCREL, 4, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHS, C_REG, C_NONE, C_LAUTO, 72, 8, REGSP, LTO, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHS, C_REG, C_NONE, C_LOREG, 72, 8, 0, LTO, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHS, C_REG, C_NONE, C_ADDR, 94, 8, 0, LTO | LPCREL, 4, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHU, C_REG, C_NONE, C_LAUTO, 72, 8, REGSP, LTO, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHU, C_REG, C_NONE, C_LOREG, 72, 8, 0, LTO, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHU, C_REG, C_NONE, C_ADDR, 94, 8, 0, LTO | LPCREL, 4, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVB, C_LAUTO, C_NONE, C_REG, 73, 8, REGSP, LFROM, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVB, C_LOREG, C_NONE, C_REG, 73, 8, 0, LFROM, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVB, C_ADDR, C_NONE, C_REG, 93, 8, 0, LFROM | LPCREL, 4, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBS, C_LAUTO, C_NONE, C_REG, 73, 8, REGSP, LFROM, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBS, C_LOREG, C_NONE, C_REG, 73, 8, 0, LFROM, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVBS, C_ADDR, C_NONE, C_REG, 93, 8, 0, LFROM | LPCREL, 4, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVH, C_LAUTO, C_NONE, C_REG, 73, 8, REGSP, LFROM, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVH, C_LOREG, C_NONE, C_REG, 73, 8, 0, LFROM, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVH, C_ADDR, C_NONE, C_REG, 93, 8, 0, LFROM | LPCREL, 4, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHS, C_LAUTO, C_NONE, C_REG, 73, 8, REGSP, LFROM, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHS, C_LOREG, C_NONE, C_REG, 73, 8, 0, LFROM, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHS, C_ADDR, C_NONE, C_REG, 93, 8, 0, LFROM | LPCREL, 4, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHU, C_LAUTO, C_NONE, C_REG, 73, 8, REGSP, LFROM, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHU, C_LOREG, C_NONE, C_REG, 73, 8, 0, LFROM, 0, C_PBIT | C_WBIT | C_UBIT}, |
| {AMOVHU, C_ADDR, C_NONE, C_REG, 93, 8, 0, LFROM | LPCREL, 4, C_PBIT | C_WBIT | C_UBIT}, |
| {ALDREX, C_SOREG, C_NONE, C_REG, 77, 4, 0, 0, 0, 0}, |
| {ASTREX, C_SOREG, C_REG, C_REG, 78, 4, 0, 0, 0, 0}, |
| {AMOVF, C_ZFCON, C_NONE, C_FREG, 80, 8, 0, 0, 0, 0}, |
| {AMOVF, C_SFCON, C_NONE, C_FREG, 81, 4, 0, 0, 0, 0}, |
| {ACMPF, C_FREG, C_FREG, C_NONE, 82, 8, 0, 0, 0, 0}, |
| {ACMPF, C_FREG, C_NONE, C_NONE, 83, 8, 0, 0, 0, 0}, |
| {AMOVFW, C_FREG, C_NONE, C_FREG, 84, 4, 0, 0, 0, C_UBIT}, |
| {AMOVWF, C_FREG, C_NONE, C_FREG, 85, 4, 0, 0, 0, C_UBIT}, |
| {AMOVFW, C_FREG, C_NONE, C_REG, 86, 8, 0, 0, 0, C_UBIT}, |
| {AMOVWF, C_REG, C_NONE, C_FREG, 87, 8, 0, 0, 0, C_UBIT}, |
| {AMOVW, C_REG, C_NONE, C_FREG, 88, 4, 0, 0, 0, 0}, |
| {AMOVW, C_FREG, C_NONE, C_REG, 89, 4, 0, 0, 0, 0}, |
| {ALDREXD, C_SOREG, C_NONE, C_REG, 91, 4, 0, 0, 0, 0}, |
| {ASTREXD, C_SOREG, C_REG, C_REG, 92, 4, 0, 0, 0, 0}, |
| {APLD, C_SOREG, C_NONE, C_NONE, 95, 4, 0, 0, 0, 0}, |
| {obj.AUNDEF, C_NONE, C_NONE, C_NONE, 96, 4, 0, 0, 0, 0}, |
| {ACLZ, C_REG, C_NONE, C_REG, 97, 4, 0, 0, 0, 0}, |
| {AMULWT, C_REG, C_REG, C_REG, 98, 4, 0, 0, 0, 0}, |
| {AMULA, C_REG, C_REG, C_REGREG2, 99, 4, 0, 0, 0, C_SBIT}, |
| {AMULAWT, C_REG, C_REG, C_REGREG2, 99, 4, 0, 0, 0, 0}, |
| {obj.APCDATA, C_LCON, C_NONE, C_LCON, 0, 0, 0, 0, 0, 0}, |
| {obj.AFUNCDATA, C_LCON, C_NONE, C_ADDR, 0, 0, 0, 0, 0, 0}, |
| {obj.ANOP, C_NONE, C_NONE, C_NONE, 0, 0, 0, 0, 0, 0}, |
| {obj.ADUFFZERO, C_NONE, C_NONE, C_SBRA, 5, 4, 0, 0, 0, 0}, // same as ABL |
| {obj.ADUFFCOPY, C_NONE, C_NONE, C_SBRA, 5, 4, 0, 0, 0, 0}, // same as ABL |
| {ADATABUNDLE, C_NONE, C_NONE, C_NONE, 100, 4, 0, 0, 0, 0}, |
| {ADATABUNDLEEND, C_NONE, C_NONE, C_NONE, 100, 0, 0, 0, 0, 0}, |
| {obj.AXXX, C_NONE, C_NONE, C_NONE, 0, 4, 0, 0, 0, 0}, |
| } |
| |
| var oprange [ALAST & obj.AMask][]Optab |
| |
| var xcmp [C_GOK + 1][C_GOK + 1]bool |
| |
| var ( |
| deferreturn *obj.LSym |
| symdiv *obj.LSym |
| symdivu *obj.LSym |
| symmod *obj.LSym |
| symmodu *obj.LSym |
| ) |
| |
| // Note about encoding: Prog.scond holds the condition encoding, |
| // but XOR'ed with C_SCOND_XOR, so that C_SCOND_NONE == 0. |
| // The code that shifts the value << 28 has the responsibility |
| // for XORing with C_SCOND_XOR too. |
| |
| // asmoutnacl assembles the instruction p. It replaces asmout for NaCl. |
| // It returns the total number of bytes put in out, and it can change |
| // p->pc if extra padding is necessary. |
| // In rare cases, asmoutnacl might split p into two instructions. |
| // origPC is the PC for this Prog (no padding is taken into account). |
| func (c *ctxt5) asmoutnacl(origPC int32, p *obj.Prog, o *Optab, out []uint32) int { |
| size := int(o.size) |
| |
| // instruction specific |
| switch p.As { |
| default: |
| if out != nil { |
| c.asmout(p, o, out) |
| } |
| |
| case ADATABUNDLE, // align to 16-byte boundary |
| ADATABUNDLEEND: // zero width instruction, just to align next instruction to 16-byte boundary |
| p.Pc = (p.Pc + 15) &^ 15 |
| |
| if out != nil { |
| c.asmout(p, o, out) |
| } |
| |
| case obj.AUNDEF, |
| APLD: |
| size = 4 |
| if out != nil { |
| switch p.As { |
| case obj.AUNDEF: |
| out[0] = 0xe7fedef0 // NACL_INSTR_ARM_ABORT_NOW (UDF #0xEDE0) |
| |
| case APLD: |
| out[0] = 0xe1a01001 // (MOVW R1, R1) |
| } |
| } |
| |
| case AB, ABL: |
| if p.To.Type != obj.TYPE_MEM { |
| if out != nil { |
| c.asmout(p, o, out) |
| } |
| } else { |
| if p.To.Offset != 0 || size != 4 || p.To.Reg > REG_R15 || p.To.Reg < REG_R0 { |
| c.ctxt.Diag("unsupported instruction: %v", p) |
| } |
| if p.Pc&15 == 12 { |
| p.Pc += 4 |
| } |
| if out != nil { |
| out[0] = ((uint32(p.Scond)&C_SCOND)^C_SCOND_XOR)<<28 | 0x03c0013f | (uint32(p.To.Reg)&15)<<12 | (uint32(p.To.Reg)&15)<<16 // BIC $0xc000000f, Rx |
| if p.As == AB { |
| out[1] = ((uint32(p.Scond)&C_SCOND)^C_SCOND_XOR)<<28 | 0x012fff10 | (uint32(p.To.Reg)&15)<<0 // BX Rx |
| } else { // ABL |
| out[1] = ((uint32(p.Scond)&C_SCOND)^C_SCOND_XOR)<<28 | 0x012fff30 | (uint32(p.To.Reg)&15)<<0 // BLX Rx |
| } |
| } |
| |
| size = 8 |
| } |
| |
| // align the last instruction (the actual BL) to the last instruction in a bundle |
| if p.As == ABL { |
| if p.To.Sym == deferreturn { |
| p.Pc = ((int64(origPC) + 15) &^ 15) + 16 - int64(size) |
| } else { |
| p.Pc += (16 - ((p.Pc + int64(size)) & 15)) & 15 |
| } |
| } |
| |
| case ALDREX, |
| ALDREXD, |
| AMOVB, |
| AMOVBS, |
| AMOVBU, |
| AMOVD, |
| AMOVF, |
| AMOVH, |
| AMOVHS, |
| AMOVHU, |
| AMOVM, |
| AMOVW, |
| ASTREX, |
| ASTREXD: |
| if p.To.Type == obj.TYPE_REG && p.To.Reg == REG_R15 && p.From.Reg == REG_R13 { // MOVW.W x(R13), PC |
| if out != nil { |
| c.asmout(p, o, out) |
| } |
| if size == 4 { |
| if out != nil { |
| // Note: 5c and 5g reg.c know that DIV/MOD smashes R12 |
| // so that this return instruction expansion is valid. |
| out[0] = out[0] &^ 0x3000 // change PC to R12 |
| out[1] = ((uint32(p.Scond)&C_SCOND)^C_SCOND_XOR)<<28 | 0x03ccc13f // BIC $0xc000000f, R12 |
| out[2] = ((uint32(p.Scond)&C_SCOND)^C_SCOND_XOR)<<28 | 0x012fff1c // BX R12 |
| } |
| |
| size += 8 |
| if (p.Pc+int64(size))&15 == 4 { |
| p.Pc += 4 |
| } |
| break |
| } else { |
| // if the instruction used more than 4 bytes, then it must have used a very large |
| // offset to update R13, so we need to additionally mask R13. |
| if out != nil { |
| out[size/4-1] &^= 0x3000 // change PC to R12 |
| out[size/4] = ((uint32(p.Scond)&C_SCOND)^C_SCOND_XOR)<<28 | 0x03cdd103 // BIC $0xc0000000, R13 |
| out[size/4+1] = ((uint32(p.Scond)&C_SCOND)^C_SCOND_XOR)<<28 | 0x03ccc13f // BIC $0xc000000f, R12 |
| out[size/4+2] = ((uint32(p.Scond)&C_SCOND)^C_SCOND_XOR)<<28 | 0x012fff1c // BX R12 |
| } |
| |
| // p->pc+size is only ok at 4 or 12 mod 16. |
| if (p.Pc+int64(size))%8 == 0 { |
| p.Pc += 4 |
| } |
| size += 12 |
| break |
| } |
| } |
| |
| if p.To.Type == obj.TYPE_REG && p.To.Reg == REG_R15 { |
| c.ctxt.Diag("unsupported instruction (move to another register and use indirect jump instead): %v", p) |
| } |
| |
| if p.To.Type == obj.TYPE_MEM && p.To.Reg == REG_R13 && (p.Scond&C_WBIT != 0) && size > 4 { |
| // function prolog with very large frame size: MOVW.W R14,-100004(R13) |
| // split it into two instructions: |
| // ADD $-100004, R13 |
| // MOVW R14, 0(R13) |
| q := c.newprog() |
| |
| p.Scond &^= C_WBIT |
| *q = *p |
| a := &p.To |
| var a2 *obj.Addr |
| if p.To.Type == obj.TYPE_MEM { |
| a2 = &q.To |
| } else { |
| a2 = &q.From |
| } |
| nocache(q) |
| nocache(p) |
| |
| // insert q after p |
| q.Link = p.Link |
| |
| p.Link = q |
| q.Pcond = nil |
| |
| // make p into ADD $X, R13 |
| p.As = AADD |
| |
| p.From = *a |
| p.From.Reg = 0 |
| p.From.Type = obj.TYPE_CONST |
| p.To = obj.Addr{} |
| p.To.Type = obj.TYPE_REG |
| p.To.Reg = REG_R13 |
| |
| // make q into p but load/store from 0(R13) |
| q.Spadj = 0 |
| |
| *a2 = obj.Addr{} |
| a2.Type = obj.TYPE_MEM |
| a2.Reg = REG_R13 |
| a2.Sym = nil |
| a2.Offset = 0 |
| size = int(c.oplook(p).size) |
| break |
| } |
| |
| if (p.To.Type == obj.TYPE_MEM && p.To.Reg != REG_R9) || // MOVW Rx, X(Ry), y != 9 |
| (p.From.Type == obj.TYPE_MEM && p.From.Reg != REG_R9) { // MOVW X(Rx), Ry, x != 9 |
| var a *obj.Addr |
| if p.To.Type == obj.TYPE_MEM { |
| a = &p.To |
| } else { |
| a = &p.From |
| } |
| reg := int(a.Reg) |
| if size == 4 { |
| // if addr.reg == 0, then it is probably load from x(FP) with small x, no need to modify. |
| if reg == 0 { |
| if out != nil { |
| c.asmout(p, o, out) |
| } |
| } else { |
| if out != nil { |
| out[0] = ((uint32(p.Scond)&C_SCOND)^C_SCOND_XOR)<<28 | 0x03c00103 | (uint32(reg)&15)<<16 | (uint32(reg)&15)<<12 // BIC $0xc0000000, Rx |
| } |
| if p.Pc&15 == 12 { |
| p.Pc += 4 |
| } |
| size += 4 |
| if out != nil { |
| c.asmout(p, o, out[1:]) |
| } |
| } |
| |
| break |
| } else { |
| // if a load/store instruction takes more than 1 word to implement, then |
| // we need to separate the instruction into two: |
| // 1. explicitly load the address into R11. |
| // 2. load/store from R11. |
| // This won't handle .W/.P, so we should reject such code. |
| if p.Scond&(C_PBIT|C_WBIT) != 0 { |
| c.ctxt.Diag("unsupported instruction (.P/.W): %v", p) |
| } |
| q := c.newprog() |
| *q = *p |
| var a2 *obj.Addr |
| if p.To.Type == obj.TYPE_MEM { |
| a2 = &q.To |
| } else { |
| a2 = &q.From |
| } |
| nocache(q) |
| nocache(p) |
| |
| // insert q after p |
| q.Link = p.Link |
| |
| p.Link = q |
| q.Pcond = nil |
| |
| // make p into MOVW $X(R), R11 |
| p.As = AMOVW |
| |
| p.From = *a |
| p.From.Type = obj.TYPE_ADDR |
| p.To = obj.Addr{} |
| p.To.Type = obj.TYPE_REG |
| p.To.Reg = REG_R11 |
| |
| // make q into p but load/store from 0(R11) |
| *a2 = obj.Addr{} |
| |
| a2.Type = obj.TYPE_MEM |
| a2.Reg = REG_R11 |
| a2.Sym = nil |
| a2.Offset = 0 |
| size = int(c.oplook(p).size) |
| break |
| } |
| } else if out != nil { |
| c.asmout(p, o, out) |
| } |
| } |
| |
| // destination register specific |
| if p.To.Type == obj.TYPE_REG { |
| switch p.To.Reg { |
| case REG_R9: |
| c.ctxt.Diag("invalid instruction, cannot write to R9: %v", p) |
| |
| case REG_R13: |
| if out != nil { |
| out[size/4] = 0xe3cdd103 // BIC $0xc0000000, R13 |
| } |
| if (p.Pc+int64(size))&15 == 0 { |
| p.Pc += 4 |
| } |
| size += 4 |
| } |
| } |
| |
| return size |
| } |
| |
| func checkSuffix(c *ctxt5, p *obj.Prog, o *Optab) { |
| if p.Scond&C_SBIT != 0 && o.scond&C_SBIT == 0 { |
| c.ctxt.Diag("invalid .S suffix: %v", p) |
| } |
| if p.Scond&C_PBIT != 0 && o.scond&C_PBIT == 0 { |
| c.ctxt.Diag("invalid .P suffix: %v", p) |
| } |
| if p.Scond&C_WBIT != 0 && o.scond&C_WBIT == 0 { |
| c.ctxt.Diag("invalid .W suffix: %v", p) |
| } |
| if p.Scond&C_UBIT != 0 && o.scond&C_UBIT == 0 { |
| c.ctxt.Diag("invalid .U suffix: %v", p) |
| } |
| } |
| |
| func span5(ctxt *obj.Link, cursym *obj.LSym, newprog obj.ProgAlloc) { |
| var p *obj.Prog |
| var op *obj.Prog |
| |
| p = cursym.Func.Text |
| if p == nil || p.Link == nil { // handle external functions and ELF section symbols |
| return |
| } |
| |
| if oprange[AAND&obj.AMask] == nil { |
| ctxt.Diag("arm ops not initialized, call arm.buildop first") |
| } |
| |
| c := ctxt5{ctxt: ctxt, newprog: newprog, cursym: cursym, autosize: p.To.Offset + 4} |
| pc := int32(0) |
| |
| op = p |
| p = p.Link |
| var i int |
| var m int |
| var o *Optab |
| for ; p != nil || c.blitrl != nil; op, p = p, p.Link { |
| if p == nil { |
| if c.checkpool(op, 0) { |
| p = op |
| continue |
| } |
| |
| // can't happen: blitrl is not nil, but checkpool didn't flushpool |
| ctxt.Diag("internal inconsistency") |
| |
| break |
| } |
| |
| p.Pc = int64(pc) |
| o = c.oplook(p) |
| if ctxt.Headtype != objabi.Hnacl { |
| m = int(o.size) |
| } else { |
| m = c.asmoutnacl(pc, p, o, nil) |
| pc = int32(p.Pc) // asmoutnacl might change pc for alignment |
| o = c.oplook(p) // asmoutnacl might change p in rare cases |
| } |
| |
| if m%4 != 0 || p.Pc%4 != 0 { |
| ctxt.Diag("!pc invalid: %v size=%d", p, m) |
| } |
| |
| // must check literal pool here in case p generates many instructions |
| if c.blitrl != nil { |
| i = m |
| if c.checkpool(op, i) { |
| p = op |
| continue |
| } |
| } |
| |
| if m == 0 && (p.As != obj.AFUNCDATA && p.As != obj.APCDATA && p.As != ADATABUNDLEEND && p.As != obj.ANOP) { |
| ctxt.Diag("zero-width instruction\n%v", p) |
| continue |
| } |
| |
| switch o.flag & (LFROM | LTO | LPOOL) { |
| case LFROM: |
| c.addpool(p, &p.From) |
| |
| case LTO: |
| c.addpool(p, &p.To) |
| |
| case LPOOL: |
| if p.Scond&C_SCOND == C_SCOND_NONE { |
| c.flushpool(p, 0, 0) |
| } |
| } |
| |
| if p.As == AMOVW && p.To.Type == obj.TYPE_REG && p.To.Reg == REGPC && p.Scond&C_SCOND == C_SCOND_NONE { |
| c.flushpool(p, 0, 0) |
| } |
| |
| pc += int32(m) |
| } |
| |
| c.cursym.Size = int64(pc) |
| |
| /* |
| * if any procedure is large enough to |
| * generate a large SBRA branch, then |
| * generate extra passes putting branches |
| * around jmps to fix. this is rare. |
| */ |
| times := 0 |
| |
| var bflag int |
| var opc int32 |
| var out [6 + 3]uint32 |
| for { |
| bflag = 0 |
| pc = 0 |
| times++ |
| c.cursym.Func.Text.Pc = 0 // force re-layout the code. |
| for p = c.cursym.Func.Text; p != nil; p = p.Link { |
| o = c.oplook(p) |
| if int64(pc) > p.Pc { |
| p.Pc = int64(pc) |
| } |
| |
| /* very large branches |
| if(o->type == 6 && p->pcond) { |
| otxt = p->pcond->pc - c; |
| if(otxt < 0) |
| otxt = -otxt; |
| if(otxt >= (1L<<17) - 10) { |
| q = emallocz(sizeof(Prog)); |
| q->link = p->link; |
| p->link = q; |
| q->as = AB; |
| q->to.type = TYPE_BRANCH; |
| q->pcond = p->pcond; |
| p->pcond = q; |
| q = emallocz(sizeof(Prog)); |
| q->link = p->link; |
| p->link = q; |
| q->as = AB; |
| q->to.type = TYPE_BRANCH; |
| q->pcond = q->link->link; |
| bflag = 1; |
| } |
| } |
| */ |
| opc = int32(p.Pc) |
| |
| if ctxt.Headtype != objabi.Hnacl { |
| m = int(o.size) |
| } else { |
| m = c.asmoutnacl(pc, p, o, nil) |
| } |
| if p.Pc != int64(opc) { |
| bflag = 1 |
| } |
| |
| //print("%v pc changed %d to %d in iter. %d\n", p, opc, (int32)p->pc, times); |
| pc = int32(p.Pc + int64(m)) |
| |
| if m%4 != 0 || p.Pc%4 != 0 { |
| ctxt.Diag("pc invalid: %v size=%d", p, m) |
| } |
| |
| if m/4 > len(out) { |
| ctxt.Diag("instruction size too large: %d > %d", m/4, len(out)) |
| } |
| if m == 0 && (p.As != obj.AFUNCDATA && p.As != obj.APCDATA && p.As != ADATABUNDLEEND && p.As != obj.ANOP) { |
| if p.As == obj.ATEXT { |
| c.autosize = p.To.Offset + 4 |
| continue |
| } |
| |
| ctxt.Diag("zero-width instruction\n%v", p) |
| continue |
| } |
| } |
| |
| c.cursym.Size = int64(pc) |
| if bflag == 0 { |
| break |
| } |
| } |
| |
| if pc%4 != 0 { |
| ctxt.Diag("sym->size=%d, invalid", pc) |
| } |
| |
| /* |
| * lay out the code. all the pc-relative code references, |
| * even cross-function, are resolved now; |
| * only data references need to be relocated. |
| * with more work we could leave cross-function |
| * code references to be relocated too, and then |
| * perhaps we'd be able to parallelize the span loop above. |
| */ |
| |
| p = c.cursym.Func.Text |
| c.autosize = p.To.Offset + 4 |
| c.cursym.Grow(c.cursym.Size) |
| |
| bp := c.cursym.P |
| pc = int32(p.Pc) // even p->link might need extra padding |
| var v int |
| for p = p.Link; p != nil; p = p.Link { |
| c.pc = p.Pc |
| o = c.oplook(p) |
| opc = int32(p.Pc) |
| if ctxt.Headtype != objabi.Hnacl { |
| c.asmout(p, o, out[:]) |
| m = int(o.size) |
| } else { |
| m = c.asmoutnacl(pc, p, o, out[:]) |
| if int64(opc) != p.Pc { |
| ctxt.Diag("asmoutnacl broken: pc changed (%d->%d) in last stage: %v", opc, int32(p.Pc), p) |
| } |
| } |
| |
| if m%4 != 0 || p.Pc%4 != 0 { |
| ctxt.Diag("final stage: pc invalid: %v size=%d", p, m) |
| } |
| |
| if int64(pc) > p.Pc { |
| ctxt.Diag("PC padding invalid: want %#d, has %#d: %v", p.Pc, pc, p) |
| } |
| for int64(pc) != p.Pc { |
| // emit 0xe1a00000 (MOVW R0, R0) |
| bp[0] = 0x00 |
| bp = bp[1:] |
| |
| bp[0] = 0x00 |
| bp = bp[1:] |
| bp[0] = 0xa0 |
| bp = bp[1:] |
| bp[0] = 0xe1 |
| bp = bp[1:] |
| pc += 4 |
| } |
| |
| for i = 0; i < m/4; i++ { |
| v = int(out[i]) |
| bp[0] = byte(v) |
| bp = bp[1:] |
| bp[0] = byte(v >> 8) |
| bp = bp[1:] |
| bp[0] = byte(v >> 16) |
| bp = bp[1:] |
| bp[0] = byte(v >> 24) |
| bp = bp[1:] |
| } |
| |
| pc += int32(m) |
| } |
| } |
| |
| /* |
| * when the first reference to the literal pool threatens |
| * to go out of range of a 12-bit PC-relative offset, |
| * drop the pool now, and branch round it. |
| * this happens only in extended basic blocks that exceed 4k. |
| */ |
| func (c *ctxt5) checkpool(p *obj.Prog, sz int) bool { |
| if c.pool.size >= 0xff0 || immaddr(int32((p.Pc+int64(sz)+4)+4+int64(12+c.pool.size)-int64(c.pool.start+8))) == 0 { |
| return c.flushpool(p, 1, 0) |
| } else if p.Link == nil { |
| return c.flushpool(p, 2, 0) |
| } |
| return false |
| } |
| |
| func (c *ctxt5) flushpool(p *obj.Prog, skip int, force int) bool { |
| if c.blitrl != nil { |
| if skip != 0 { |
| if false && skip == 1 { |
| fmt.Printf("note: flush literal pool at %x: len=%d ref=%x\n", uint64(p.Pc+4), c.pool.size, c.pool.start) |
| } |
| q := c.newprog() |
| q.As = AB |
| q.To.Type = obj.TYPE_BRANCH |
| q.Pcond = p.Link |
| q.Link = c.blitrl |
| q.Pos = p.Pos |
| c.blitrl = q |
| } else if force == 0 && (p.Pc+int64(12+c.pool.size)-int64(c.pool.start) < 2048) { // 12 take into account the maximum nacl literal pool alignment padding size |
| return false |
| } |
| if c.ctxt.Headtype == objabi.Hnacl && c.pool.size%16 != 0 { |
| // if pool is not multiple of 16 bytes, add an alignment marker |
| q := c.newprog() |
| |
| q.As = ADATABUNDLEEND |
| c.elitrl.Link = q |
| c.elitrl = q |
| } |
| |
| // The line number for constant pool entries doesn't really matter. |
| // We set it to the line number of the preceding instruction so that |
| // there are no deltas to encode in the pc-line tables. |
| for q := c.blitrl; q != nil; q = q.Link { |
| q.Pos = p.Pos |
| } |
| |
| c.elitrl.Link = p.Link |
| p.Link = c.blitrl |
| |
| c.blitrl = nil /* BUG: should refer back to values until out-of-range */ |
| c.elitrl = nil |
| c.pool.size = 0 |
| c.pool.start = 0 |
| c.pool.extra = 0 |
| return true |
| } |
| |
| return false |
| } |
| |
| func (c *ctxt5) addpool(p *obj.Prog, a *obj.Addr) { |
| t := c.newprog() |
| t.As = AWORD |
| |
| switch c.aclass(a) { |
| default: |
| t.To.Offset = a.Offset |
| t.To.Sym = a.Sym |
| t.To.Type = a.Type |
| t.To.Name = a.Name |
| |
| if c.ctxt.Flag_shared && t.To.Sym != nil { |
| t.Rel = p |
| } |
| |
| case C_SROREG, |
| C_LOREG, |
| C_ROREG, |
| C_FOREG, |
| C_SOREG, |
| C_HOREG, |
| C_FAUTO, |
| C_SAUTO, |
| C_LAUTO, |
| C_LACON: |
| t.To.Type = obj.TYPE_CONST |
| t.To.Offset = c.instoffset |
| } |
| |
| if t.Rel == nil { |
| for q := c.blitrl; q != nil; q = q.Link { /* could hash on t.t0.offset */ |
| if q.Rel == nil && q.To == t.To { |
| p.Pcond = q |
| return |
| } |
| } |
| } |
| |
| if c.ctxt.Headtype == objabi.Hnacl && c.pool.size%16 == 0 { |
| // start a new data bundle |
| q := c.newprog() |
| q.As = ADATABUNDLE |
| q.Pc = int64(c.pool.size) |
| c.pool.size += 4 |
| if c.blitrl == nil { |
| c.blitrl = q |
| c.pool.start = uint32(p.Pc) |
| } else { |
| c.elitrl.Link = q |
| } |
| |
| c.elitrl = q |
| } |
| |
| q := c.newprog() |
| *q = *t |
| q.Pc = int64(c.pool.size) |
| |
| if c.blitrl == nil { |
| c.blitrl = q |
| c.pool.start = uint32(p.Pc) |
| } else { |
| c.elitrl.Link = q |
| } |
| c.elitrl = q |
| c.pool.size += 4 |
| |
| p.Pcond = q |
| } |
| |
| func (c *ctxt5) regoff(a *obj.Addr) int32 { |
| c.instoffset = 0 |
| c.aclass(a) |
| return int32(c.instoffset) |
| } |
| |
| func immrot(v uint32) int32 { |
| for i := 0; i < 16; i++ { |
| if v&^0xff == 0 { |
| return int32(uint32(int32(i)<<8) | v | 1<<25) |
| } |
| v = v<<2 | v>>30 |
| } |
| |
| return 0 |
| } |
| |
| // immrot2a returns bits encoding the immediate constant fields of two instructions, |
| // such that the encoded constants x, y satisfy x|y==v, x&y==0. |
| // Returns 0,0 if no such decomposition of v exists. |
| func immrot2a(v uint32) (uint32, uint32) { |
| for i := uint(1); i < 32; i++ { |
| m := uint32(1<<i - 1) |
| if x, y := immrot(v&m), immrot(v&^m); x != 0 && y != 0 { |
| return uint32(x), uint32(y) |
| } |
| } |
| // TODO: handle some more cases, like where |
| // the wraparound from the rotate could help. |
| return 0, 0 |
| } |
| |
| // immrot2s returns bits encoding the immediate constant fields of two instructions, |
| // such that the encoded constants y, x satisfy y-x==v, y&x==0. |
| // Returns 0,0 if no such decomposition of v exists. |
| func immrot2s(v uint32) (uint32, uint32) { |
| if immrot(v) != 0 { |
| return v, 0 |
| } |
| // suppose v in the form of {leading 00, upper effective bits, lower 8 effective bits, trailing 00} |
| // omit trailing 00 |
| var i uint32 |
| for i = 2; i < 32; i += 2 { |
| if v&(1<<i-1) != 0 { |
| break |
| } |
| } |
| // i must be <= 24, then adjust i just above lower 8 effective bits of v |
| i += 6 |
| // let x = {the complement of lower 8 effective bits, trailing 00}, y = x + v |
| x := 1<<i - v&(1<<i-1) |
| y := v + x |
| if y, x = uint32(immrot(y)), uint32(immrot(x)); y != 0 && x != 0 { |
| return y, x |
| } |
| return 0, 0 |
| } |
| |
| func immaddr(v int32) int32 { |
| if v >= 0 && v <= 0xfff { |
| return v&0xfff | 1<<24 | 1<<23 /* pre indexing */ /* pre indexing, up */ |
| } |
| if v >= -0xfff && v < 0 { |
| return -v&0xfff | 1<<24 /* pre indexing */ |
| } |
| return 0 |
| } |
| |
| func immfloat(v int32) bool { |
| return v&0xC03 == 0 /* offset will fit in floating-point load/store */ |
| } |
| |
| func immhalf(v int32) bool { |
| if v >= 0 && v <= 0xff { |
| return v|1<<24|1<<23 != 0 /* pre indexing */ /* pre indexing, up */ |
| } |
| if v >= -0xff && v < 0 { |
| return -v&0xff|1<<24 != 0 /* pre indexing */ |
| } |
| return false |
| } |
| |
| func (c *ctxt5) aclass(a *obj.Addr) int { |
| switch a.Type { |
| case obj.TYPE_NONE: |
| return C_NONE |
| |
| case obj.TYPE_REG: |
| c.instoffset = 0 |
| if REG_R0 <= a.Reg && a.Reg <= REG_R15 { |
| return C_REG |
| } |
| if REG_F0 <= a.Reg && a.Reg <= REG_F15 { |
| return C_FREG |
| } |
| if a.Reg == REG_FPSR || a.Reg == REG_FPCR { |
| return C_FCR |
| } |
| if a.Reg == REG_CPSR || a.Reg == REG_SPSR { |
| return C_PSR |
| } |
| return C_GOK |
| |
| case obj.TYPE_REGREG: |
| return C_REGREG |
| |
| case obj.TYPE_REGREG2: |
| return C_REGREG2 |
| |
| case obj.TYPE_REGLIST: |
| return C_REGLIST |
| |
| case obj.TYPE_SHIFT: |
| if a.Reg == 0 { |
| // register shift R>>i |
| return C_SHIFT |
| } else { |
| // memory address with shifted offset R>>i(R) |
| return C_SHIFTADDR |
| } |
| |
| case obj.TYPE_MEM: |
| switch a.Name { |
| case obj.NAME_EXTERN, |
| obj.NAME_GOTREF, |
| obj.NAME_STATIC: |
| if a.Sym == nil || a.Sym.Name == "" { |
| fmt.Printf("null sym external\n") |
| return C_GOK |
| } |
| |
| c.instoffset = 0 // s.b. unused but just in case |
| if a.Sym.Type == objabi.STLSBSS { |
| if c.ctxt.Flag_shared { |
| return C_TLS_IE |
| } else { |
| return C_TLS_LE |
| } |
| } |
| |
| return C_ADDR |
| |
| case obj.NAME_AUTO: |
| if a.Reg == REGSP { |
| // unset base register for better printing, since |
| // a.Offset is still relative to pseudo-SP. |
| a.Reg = obj.REG_NONE |
| } |
| c.instoffset = c.autosize + a.Offset |
| if t := immaddr(int32(c.instoffset)); t != 0 { |
| if immhalf(int32(c.instoffset)) { |
| if immfloat(t) { |
| return C_HFAUTO |
| } |
| return C_HAUTO |
| } |
| |
| if immfloat(t) { |
| return C_FAUTO |
| } |
| return C_SAUTO |
| } |
| |
| return C_LAUTO |
| |
| case obj.NAME_PARAM: |
| if a.Reg == REGSP { |
| // unset base register for better printing, since |
| // a.Offset is still relative to pseudo-FP. |
| a.Reg = obj.REG_NONE |
| } |
| c.instoffset = c.autosize + a.Offset + 4 |
| if t := immaddr(int32(c.instoffset)); t != 0 { |
| if immhalf(int32(c.instoffset)) { |
| if immfloat(t) { |
| return C_HFAUTO |
| } |
| return C_HAUTO |
| } |
| |
| if immfloat(t) { |
| return C_FAUTO |
| } |
| return C_SAUTO |
| } |
| |
| return C_LAUTO |
| |
| case obj.NAME_NONE: |
| c.instoffset = a.Offset |
| if t := immaddr(int32(c.instoffset)); t != 0 { |
| if immhalf(int32(c.instoffset)) { /* n.b. that it will also satisfy immrot */ |
| if immfloat(t) { |
| return C_HFOREG |
| } |
| return C_HOREG |
| } |
| |
| if immfloat(t) { |
| return C_FOREG /* n.b. that it will also satisfy immrot */ |
| } |
| if immrot(uint32(c.instoffset)) != 0 { |
| return C_SROREG |
| } |
| if immhalf(int32(c.instoffset)) { |
| return C_HOREG |
| } |
| return C_SOREG |
| } |
| |
| if immrot(uint32(c.instoffset)) != 0 { |
| return C_ROREG |
| } |
| return C_LOREG |
| } |
| |
| return C_GOK |
| |
| case obj.TYPE_FCONST: |
| if c.chipzero5(a.Val.(float64)) >= 0 { |
| return C_ZFCON |
| } |
| if c.chipfloat5(a.Val.(float64)) >= 0 { |
| return C_SFCON |
| } |
| return C_LFCON |
| |
| case obj.TYPE_TEXTSIZE: |
| return C_TEXTSIZE |
| |
| case obj.TYPE_CONST, |
| obj.TYPE_ADDR: |
| switch a.Name { |
| case obj.NAME_NONE: |
| c.instoffset = a.Offset |
| if a.Reg != 0 { |
| return c.aconsize() |
| } |
| |
| if immrot(uint32(c.instoffset)) != 0 { |
| return C_RCON |
| } |
| if immrot(^uint32(c.instoffset)) != 0 { |
| return C_NCON |
| } |
| if uint32(c.instoffset) <= 0xffff && objabi.GOARM == 7 { |
| return C_SCON |
| } |
| if c.ctxt.Headtype != objabi.Hnacl { |
| // Don't split instructions on NaCl. The validator is not |
| // happy with it. See Issue 20595. |
| if x, y := immrot2a(uint32(c.instoffset)); x != 0 && y != 0 { |
| return C_RCON2A |
| } |
| if y, x := immrot2s(uint32(c.instoffset)); x != 0 && y != 0 { |
| return C_RCON2S |
| } |
| } |
| return C_LCON |
| |
| case obj.NAME_EXTERN, |
| obj.NAME_GOTREF, |
| obj.NAME_STATIC: |
| s := a.Sym |
| if s == nil { |
| break |
| } |
| c.instoffset = 0 // s.b. unused but just in case |
| return C_LCONADDR |
| |
| case obj.NAME_AUTO: |
| if a.Reg == REGSP { |
| // unset base register for better printing, since |
| // a.Offset is still relative to pseudo-SP. |
| a.Reg = obj.REG_NONE |
| } |
| c.instoffset = c.autosize + a.Offset |
| return c.aconsize() |
| |
| case obj.NAME_PARAM: |
| if a.Reg == REGSP { |
| // unset base register for better printing, since |
| // a.Offset is still relative to pseudo-FP. |
| a.Reg = obj.REG_NONE |
| } |
| c.instoffset = c.autosize + a.Offset + 4 |
| return c.aconsize() |
| } |
| |
| return C_GOK |
| |
| case obj.TYPE_BRANCH: |
| return C_SBRA |
| } |
| |
| return C_GOK |
| } |
| |
| func (c *ctxt5) aconsize() int { |
| if immrot(uint32(c.instoffset)) != 0 { |
| return C_RACON |
| } |
| if immrot(uint32(-c.instoffset)) != 0 { |
| return C_RACON |
| } |
| return C_LACON |
| } |
| |
| func (c *ctxt5) oplook(p *obj.Prog) *Optab { |
| a1 := int(p.Optab) |
| if a1 != 0 { |
| return &optab[a1-1] |
| } |
| a1 = int(p.From.Class) |
| if a1 == 0 { |
| a1 = c.aclass(&p.From) + 1 |
| p.From.Class = int8(a1) |
| } |
| |
| a1-- |
| a3 := int(p.To.Class) |
| if a3 == 0 { |
| a3 = c.aclass(&p.To) + 1 |
| p.To.Class = int8(a3) |
| } |
| |
| a3-- |
| a2 := C_NONE |
| if p.Reg != 0 { |
| switch { |
| case REG_F0 <= p.Reg && p.Reg <= REG_F15: |
| a2 = C_FREG |
| case REG_R0 <= p.Reg && p.Reg <= REG_R15: |
| a2 = C_REG |
| default: |
| c.ctxt.Diag("invalid register in %v", p) |
| } |
| } |
| |
| // check illegal base register |
| switch a1 { |
| case C_SOREG, C_LOREG, C_HOREG, C_FOREG, C_ROREG, C_HFOREG, C_SROREG, C_SHIFTADDR: |
| if p.From.Reg < REG_R0 || REG_R15 < p.From.Reg { |
| c.ctxt.Diag("illegal base register: %v", p) |
| } |
| default: |
| } |
| switch a3 { |
| case C_SOREG, C_LOREG, C_HOREG, C_FOREG, C_ROREG, C_HFOREG, C_SROREG, C_SHIFTADDR: |
| if p.To.Reg < REG_R0 || REG_R15 < p.To.Reg { |
| c.ctxt.Diag("illegal base register: %v", p) |
| } |
| default: |
| } |
| |
| // If current instruction has a .S suffix (flags update), |
| // we must use the constant pool instead of splitting it. |
| if (a1 == C_RCON2A || a1 == C_RCON2S) && p.Scond&C_SBIT != 0 { |
| a1 = C_LCON |
| } |
| if (a3 == C_RCON2A || a3 == C_RCON2S) && p.Scond&C_SBIT != 0 { |
| a3 = C_LCON |
| } |
| |
| if false { /*debug['O']*/ |
| fmt.Printf("oplook %v %v %v %v\n", p.As, DRconv(a1), DRconv(a2), DRconv(a3)) |
| fmt.Printf("\t\t%d %d\n", p.From.Type, p.To.Type) |
| } |
| |
| ops := oprange[p.As&obj.AMask] |
| c1 := &xcmp[a1] |
| c3 := &xcmp[a3] |
| for i := range ops { |
| op := &ops[i] |
| if int(op.a2) == a2 && c1[op.a1] && c3[op.a3] { |
| p.Optab = uint16(cap(optab) - cap(ops) + i + 1) |
| checkSuffix(c, p, op) |
| return op |
| } |
| } |
| |
| c.ctxt.Diag("illegal combination %v; %v %v %v; from %d %d; to %d %d", p, DRconv(a1), DRconv(a2), DRconv(a3), p.From.Type, p.From.Name, p.To.Type, p.To.Name) |
| if ops == nil { |
| ops = optab |
| } |
| return &ops[0] |
| } |
| |
| func cmp(a int, b int) bool { |
| if a == b { |
| return true |
| } |
| switch a { |
| case C_LCON: |
| if b == C_RCON || b == C_NCON || b == C_SCON || b == C_RCON2A || b == C_RCON2S { |
| return true |
| } |
| |
| case C_LACON: |
| if b == C_RACON { |
| return true |
| } |
| |
| case C_LFCON: |
| if b == C_ZFCON || b == C_SFCON { |
| return true |
| } |
| |
| case C_HFAUTO: |
| return b == C_HAUTO || b == C_FAUTO |
| |
| case C_FAUTO, C_HAUTO: |
| return b == C_HFAUTO |
| |
| case C_SAUTO: |
| return cmp(C_HFAUTO, b) |
| |
| case C_LAUTO: |
| return cmp(C_SAUTO, b) |
| |
| case C_HFOREG: |
| return b == C_HOREG || b == C_FOREG |
| |
| case C_FOREG, C_HOREG: |
| return b == C_HFOREG |
| |
| case C_SROREG: |
| return cmp(C_SOREG, b) || cmp(C_ROREG, b) |
| |
| case C_SOREG, C_ROREG: |
| return b == C_SROREG || cmp(C_HFOREG, b) |
| |
| case C_LOREG: |
| return cmp(C_SROREG, b) |
| |
| case C_LBRA: |
| if b == C_SBRA { |
| return true |
| } |
| |
| case C_HREG: |
| return cmp(C_SP, b) || cmp(C_PC, b) |
| } |
| |
| return false |
| } |
| |
| type ocmp []Optab |
| |
| func (x ocmp) Len() int { |
| return len(x) |
| } |
| |
| func (x ocmp) Swap(i, j int) { |
| x[i], x[j] = x[j], x[i] |
| } |
| |
| func (x ocmp) Less(i, j int) bool { |
| p1 := &x[i] |
| p2 := &x[j] |
| n := int(p1.as) - int(p2.as) |
| if n != 0 { |
| return n < 0 |
| } |
| n = int(p1.a1) - int(p2.a1) |
| if n != 0 { |
| return n < 0 |
| } |
| n = int(p1.a2) - int(p2.a2) |
| if n != 0 { |
| return n < 0 |
| } |
| n = int(p1.a3) - int(p2.a3) |
| if n != 0 { |
| return n < 0 |
| } |
| return false |
| } |
| |
| func opset(a, b0 obj.As) { |
| oprange[a&obj.AMask] = oprange[b0] |
| } |
| |
| func buildop(ctxt *obj.Link) { |
| if oprange[AAND&obj.AMask] != nil { |
| // Already initialized; stop now. |
| // This happens in the cmd/asm tests, |
| // each of which re-initializes the arch. |
| return |
| } |
| |
| deferreturn = ctxt.Lookup("runtime.deferreturn") |
| |
| symdiv = ctxt.Lookup("runtime._div") |
| symdivu = ctxt.Lookup("runtime._divu") |
| symmod = ctxt.Lookup("runtime._mod") |
| symmodu = ctxt.Lookup("runtime._modu") |
| |
| var n int |
| |
| for i := 0; i < C_GOK; i++ { |
| for n = 0; n < C_GOK; n++ { |
| if cmp(n, i) { |
| xcmp[i][n] = true |
| } |
| } |
| } |
| for n = 0; optab[n].as != obj.AXXX; n++ { |
| if optab[n].flag&LPCREL != 0 { |
| if ctxt.Flag_shared { |
| optab[n].size += int8(optab[n].pcrelsiz) |
| } else { |
| optab[n].flag &^= LPCREL |
| } |
| } |
| } |
| |
| sort.Sort(ocmp(optab[:n])) |
| for i := 0; i < n; i++ { |
| r := optab[i].as |
| r0 := r & obj.AMask |
| start := i |
| for optab[i].as == r { |
| i++ |
| } |
| oprange[r0] = optab[start:i] |
| i-- |
| |
| switch r { |
| default: |
| ctxt.Diag("unknown op in build: %v", r) |
| ctxt.DiagFlush() |
| log.Fatalf("bad code") |
| |
| case AADD: |
| opset(ASUB, r0) |
| opset(ARSB, r0) |
| opset(AADC, r0) |
| opset(ASBC, r0) |
| opset(ARSC, r0) |
| |
| case AORR: |
| opset(AEOR, r0) |
| opset(ABIC, r0) |
| |
| case ACMP: |
| opset(ATEQ, r0) |
| opset(ACMN, r0) |
| opset(ATST, r0) |
| |
| case AMVN: |
| break |
| |
| case ABEQ: |
| opset(ABNE, r0) |
| opset(ABCS, r0) |
| opset(ABHS, r0) |
| opset(ABCC, r0) |
| opset(ABLO, r0) |
| opset(ABMI, r0) |
| opset(ABPL, r0) |
| opset(ABVS, r0) |
| opset(ABVC, r0) |
| opset(ABHI, r0) |
| opset(ABLS, r0) |
| opset(ABGE, r0) |
| opset(ABLT, r0) |
| opset(ABGT, r0) |
| opset(ABLE, r0) |
| |
| case ASLL: |
| opset(ASRL, r0) |
| opset(ASRA, r0) |
| |
| case AMUL: |
| opset(AMULU, r0) |
| |
| case ADIV: |
| opset(AMOD, r0) |
| opset(AMODU, r0) |
| opset(ADIVU, r0) |
| |
| case ADIVHW: |
| opset(ADIVUHW, r0) |
| |
| case AMOVW, |
| AMOVB, |
| AMOVBS, |
| AMOVBU, |
| AMOVH, |
| AMOVHS, |
| AMOVHU: |
| break |
| |
| case ASWPW: |
| opset(ASWPBU, r0) |
| |
| case AB, |
| ABL, |
| ABX, |
| ABXRET, |
| obj.ADUFFZERO, |
| obj.ADUFFCOPY, |
| ASWI, |
| AWORD, |
| AMOVM, |
| ARFE, |
| obj.ATEXT: |
| break |
| |
| case AADDF: |
| opset(AADDD, r0) |
| opset(ASUBF, r0) |
| opset(ASUBD, r0) |
| opset(AMULF, r0) |
| opset(AMULD, r0) |
| opset(ANMULF, r0) |
| opset(ANMULD, r0) |
| opset(AMULAF, r0) |
| opset(AMULAD, r0) |
| opset(AMULSF, r0) |
| opset(AMULSD, r0) |
| opset(ANMULAF, r0) |
| opset(ANMULAD, r0) |
| opset(ANMULSF, r0) |
| opset(ANMULSD, r0) |
| opset(AFMULAF, r0) |
| opset(AFMULAD, r0) |
| opset(AFMULSF, r0) |
| opset(AFMULSD, r0) |
| opset(AFNMULAF, r0) |
| opset(AFNMULAD, r0) |
| opset(AFNMULSF, r0) |
| opset(AFNMULSD, r0) |
| opset(ADIVF, r0) |
| opset(ADIVD, r0) |
| |
| case ANEGF: |
| opset(ANEGD, r0) |
| opset(ASQRTF, r0) |
| opset(ASQRTD, r0) |
| opset(AMOVFD, r0) |
| opset(AMOVDF, r0) |
| opset(AABSF, r0) |
| opset(AABSD, r0) |
| |
| case ACMPF: |
| opset(ACMPD, r0) |
| |
| case AMOVF: |
| opset(AMOVD, r0) |
| |
| case AMOVFW: |
| opset(AMOVDW, r0) |
| |
| case AMOVWF: |
| opset(AMOVWD, r0) |
| |
| case AMULL: |
| opset(AMULAL, r0) |
| opset(AMULLU, r0) |
| opset(AMULALU, r0) |
| |
| case AMULWT: |
| opset(AMULWB, r0) |
| opset(AMULBB, r0) |
| opset(AMMUL, r0) |
| |
| case AMULAWT: |
| opset(AMULAWB, r0) |
| opset(AMULABB, r0) |
| opset(AMULS, r0) |
| opset(AMMULA, r0) |
| opset(AMMULS, r0) |
| |
| case ABFX: |
| opset(ABFXU, r0) |
| opset(ABFC, r0) |
| opset(ABFI, r0) |
| |
| case ACLZ: |
| opset(AREV, r0) |
| opset(AREV16, r0) |
| opset(AREVSH, r0) |
| opset(ARBIT, r0) |
| |
| case AXTAB: |
| opset(AXTAH, r0) |
| opset(AXTABU, r0) |
| opset(AXTAHU, r0) |
| |
| case ALDREX, |
| ASTREX, |
| ALDREXD, |
| ASTREXD, |
| APLD, |
| AAND, |
| AMULA, |
| obj.AUNDEF, |
| obj.AFUNCDATA, |
| obj.APCDATA, |
| obj.ANOP, |
| ADATABUNDLE, |
| ADATABUNDLEEND: |
| break |
| } |
| } |
| } |
| |
| func (c *ctxt5) asmout(p *obj.Prog, o *Optab, out []uint32) { |
| c.printp = p |
| o1 := uint32(0) |
| o2 := uint32(0) |
| o3 := uint32(0) |
| o4 := uint32(0) |
| o5 := uint32(0) |
| o6 := uint32(0) |
| if false { /*debug['P']*/ |
| fmt.Printf("%x: %v\ttype %d\n", uint32(p.Pc), p, o.type_) |
| } |
| switch o.type_ { |
| default: |
| c.ctxt.Diag("%v: unknown asm %d", p, o.type_) |
| |
| case 0: /* pseudo ops */ |
| if false { /*debug['G']*/ |
| fmt.Printf("%x: %s: arm\n", uint32(p.Pc), p.From.Sym.Name) |
| } |
| |
| case 1: /* op R,[R],R */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| |
| rf := int(p.From.Reg) |
| rt := int(p.To.Reg) |
| r := int(p.Reg) |
| if p.To.Type == obj.TYPE_NONE { |
| rt = 0 |
| } |
| if p.As == AMOVB || p.As == AMOVH || p.As == AMOVW || p.As == AMVN { |
| r = 0 |
| } else if r == 0 { |
| r = rt |
| } |
| o1 |= (uint32(rf)&15)<<0 | (uint32(r)&15)<<16 | (uint32(rt)&15)<<12 |
| |
| case 2: /* movbu $I,[R],R */ |
| c.aclass(&p.From) |
| |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| o1 |= uint32(immrot(uint32(c.instoffset))) |
| rt := int(p.To.Reg) |
| r := int(p.Reg) |
| if p.To.Type == obj.TYPE_NONE { |
| rt = 0 |
| } |
| if p.As == AMOVW || p.As == AMVN { |
| r = 0 |
| } else if r == 0 { |
| r = rt |
| } |
| o1 |= (uint32(r)&15)<<16 | (uint32(rt)&15)<<12 |
| |
| case 106: /* op $I,R,R where I can be decomposed into 2 immediates */ |
| c.aclass(&p.From) |
| r := int(p.Reg) |
| rt := int(p.To.Reg) |
| if r == 0 { |
| r = rt |
| } |
| x, y := immrot2a(uint32(c.instoffset)) |
| var as2 obj.As |
| switch p.As { |
| case AADD, ASUB, AORR, AEOR, ABIC: |
| as2 = p.As // ADD, SUB, ORR, EOR, BIC |
| case ARSB: |
| as2 = AADD // RSB -> RSB/ADD pair |
| case AADC: |
| as2 = AADD // ADC -> ADC/ADD pair |
| case ASBC: |
| as2 = ASUB // SBC -> SBC/SUB pair |
| case ARSC: |
| as2 = AADD // RSC -> RSC/ADD pair |
| default: |
| c.ctxt.Diag("unknown second op for %v", p) |
| } |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| o2 = c.oprrr(p, as2, int(p.Scond)) |
| o1 |= (uint32(r)&15)<<16 | (uint32(rt)&15)<<12 |
| o2 |= (uint32(rt)&15)<<16 | (uint32(rt)&15)<<12 |
| o1 |= x |
| o2 |= y |
| |
| case 107: /* op $I,R,R where I can be decomposed into 2 immediates */ |
| c.aclass(&p.From) |
| r := int(p.Reg) |
| rt := int(p.To.Reg) |
| if r == 0 { |
| r = rt |
| } |
| y, x := immrot2s(uint32(c.instoffset)) |
| var as2 obj.As |
| switch p.As { |
| case AADD: |
| as2 = ASUB // ADD -> ADD/SUB pair |
| case ASUB: |
| as2 = AADD // SUB -> SUB/ADD pair |
| case ARSB: |
| as2 = ASUB // RSB -> RSB/SUB pair |
| case AADC: |
| as2 = ASUB // ADC -> ADC/SUB pair |
| case ASBC: |
| as2 = AADD // SBC -> SBC/ADD pair |
| case ARSC: |
| as2 = ASUB // RSC -> RSC/SUB pair |
| default: |
| c.ctxt.Diag("unknown second op for %v", p) |
| } |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| o2 = c.oprrr(p, as2, int(p.Scond)) |
| o1 |= (uint32(r)&15)<<16 | (uint32(rt)&15)<<12 |
| o2 |= (uint32(rt)&15)<<16 | (uint32(rt)&15)<<12 |
| o1 |= y |
| o2 |= x |
| |
| case 3: /* add R<<[IR],[R],R */ |
| o1 = c.mov(p) |
| |
| case 4: /* MOVW $off(R), R -> add $off,[R],R */ |
| c.aclass(&p.From) |
| if c.instoffset < 0 { |
| o1 = c.oprrr(p, ASUB, int(p.Scond)) |
| o1 |= uint32(immrot(uint32(-c.instoffset))) |
| } else { |
| o1 = c.oprrr(p, AADD, int(p.Scond)) |
| o1 |= uint32(immrot(uint32(c.instoffset))) |
| } |
| r := int(p.From.Reg) |
| if r == 0 { |
| r = int(o.param) |
| } |
| o1 |= (uint32(r) & 15) << 16 |
| o1 |= (uint32(p.To.Reg) & 15) << 12 |
| |
| case 5: /* bra s */ |
| o1 = c.opbra(p, p.As, int(p.Scond)) |
| |
| v := int32(-8) |
| if p.To.Sym != nil { |
| rel := obj.Addrel(c.cursym) |
| rel.Off = int32(c.pc) |
| rel.Siz = 4 |
| rel.Sym = p.To.Sym |
| v += int32(p.To.Offset) |
| rel.Add = int64(o1) | (int64(v)>>2)&0xffffff |
| rel.Type = objabi.R_CALLARM |
| break |
| } |
| |
| if p.Pcond != nil { |
| v = int32((p.Pcond.Pc - c.pc) - 8) |
| } |
| o1 |= (uint32(v) >> 2) & 0xffffff |
| |
| case 6: /* b ,O(R) -> add $O,R,PC */ |
| c.aclass(&p.To) |
| |
| o1 = c.oprrr(p, AADD, int(p.Scond)) |
| o1 |= uint32(immrot(uint32(c.instoffset))) |
| o1 |= (uint32(p.To.Reg) & 15) << 16 |
| o1 |= (REGPC & 15) << 12 |
| |
| case 7: /* bl (R) -> blx R */ |
| c.aclass(&p.To) |
| |
| if c.instoffset != 0 { |
| c.ctxt.Diag("%v: doesn't support BL offset(REG) with non-zero offset %d", p, c.instoffset) |
| } |
| o1 = c.oprrr(p, ABL, int(p.Scond)) |
| o1 |= (uint32(p.To.Reg) & 15) << 0 |
| rel := obj.Addrel(c.cursym) |
| rel.Off = int32(c.pc) |
| rel.Siz = 0 |
| rel.Type = objabi.R_CALLIND |
| |
| case 8: /* sll $c,[R],R -> mov (R<<$c),R */ |
| c.aclass(&p.From) |
| |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| r := int(p.Reg) |
| if r == 0 { |
| r = int(p.To.Reg) |
| } |
| o1 |= (uint32(r) & 15) << 0 |
| o1 |= uint32((c.instoffset & 31) << 7) |
| o1 |= (uint32(p.To.Reg) & 15) << 12 |
| |
| case 9: /* sll R,[R],R -> mov (R<<R),R */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| |
| r := int(p.Reg) |
| if r == 0 { |
| r = int(p.To.Reg) |
| } |
| o1 |= (uint32(r) & 15) << 0 |
| o1 |= (uint32(p.From.Reg)&15)<<8 | 1<<4 |
| o1 |= (uint32(p.To.Reg) & 15) << 12 |
| |
| case 10: /* swi [$con] */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| |
| if p.To.Type != obj.TYPE_NONE { |
| c.aclass(&p.To) |
| o1 |= uint32(c.instoffset & 0xffffff) |
| } |
| |
| case 11: /* word */ |
| c.aclass(&p.To) |
| |
| o1 = uint32(c.instoffset) |
| if p.To.Sym != nil { |
| // This case happens with words generated |
| // in the PC stream as part of the literal pool (c.pool). |
| rel := obj.Addrel(c.cursym) |
| |
| rel.Off = int32(c.pc) |
| rel.Siz = 4 |
| rel.Sym = p.To.Sym |
| rel.Add = p.To.Offset |
| |
| if c.ctxt.Flag_shared { |
| if p.To.Name == obj.NAME_GOTREF { |
| rel.Type = objabi.R_GOTPCREL |
| } else { |
| rel.Type = objabi.R_PCREL |
| } |
| rel.Add += c.pc - p.Rel.Pc - 8 |
| } else { |
| rel.Type = objabi.R_ADDR |
| } |
| o1 = 0 |
| } |
| |
| case 12: /* movw $lcon, reg */ |
| if o.a1 == C_SCON { |
| o1 = c.omvs(p, &p.From, int(p.To.Reg)) |
| } else if p.As == AMVN { |
| o1 = c.omvr(p, &p.From, int(p.To.Reg)) |
| } else { |
| o1 = c.omvl(p, &p.From, int(p.To.Reg)) |
| } |
| |
| if o.flag&LPCREL != 0 { |
| o2 = c.oprrr(p, AADD, int(p.Scond)) | (uint32(p.To.Reg)&15)<<0 | (REGPC&15)<<16 | (uint32(p.To.Reg)&15)<<12 |
| } |
| |
| case 13: /* op $lcon, [R], R */ |
| if o.a1 == C_SCON { |
| o1 = c.omvs(p, &p.From, REGTMP) |
| } else { |
| o1 = c.omvl(p, &p.From, REGTMP) |
| } |
| |
| if o1 == 0 { |
| break |
| } |
| o2 = c.oprrr(p, p.As, int(p.Scond)) |
| o2 |= REGTMP & 15 |
| r := int(p.Reg) |
| if p.As == AMOVW || p.As == AMVN { |
| r = 0 |
| } else if r == 0 { |
| r = int(p.To.Reg) |
| } |
| o2 |= (uint32(r) & 15) << 16 |
| if p.To.Type != obj.TYPE_NONE { |
| o2 |= (uint32(p.To.Reg) & 15) << 12 |
| } |
| |
| case 14: /* movb/movbu/movh/movhu R,R */ |
| o1 = c.oprrr(p, ASLL, int(p.Scond)) |
| |
| if p.As == AMOVBU || p.As == AMOVHU { |
| o2 = c.oprrr(p, ASRL, int(p.Scond)) |
| } else { |
| o2 = c.oprrr(p, ASRA, int(p.Scond)) |
| } |
| |
| r := int(p.To.Reg) |
| o1 |= (uint32(p.From.Reg)&15)<<0 | (uint32(r)&15)<<12 |
| o2 |= uint32(r)&15 | (uint32(r)&15)<<12 |
| if p.As == AMOVB || p.As == AMOVBS || p.As == AMOVBU { |
| o1 |= 24 << 7 |
| o2 |= 24 << 7 |
| } else { |
| o1 |= 16 << 7 |
| o2 |= 16 << 7 |
| } |
| |
| case 15: /* mul r,[r,]r */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| |
| rf := int(p.From.Reg) |
| rt := int(p.To.Reg) |
| r := int(p.Reg) |
| if r == 0 { |
| r = rt |
| } |
| if rt == r { |
| r = rf |
| rf = rt |
| } |
| |
| if false { |
| if rt == r || rf == REGPC&15 || r == REGPC&15 || rt == REGPC&15 { |
| c.ctxt.Diag("%v: bad registers in MUL", p) |
| } |
| } |
| |
| o1 |= (uint32(rf)&15)<<8 | (uint32(r)&15)<<0 | (uint32(rt)&15)<<16 |
| |
| case 16: /* div r,[r,]r */ |
| o1 = 0xf << 28 |
| |
| o2 = 0 |
| |
| case 17: |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| rf := int(p.From.Reg) |
| rt := int(p.To.Reg) |
| rt2 := int(p.To.Offset) |
| r := int(p.Reg) |
| o1 |= (uint32(rf)&15)<<8 | (uint32(r)&15)<<0 | (uint32(rt)&15)<<16 | (uint32(rt2)&15)<<12 |
| |
| case 18: /* BFX/BFXU/BFC/BFI */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| rt := int(p.To.Reg) |
| r := int(p.Reg) |
| if r == 0 { |
| r = rt |
| } else if p.As == ABFC { // only "BFC $width, $lsb, Reg" is accepted, p.Reg must be 0 |
| c.ctxt.Diag("illegal combination: %v", p) |
| } |
| if p.GetFrom3() == nil || p.GetFrom3().Type != obj.TYPE_CONST { |
| c.ctxt.Diag("%v: missing or wrong LSB", p) |
| break |
| } |
| lsb := p.GetFrom3().Offset |
| width := p.From.Offset |
| if lsb < 0 || lsb > 31 || width <= 0 || (lsb+width) > 32 { |
| c.ctxt.Diag("%v: wrong width or LSB", p) |
| } |
| switch p.As { |
| case ABFX, ABFXU: // (width-1) is encoded |
| o1 |= (uint32(r)&15)<<0 | (uint32(rt)&15)<<12 | uint32(lsb)<<7 | uint32(width-1)<<16 |
| case ABFC, ABFI: // MSB is encoded |
| o1 |= (uint32(r)&15)<<0 | (uint32(rt)&15)<<12 | uint32(lsb)<<7 | uint32(lsb+width-1)<<16 |
| default: |
| c.ctxt.Diag("illegal combination: %v", p) |
| } |
| |
| case 20: /* mov/movb/movbu R,O(R) */ |
| c.aclass(&p.To) |
| |
| r := int(p.To.Reg) |
| if r == 0 { |
| r = int(o.param) |
| } |
| o1 = c.osr(p.As, int(p.From.Reg), int32(c.instoffset), r, int(p.Scond)) |
| |
| case 21: /* mov/movbu O(R),R -> lr */ |
| c.aclass(&p.From) |
| |
| r := int(p.From.Reg) |
| if r == 0 { |
| r = int(o.param) |
| } |
| o1 = c.olr(int32(c.instoffset), r, int(p.To.Reg), int(p.Scond)) |
| if p.As != AMOVW { |
| o1 |= 1 << 22 |
| } |
| |
| case 22: /* XTAB R@>i, [R], R */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| switch p.From.Offset &^ 0xf { |
| // only 0/8/16/24 bits rotation is accepted |
| case SHIFT_RR, SHIFT_RR | 8<<7, SHIFT_RR | 16<<7, SHIFT_RR | 24<<7: |
| o1 |= uint32(p.From.Offset) & 0xc0f |
| default: |
| c.ctxt.Diag("illegal shift: %v", p) |
| } |
| rt := p.To.Reg |
| r := p.Reg |
| if r == 0 { |
| r = rt |
| } |
| o1 |= (uint32(rt)&15)<<12 | (uint32(r)&15)<<16 |
| |
| case 23: /* MOVW/MOVB/MOVH R@>i, R */ |
| switch p.As { |
| case AMOVW: |
| o1 = c.mov(p) |
| case AMOVBU, AMOVBS, AMOVB, AMOVHU, AMOVHS, AMOVH: |
| o1 = c.movxt(p) |
| default: |
| c.ctxt.Diag("illegal combination: %v", p) |
| } |
| |
| case 30: /* mov/movb/movbu R,L(R) */ |
| o1 = c.omvl(p, &p.To, REGTMP) |
| |
| if o1 == 0 { |
| break |
| } |
| r := int(p.To.Reg) |
| if r == 0 { |
| r = int(o.param) |
| } |
| o2 = c.osrr(int(p.From.Reg), REGTMP&15, r, int(p.Scond)) |
| if p.As != AMOVW { |
| o2 |= 1 << 22 |
| } |
| |
| case 31: /* mov/movbu L(R),R -> lr[b] */ |
| o1 = c.omvl(p, &p.From, REGTMP) |
| |
| if o1 == 0 { |
| break |
| } |
| r := int(p.From.Reg) |
| if r == 0 { |
| r = int(o.param) |
| } |
| o2 = c.olrr(REGTMP&15, r, int(p.To.Reg), int(p.Scond)) |
| if p.As == AMOVBU || p.As == AMOVBS || p.As == AMOVB { |
| o2 |= 1 << 22 |
| } |
| |
| case 34: /* mov $lacon,R */ |
| o1 = c.omvl(p, &p.From, REGTMP) |
| |
| if o1 == 0 { |
| break |
| } |
| |
| o2 = c.oprrr(p, AADD, int(p.Scond)) |
| o2 |= REGTMP & 15 |
| r := int(p.From.Reg) |
| if r == 0 { |
| r = int(o.param) |
| } |
| o2 |= (uint32(r) & 15) << 16 |
| if p.To.Type != obj.TYPE_NONE { |
| o2 |= (uint32(p.To.Reg) & 15) << 12 |
| } |
| |
| case 35: /* mov PSR,R */ |
| o1 = 2<<23 | 0xf<<16 | 0<<0 |
| |
| o1 |= ((uint32(p.Scond) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| o1 |= (uint32(p.From.Reg) & 1) << 22 |
| o1 |= (uint32(p.To.Reg) & 15) << 12 |
| |
| case 36: /* mov R,PSR */ |
| o1 = 2<<23 | 0x2cf<<12 | 0<<4 |
| |
| if p.Scond&C_FBIT != 0 { |
| o1 ^= 0x010 << 12 |
| } |
| o1 |= ((uint32(p.Scond) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| o1 |= (uint32(p.To.Reg) & 1) << 22 |
| o1 |= (uint32(p.From.Reg) & 15) << 0 |
| |
| case 37: /* mov $con,PSR */ |
| c.aclass(&p.From) |
| |
| o1 = 2<<23 | 0x2cf<<12 | 0<<4 |
| if p.Scond&C_FBIT != 0 { |
| o1 ^= 0x010 << 12 |
| } |
| o1 |= ((uint32(p.Scond) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| o1 |= uint32(immrot(uint32(c.instoffset))) |
| o1 |= (uint32(p.To.Reg) & 1) << 22 |
| o1 |= (uint32(p.From.Reg) & 15) << 0 |
| |
| case 38, 39: |
| switch o.type_ { |
| case 38: /* movm $con,oreg -> stm */ |
| o1 = 0x4 << 25 |
| |
| o1 |= uint32(p.From.Offset & 0xffff) |
| o1 |= (uint32(p.To.Reg) & 15) << 16 |
| c.aclass(&p.To) |
| |
| case 39: /* movm oreg,$con -> ldm */ |
| o1 = 0x4<<25 | 1<<20 |
| |
| o1 |= uint32(p.To.Offset & 0xffff) |
| o1 |= (uint32(p.From.Reg) & 15) << 16 |
| c.aclass(&p.From) |
| } |
| |
| if c.instoffset != 0 { |
| c.ctxt.Diag("offset must be zero in MOVM; %v", p) |
| } |
| o1 |= ((uint32(p.Scond) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| if p.Scond&C_PBIT != 0 { |
| o1 |= 1 << 24 |
| } |
| if p.Scond&C_UBIT != 0 { |
| o1 |= 1 << 23 |
| } |
| if p.Scond&C_WBIT != 0 { |
| o1 |= 1 << 21 |
| } |
| |
| case 40: /* swp oreg,reg,reg */ |
| c.aclass(&p.From) |
| |
| if c.instoffset != 0 { |
| c.ctxt.Diag("offset must be zero in SWP") |
| } |
| o1 = 0x2<<23 | 0x9<<4 |
| if p.As != ASWPW { |
| o1 |= 1 << 22 |
| } |
| o1 |= (uint32(p.From.Reg) & 15) << 16 |
| o1 |= (uint32(p.Reg) & 15) << 0 |
| o1 |= (uint32(p.To.Reg) & 15) << 12 |
| o1 |= ((uint32(p.Scond) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| |
| case 41: /* rfe -> movm.s.w.u 0(r13),[r15] */ |
| o1 = 0xe8fd8000 |
| |
| case 50: /* floating point store */ |
| v := c.regoff(&p.To) |
| |
| r := int(p.To.Reg) |
| if r == 0 { |
| r = int(o.param) |
| } |
| o1 = c.ofsr(p.As, int(p.From.Reg), v, r, int(p.Scond), p) |
| |
| case 51: /* floating point load */ |
| v := c.regoff(&p.From) |
| |
| r := int(p.From.Reg) |
| if r == 0 { |
| r = int(o.param) |
| } |
| o1 = c.ofsr(p.As, int(p.To.Reg), v, r, int(p.Scond), p) | 1<<20 |
| |
| case 52: /* floating point store, int32 offset UGLY */ |
| o1 = c.omvl(p, &p.To, REGTMP) |
| |
| if o1 == 0 { |
| break |
| } |
| r := int(p.To.Reg) |
| if r == 0 { |
| r = int(o.param) |
| } |
| o2 = c.oprrr(p, AADD, int(p.Scond)) | (REGTMP&15)<<12 | (REGTMP&15)<<16 | (uint32(r)&15)<<0 |
| o3 = c.ofsr(p.As, int(p.From.Reg), 0, REGTMP, int(p.Scond), p) |
| |
| case 53: /* floating point load, int32 offset UGLY */ |
| o1 = c.omvl(p, &p.From, REGTMP) |
| |
| if o1 == 0 { |
| break |
| } |
| r := int(p.From.Reg) |
| if r == 0 { |
| r = int(o.param) |
| } |
| o2 = c.oprrr(p, AADD, int(p.Scond)) | (REGTMP&15)<<12 | (REGTMP&15)<<16 | (uint32(r)&15)<<0 |
| o3 = c.ofsr(p.As, int(p.To.Reg), 0, (REGTMP&15), int(p.Scond), p) | 1<<20 |
| |
| case 54: /* floating point arith */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| |
| rf := int(p.From.Reg) |
| rt := int(p.To.Reg) |
| r := int(p.Reg) |
| if r == 0 { |
| switch p.As { |
| case AMULAD, AMULAF, AMULSF, AMULSD, ANMULAF, ANMULAD, ANMULSF, ANMULSD, |
| AFMULAD, AFMULAF, AFMULSF, AFMULSD, AFNMULAF, AFNMULAD, AFNMULSF, AFNMULSD: |
| c.ctxt.Diag("illegal combination: %v", p) |
| default: |
| r = rt |
| } |
| } |
| |
| o1 |= (uint32(rf)&15)<<0 | (uint32(r)&15)<<16 | (uint32(rt)&15)<<12 |
| |
| case 55: /* negf freg, freg */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| |
| rf := int(p.From.Reg) |
| rt := int(p.To.Reg) |
| |
| o1 |= (uint32(rf)&15)<<0 | (uint32(rt)&15)<<12 |
| |
| case 56: /* move to FP[CS]R */ |
| o1 = ((uint32(p.Scond)&C_SCOND)^C_SCOND_XOR)<<28 | 0xee1<<16 | 0xa1<<4 |
| |
| o1 |= (uint32(p.From.Reg) & 15) << 12 |
| |
| case 57: /* move from FP[CS]R */ |
| o1 = ((uint32(p.Scond)&C_SCOND)^C_SCOND_XOR)<<28 | 0xef1<<16 | 0xa1<<4 |
| |
| o1 |= (uint32(p.To.Reg) & 15) << 12 |
| |
| case 58: /* movbu R,R */ |
| o1 = c.oprrr(p, AAND, int(p.Scond)) |
| |
| o1 |= uint32(immrot(0xff)) |
| rt := int(p.To.Reg) |
| r := int(p.From.Reg) |
| if p.To.Type == obj.TYPE_NONE { |
| rt = 0 |
| } |
| if r == 0 { |
| r = rt |
| } |
| o1 |= (uint32(r)&15)<<16 | (uint32(rt)&15)<<12 |
| |
| case 59: /* movw/bu R<<I(R),R -> ldr indexed */ |
| if p.From.Reg == 0 { |
| c.ctxt.Diag("source operand is not a memory address: %v", p) |
| break |
| } |
| if p.From.Offset&(1<<4) != 0 { |
| c.ctxt.Diag("bad shift in LDR") |
| break |
| } |
| o1 = c.olrr(int(p.From.Offset), int(p.From.Reg), int(p.To.Reg), int(p.Scond)) |
| if p.As == AMOVBU { |
| o1 |= 1 << 22 |
| } |
| |
| case 60: /* movb R(R),R -> ldrsb indexed */ |
| if p.From.Reg == 0 { |
| c.ctxt.Diag("source operand is not a memory address: %v", p) |
| break |
| } |
| if p.From.Offset&(^0xf) != 0 { |
| c.ctxt.Diag("bad shift: %v", p) |
| break |
| } |
| o1 = c.olhrr(int(p.From.Offset), int(p.From.Reg), int(p.To.Reg), int(p.Scond)) |
| switch p.As { |
| case AMOVB, AMOVBS: |
| o1 ^= 1<<5 | 1<<6 |
| case AMOVH, AMOVHS: |
| o1 ^= 1 << 6 |
| default: |
| } |
| if p.Scond&C_UBIT != 0 { |
| o1 &^= 1 << 23 |
| } |
| |
| case 61: /* movw/b/bu R,R<<[IR](R) -> str indexed */ |
| if p.To.Reg == 0 { |
| c.ctxt.Diag("MOV to shifter operand") |
| } |
| o1 = c.osrr(int(p.From.Reg), int(p.To.Offset), int(p.To.Reg), int(p.Scond)) |
| if p.As == AMOVB || p.As == AMOVBS || p.As == AMOVBU { |
| o1 |= 1 << 22 |
| } |
| |
| case 62: /* MOVH/MOVHS/MOVHU Reg, Reg<<0(Reg) -> strh */ |
| if p.To.Reg == 0 { |
| c.ctxt.Diag("MOV to shifter operand") |
| } |
| if p.To.Offset&(^0xf) != 0 { |
| c.ctxt.Diag("bad shift: %v", p) |
| } |
| o1 = c.olhrr(int(p.To.Offset), int(p.To.Reg), int(p.From.Reg), int(p.Scond)) |
| o1 ^= 1 << 20 |
| if p.Scond&C_UBIT != 0 { |
| o1 &^= 1 << 23 |
| } |
| |
| /* reloc ops */ |
| case 64: /* mov/movb/movbu R,addr */ |
| o1 = c.omvl(p, &p.To, REGTMP) |
| |
| if o1 == 0 { |
| break |
| } |
| o2 = c.osr(p.As, int(p.From.Reg), 0, REGTMP, int(p.Scond)) |
| if o.flag&LPCREL != 0 { |
| o3 = o2 |
| o2 = c.oprrr(p, AADD, int(p.Scond)) | REGTMP&15 | (REGPC&15)<<16 | (REGTMP&15)<<12 |
| } |
| |
| case 65: /* mov/movbu addr,R */ |
| o1 = c.omvl(p, &p.From, REGTMP) |
| |
| if o1 == 0 { |
| break |
| } |
| o2 = c.olr(0, REGTMP, int(p.To.Reg), int(p.Scond)) |
| if p.As == AMOVBU || p.As == AMOVBS || p.As == AMOVB { |
| o2 |= 1 << 22 |
| } |
| if o.flag&LPCREL != 0 { |
| o3 = o2 |
| o2 = c.oprrr(p, AADD, int(p.Scond)) | REGTMP&15 | (REGPC&15)<<16 | (REGTMP&15)<<12 |
| } |
| |
| case 101: /* movw tlsvar,R, local exec*/ |
| o1 = c.omvl(p, &p.From, int(p.To.Reg)) |
| |
| case 102: /* movw tlsvar,R, initial exec*/ |
| o1 = c.omvl(p, &p.From, int(p.To.Reg)) |
| o2 = c.olrr(int(p.To.Reg)&15, (REGPC & 15), int(p.To.Reg), int(p.Scond)) |
| |
| case 103: /* word tlsvar, local exec */ |
| if p.To.Sym == nil { |
| c.ctxt.Diag("nil sym in tls %v", p) |
| } |
| if p.To.Offset != 0 { |
| c.ctxt.Diag("offset against tls var in %v", p) |
| } |
| // This case happens with words generated in the PC stream as part of |
| // the literal c.pool. |
| rel := obj.Addrel(c.cursym) |
| |
| rel.Off = int32(c.pc) |
| rel.Siz = 4 |
| rel.Sym = p.To.Sym |
| rel.Type = objabi.R_TLS_LE |
| o1 = 0 |
| |
| case 104: /* word tlsvar, initial exec */ |
| if p.To.Sym == nil { |
| c.ctxt.Diag("nil sym in tls %v", p) |
| } |
| if p.To.Offset != 0 { |
| c.ctxt.Diag("offset against tls var in %v", p) |
| } |
| rel := obj.Addrel(c.cursym) |
| rel.Off = int32(c.pc) |
| rel.Siz = 4 |
| rel.Sym = p.To.Sym |
| rel.Type = objabi.R_TLS_IE |
| rel.Add = c.pc - p.Rel.Pc - 8 - int64(rel.Siz) |
| |
| case 68: /* floating point store -> ADDR */ |
| o1 = c.omvl(p, &p.To, REGTMP) |
| |
| if o1 == 0 { |
| break |
| } |
| o2 = c.ofsr(p.As, int(p.From.Reg), 0, REGTMP, int(p.Scond), p) |
| if o.flag&LPCREL != 0 { |
| o3 = o2 |
| o2 = c.oprrr(p, AADD, int(p.Scond)) | REGTMP&15 | (REGPC&15)<<16 | (REGTMP&15)<<12 |
| } |
| |
| case 69: /* floating point load <- ADDR */ |
| o1 = c.omvl(p, &p.From, REGTMP) |
| |
| if o1 == 0 { |
| break |
| } |
| o2 = c.ofsr(p.As, int(p.To.Reg), 0, (REGTMP&15), int(p.Scond), p) | 1<<20 |
| if o.flag&LPCREL != 0 { |
| o3 = o2 |
| o2 = c.oprrr(p, AADD, int(p.Scond)) | REGTMP&15 | (REGPC&15)<<16 | (REGTMP&15)<<12 |
| } |
| |
| /* ArmV4 ops: */ |
| case 70: /* movh/movhu R,O(R) -> strh */ |
| c.aclass(&p.To) |
| |
| r := int(p.To.Reg) |
| if r == 0 { |
| r = int(o.param) |
| } |
| o1 = c.oshr(int(p.From.Reg), int32(c.instoffset), r, int(p.Scond)) |
| |
| case 71: /* movb/movh/movhu O(R),R -> ldrsb/ldrsh/ldrh */ |
| c.aclass(&p.From) |
| |
| r := int(p.From.Reg) |
| if r == 0 { |
| r = int(o.param) |
| } |
| o1 = c.olhr(int32(c.instoffset), r, int(p.To.Reg), int(p.Scond)) |
| if p.As == AMOVB || p.As == AMOVBS { |
| o1 ^= 1<<5 | 1<<6 |
| } else if p.As == AMOVH || p.As == AMOVHS { |
| o1 ^= (1 << 6) |
| } |
| |
| case 72: /* movh/movhu R,L(R) -> strh */ |
| o1 = c.omvl(p, &p.To, REGTMP) |
| |
| if o1 == 0 { |
| break |
| } |
| r := int(p.To.Reg) |
| if r == 0 { |
| r = int(o.param) |
| } |
| o2 = c.oshrr(int(p.From.Reg), REGTMP&15, r, int(p.Scond)) |
| |
| case 73: /* movb/movh/movhu L(R),R -> ldrsb/ldrsh/ldrh */ |
| o1 = c.omvl(p, &p.From, REGTMP) |
| |
| if o1 == 0 { |
| break |
| } |
| r := int(p.From.Reg) |
| if r == 0 { |
| r = int(o.param) |
| } |
| o2 = c.olhrr(REGTMP&15, r, int(p.To.Reg), int(p.Scond)) |
| if p.As == AMOVB || p.As == AMOVBS { |
| o2 ^= 1<<5 | 1<<6 |
| } else if p.As == AMOVH || p.As == AMOVHS { |
| o2 ^= (1 << 6) |
| } |
| |
| case 74: /* bx $I */ |
| c.ctxt.Diag("ABX $I") |
| |
| case 75: /* bx O(R) */ |
| c.aclass(&p.To) |
| |
| if c.instoffset != 0 { |
| c.ctxt.Diag("non-zero offset in ABX") |
| } |
| |
| /* |
| o1 = c.oprrr(p, AADD, p->scond) | immrot(0) | ((REGPC&15)<<16) | ((REGLINK&15)<<12); // mov PC, LR |
| o2 = (((p->scond&C_SCOND) ^ C_SCOND_XOR)<<28) | (0x12fff<<8) | (1<<4) | ((p->to.reg&15) << 0); // BX R |
| */ |
| // p->to.reg may be REGLINK |
| o1 = c.oprrr(p, AADD, int(p.Scond)) |
| |
| o1 |= uint32(immrot(uint32(c.instoffset))) |
| o1 |= (uint32(p.To.Reg) & 15) << 16 |
| o1 |= (REGTMP & 15) << 12 |
| o2 = c.oprrr(p, AADD, int(p.Scond)) | uint32(immrot(0)) | (REGPC&15)<<16 | (REGLINK&15)<<12 // mov PC, LR |
| o3 = ((uint32(p.Scond)&C_SCOND)^C_SCOND_XOR)<<28 | 0x12fff<<8 | 1<<4 | REGTMP&15 // BX Rtmp |
| |
| case 76: /* bx O(R) when returning from fn*/ |
| c.ctxt.Diag("ABXRET") |
| |
| case 77: /* ldrex oreg,reg */ |
| c.aclass(&p.From) |
| |
| if c.instoffset != 0 { |
| c.ctxt.Diag("offset must be zero in LDREX") |
| } |
| o1 = 0x19<<20 | 0xf9f |
| o1 |= (uint32(p.From.Reg) & 15) << 16 |
| o1 |= (uint32(p.To.Reg) & 15) << 12 |
| o1 |= ((uint32(p.Scond) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| |
| case 78: /* strex reg,oreg,reg */ |
| c.aclass(&p.From) |
| |
| if c.instoffset != 0 { |
| c.ctxt.Diag("offset must be zero in STREX") |
| } |
| if p.To.Reg == p.From.Reg || p.To.Reg == p.Reg { |
| c.ctxt.Diag("cannot use same register as both source and destination: %v", p) |
| } |
| o1 = 0x18<<20 | 0xf90 |
| o1 |= (uint32(p.From.Reg) & 15) << 16 |
| o1 |= (uint32(p.Reg) & 15) << 0 |
| o1 |= (uint32(p.To.Reg) & 15) << 12 |
| o1 |= ((uint32(p.Scond) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| |
| case 80: /* fmov zfcon,freg */ |
| if p.As == AMOVD { |
| o1 = 0xeeb00b00 // VMOV imm 64 |
| o2 = c.oprrr(p, ASUBD, int(p.Scond)) |
| } else { |
| o1 = 0x0eb00a00 // VMOV imm 32 |
| o2 = c.oprrr(p, ASUBF, int(p.Scond)) |
| } |
| |
| v := int32(0x70) // 1.0 |
| r := (int(p.To.Reg) & 15) << 0 |
| |
| // movf $1.0, r |
| o1 |= ((uint32(p.Scond) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| |
| o1 |= (uint32(r) & 15) << 12 |
| o1 |= (uint32(v) & 0xf) << 0 |
| o1 |= (uint32(v) & 0xf0) << 12 |
| |
| // subf r,r,r |
| o2 |= (uint32(r)&15)<<0 | (uint32(r)&15)<<16 | (uint32(r)&15)<<12 |
| |
| case 81: /* fmov sfcon,freg */ |
| o1 = 0x0eb00a00 // VMOV imm 32 |
| if p.As == AMOVD { |
| o1 = 0xeeb00b00 // VMOV imm 64 |
| } |
| o1 |= ((uint32(p.Scond) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| o1 |= (uint32(p.To.Reg) & 15) << 12 |
| v := int32(c.chipfloat5(p.From.Val.(float64))) |
| o1 |= (uint32(v) & 0xf) << 0 |
| o1 |= (uint32(v) & 0xf0) << 12 |
| |
| case 82: /* fcmp freg,freg, */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| |
| o1 |= (uint32(p.Reg)&15)<<12 | (uint32(p.From.Reg)&15)<<0 |
| o2 = 0x0ef1fa10 // VMRS R15 |
| o2 |= ((uint32(p.Scond) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| |
| case 83: /* fcmp freg,, */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| |
| o1 |= (uint32(p.From.Reg)&15)<<12 | 1<<16 |
| o2 = 0x0ef1fa10 // VMRS R15 |
| o2 |= ((uint32(p.Scond) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| |
| case 84: /* movfw freg,freg - truncate float-to-fix */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| |
| o1 |= (uint32(p.From.Reg) & 15) << 0 |
| o1 |= (uint32(p.To.Reg) & 15) << 12 |
| |
| case 85: /* movwf freg,freg - fix-to-float */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| |
| o1 |= (uint32(p.From.Reg) & 15) << 0 |
| o1 |= (uint32(p.To.Reg) & 15) << 12 |
| |
| // macro for movfw freg,FTMP; movw FTMP,reg |
| case 86: /* movfw freg,reg - truncate float-to-fix */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| |
| o1 |= (uint32(p.From.Reg) & 15) << 0 |
| o1 |= (FREGTMP & 15) << 12 |
| o2 = c.oprrr(p, -AMOVFW, int(p.Scond)) |
| o2 |= (FREGTMP & 15) << 16 |
| o2 |= (uint32(p.To.Reg) & 15) << 12 |
| |
| // macro for movw reg,FTMP; movwf FTMP,freg |
| case 87: /* movwf reg,freg - fix-to-float */ |
| o1 = c.oprrr(p, -AMOVWF, int(p.Scond)) |
| |
| o1 |= (uint32(p.From.Reg) & 15) << 12 |
| o1 |= (FREGTMP & 15) << 16 |
| o2 = c.oprrr(p, p.As, int(p.Scond)) |
| o2 |= (FREGTMP & 15) << 0 |
| o2 |= (uint32(p.To.Reg) & 15) << 12 |
| |
| case 88: /* movw reg,freg */ |
| o1 = c.oprrr(p, -AMOVWF, int(p.Scond)) |
| |
| o1 |= (uint32(p.From.Reg) & 15) << 12 |
| o1 |= (uint32(p.To.Reg) & 15) << 16 |
| |
| case 89: /* movw freg,reg */ |
| o1 = c.oprrr(p, -AMOVFW, int(p.Scond)) |
| |
| o1 |= (uint32(p.From.Reg) & 15) << 16 |
| o1 |= (uint32(p.To.Reg) & 15) << 12 |
| |
| case 91: /* ldrexd oreg,reg */ |
| c.aclass(&p.From) |
| |
| if c.instoffset != 0 { |
| c.ctxt.Diag("offset must be zero in LDREX") |
| } |
| o1 = 0x1b<<20 | 0xf9f |
| o1 |= (uint32(p.From.Reg) & 15) << 16 |
| o1 |= (uint32(p.To.Reg) & 15) << 12 |
| o1 |= ((uint32(p.Scond) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| |
| case 92: /* strexd reg,oreg,reg */ |
| c.aclass(&p.From) |
| |
| if c.instoffset != 0 { |
| c.ctxt.Diag("offset must be zero in STREX") |
| } |
| if p.Reg&1 != 0 { |
| c.ctxt.Diag("source register must be even in STREXD: %v", p) |
| } |
| if p.To.Reg == p.From.Reg || p.To.Reg == p.Reg || p.To.Reg == p.Reg+1 { |
| c.ctxt.Diag("cannot use same register as both source and destination: %v", p) |
| } |
| o1 = 0x1a<<20 | 0xf90 |
| o1 |= (uint32(p.From.Reg) & 15) << 16 |
| o1 |= (uint32(p.Reg) & 15) << 0 |
| o1 |= (uint32(p.To.Reg) & 15) << 12 |
| o1 |= ((uint32(p.Scond) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| |
| case 93: /* movb/movh/movhu addr,R -> ldrsb/ldrsh/ldrh */ |
| o1 = c.omvl(p, &p.From, REGTMP) |
| |
| if o1 == 0 { |
| break |
| } |
| o2 = c.olhr(0, REGTMP, int(p.To.Reg), int(p.Scond)) |
| if p.As == AMOVB || p.As == AMOVBS { |
| o2 ^= 1<<5 | 1<<6 |
| } else if p.As == AMOVH || p.As == AMOVHS { |
| o2 ^= (1 << 6) |
| } |
| if o.flag&LPCREL != 0 { |
| o3 = o2 |
| o2 = c.oprrr(p, AADD, int(p.Scond)) | REGTMP&15 | (REGPC&15)<<16 | (REGTMP&15)<<12 |
| } |
| |
| case 94: /* movh/movhu R,addr -> strh */ |
| o1 = c.omvl(p, &p.To, REGTMP) |
| |
| if o1 == 0 { |
| break |
| } |
| o2 = c.oshr(int(p.From.Reg), 0, REGTMP, int(p.Scond)) |
| if o.flag&LPCREL != 0 { |
| o3 = o2 |
| o2 = c.oprrr(p, AADD, int(p.Scond)) | REGTMP&15 | (REGPC&15)<<16 | (REGTMP&15)<<12 |
| } |
| |
| case 95: /* PLD off(reg) */ |
| o1 = 0xf5d0f000 |
| |
| o1 |= (uint32(p.From.Reg) & 15) << 16 |
| if p.From.Offset < 0 { |
| o1 &^= (1 << 23) |
| o1 |= uint32((-p.From.Offset) & 0xfff) |
| } else { |
| o1 |= uint32(p.From.Offset & 0xfff) |
| } |
| |
| // This is supposed to be something that stops execution. |
| // It's not supposed to be reached, ever, but if it is, we'd |
| // like to be able to tell how we got there. Assemble as |
| // 0xf7fabcfd which is guaranteed to raise undefined instruction |
| // exception. |
| case 96: /* UNDEF */ |
| o1 = 0xf7fabcfd |
| |
| case 97: /* CLZ Rm, Rd */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| |
| o1 |= (uint32(p.To.Reg) & 15) << 12 |
| o1 |= (uint32(p.From.Reg) & 15) << 0 |
| |
| case 98: /* MULW{T,B} Rs, Rm, Rd */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| |
| o1 |= (uint32(p.To.Reg) & 15) << 16 |
| o1 |= (uint32(p.From.Reg) & 15) << 8 |
| o1 |= (uint32(p.Reg) & 15) << 0 |
| |
| case 99: /* MULAW{T,B} Rs, Rm, Rn, Rd */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| |
| o1 |= (uint32(p.To.Reg) & 15) << 16 |
| o1 |= (uint32(p.From.Reg) & 15) << 8 |
| o1 |= (uint32(p.Reg) & 15) << 0 |
| o1 |= uint32((p.To.Offset & 15) << 12) |
| |
| // DATABUNDLE: BKPT $0x5be0, signify the start of NaCl data bundle; |
| // DATABUNDLEEND: zero width alignment marker |
| case 100: |
| if p.As == ADATABUNDLE { |
| o1 = 0xe125be70 |
| } |
| |
| case 105: /* divhw r,[r,]r */ |
| o1 = c.oprrr(p, p.As, int(p.Scond)) |
| rf := int(p.From.Reg) |
| rt := int(p.To.Reg) |
| r := int(p.Reg) |
| if r == 0 { |
| r = rt |
| } |
| o1 |= (uint32(rf)&15)<<8 | (uint32(r)&15)<<0 | (uint32(rt)&15)<<16 |
| } |
| |
| out[0] = o1 |
| out[1] = o2 |
| out[2] = o3 |
| out[3] = o4 |
| out[4] = o5 |
| out[5] = o6 |
| return |
| } |
| |
| func (c *ctxt5) movxt(p *obj.Prog) uint32 { |
| o1 := ((uint32(p.Scond) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| switch p.As { |
| case AMOVB, AMOVBS: |
| o1 |= 0x6af<<16 | 0x7<<4 |
| case AMOVH, AMOVHS: |
| o1 |= 0x6bf<<16 | 0x7<<4 |
| case AMOVBU: |
| o1 |= 0x6ef<<16 | 0x7<<4 |
| case AMOVHU: |
| o1 |= 0x6ff<<16 | 0x7<<4 |
| default: |
| c.ctxt.Diag("illegal combination: %v", p) |
| } |
| switch p.From.Offset &^ 0xf { |
| // only 0/8/16/24 bits rotation is accepted |
| case SHIFT_RR, SHIFT_RR | 8<<7, SHIFT_RR | 16<<7, SHIFT_RR | 24<<7: |
| o1 |= uint32(p.From.Offset) & 0xc0f |
| default: |
| c.ctxt.Diag("illegal shift: %v", p) |
| } |
| o1 |= (uint32(p.To.Reg) & 15) << 12 |
| return o1 |
| } |
| |
| func (c *ctxt5) mov(p *obj.Prog) uint32 { |
| c.aclass(&p.From) |
| o1 := c.oprrr(p, p.As, int(p.Scond)) |
| o1 |= uint32(p.From.Offset) |
| rt := int(p.To.Reg) |
| if p.To.Type == obj.TYPE_NONE { |
| rt = 0 |
| } |
| r := int(p.Reg) |
| if p.As == AMOVW || p.As == AMVN { |
| r = 0 |
| } else if r == 0 { |
| r = rt |
| } |
| o1 |= (uint32(r)&15)<<16 | (uint32(rt)&15)<<12 |
| return o1 |
| } |
| |
| func (c *ctxt5) oprrr(p *obj.Prog, a obj.As, sc int) uint32 { |
| o := ((uint32(sc) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| if sc&C_SBIT != 0 { |
| o |= 1 << 20 |
| } |
| switch a { |
| case ADIVHW: |
| return o | 0x71<<20 | 0xf<<12 | 0x1<<4 |
| case ADIVUHW: |
| return o | 0x73<<20 | 0xf<<12 | 0x1<<4 |
| case AMMUL: |
| return o | 0x75<<20 | 0xf<<12 | 0x1<<4 |
| case AMULS: |
| return o | 0x6<<20 | 0x9<<4 |
| case AMMULA: |
| return o | 0x75<<20 | 0x1<<4 |
| case AMMULS: |
| return o | 0x75<<20 | 0xd<<4 |
| case AMULU, AMUL: |
| return o | 0x0<<21 | 0x9<<4 |
| case AMULA: |
| return o | 0x1<<21 | 0x9<<4 |
| case AMULLU: |
| return o | 0x4<<21 | 0x9<<4 |
| case AMULL: |
| return o | 0x6<<21 | 0x9<<4 |
| case AMULALU: |
| return o | 0x5<<21 | 0x9<<4 |
| case AMULAL: |
| return o | 0x7<<21 | 0x9<<4 |
| case AAND: |
| return o | 0x0<<21 |
| case AEOR: |
| return o | 0x1<<21 |
| case ASUB: |
| return o | 0x2<<21 |
| case ARSB: |
| return o | 0x3<<21 |
| case AADD: |
| return o | 0x4<<21 |
| case AADC: |
| return o | 0x5<<21 |
| case ASBC: |
| return o | 0x6<<21 |
| case ARSC: |
| return o | 0x7<<21 |
| case ATST: |
| return o | 0x8<<21 | 1<<20 |
| case ATEQ: |
| return o | 0x9<<21 | 1<<20 |
| case ACMP: |
| return o | 0xa<<21 | 1<<20 |
| case ACMN: |
| return o | 0xb<<21 | 1<<20 |
| case AORR: |
| return o | 0xc<<21 |
| |
| case AMOVB, AMOVH, AMOVW: |
| if sc&(C_PBIT|C_WBIT) != 0 { |
| c.ctxt.Diag("invalid .P/.W suffix: %v", p) |
| } |
| return o | 0xd<<21 |
| case ABIC: |
| return o | 0xe<<21 |
| case AMVN: |
| return o | 0xf<<21 |
| case ASLL: |
| return o | 0xd<<21 | 0<<5 |
| case ASRL: |
| return o | 0xd<<21 | 1<<5 |
| case ASRA: |
| return o | 0xd<<21 | 2<<5 |
| case ASWI: |
| return o | 0xf<<24 |
| |
| case AADDD: |
| return o | 0xe<<24 | 0x3<<20 | 0xb<<8 | 0<<4 |
| case AADDF: |
| return o | 0xe<<24 | 0x3<<20 | 0xa<<8 | 0<<4 |
| case ASUBD: |
| return o | 0xe<<24 | 0x3<<20 | 0xb<<8 | 4<<4 |
| case ASUBF: |
| return o | 0xe<<24 | 0x3<<20 | 0xa<<8 | 4<<4 |
| case AMULD: |
| return o | 0xe<<24 | 0x2<<20 | 0xb<<8 | 0<<4 |
| case AMULF: |
| return o | 0xe<<24 | 0x2<<20 | 0xa<<8 | 0<<4 |
| case ANMULD: |
| return o | 0xe<<24 | 0x2<<20 | 0xb<<8 | 0x4<<4 |
| case ANMULF: |
| return o | 0xe<<24 | 0x2<<20 | 0xa<<8 | 0x4<<4 |
| case AMULAD: |
| return o | 0xe<<24 | 0xb<<8 |
| case AMULAF: |
| return o | 0xe<<24 | 0xa<<8 |
| case AMULSD: |
| return o | 0xe<<24 | 0xb<<8 | 0x4<<4 |
| case AMULSF: |
| return o | 0xe<<24 | 0xa<<8 | 0x4<<4 |
| case ANMULAD: |
| return o | 0xe<<24 | 0x1<<20 | 0xb<<8 |
| case ANMULAF: |
| return o | 0xe<<24 | 0x1<<20 | 0xa<<8 |
| case ANMULSD: |
| return o | 0xe<<24 | 0x1<<20 | 0xb<<8 | 0x4<<4 |
| case ANMULSF: |
| return o | 0xe<<24 | 0x1<<20 | 0xa<<8 | 0x4<<4 |
| case AFMULAD: |
| return o | 0xe<<24 | 0xa<<20 | 0xb<<8 |
| case AFMULAF: |
| return o | 0xe<<24 | 0xa<<20 | 0xa<<8 |
| case AFMULSD: |
| return o | 0xe<<24 | 0xa<<20 | 0xb<<8 | 0x4<<4 |
| case AFMULSF: |
| return o | 0xe<<24 | 0xa<<20 | 0xa<<8 | 0x4<<4 |
| case AFNMULAD: |
| return o | 0xe<<24 | 0x9<<20 | 0xb<<8 | 0x4<<4 |
| case AFNMULAF: |
| return o | 0xe<<24 | 0x9<<20 | 0xa<<8 | 0x4<<4 |
| case AFNMULSD: |
| return o | 0xe<<24 | 0x9<<20 | 0xb<<8 |
| case AFNMULSF: |
| return o | 0xe<<24 | 0x9<<20 | 0xa<<8 |
| case ADIVD: |
| return o | 0xe<<24 | 0x8<<20 | 0xb<<8 | 0<<4 |
| case ADIVF: |
| return o | 0xe<<24 | 0x8<<20 | 0xa<<8 | 0<<4 |
| case ASQRTD: |
| return o | 0xe<<24 | 0xb<<20 | 1<<16 | 0xb<<8 | 0xc<<4 |
| case ASQRTF: |
| return o | 0xe<<24 | 0xb<<20 | 1<<16 | 0xa<<8 | 0xc<<4 |
| case AABSD: |
| return o | 0xe<<24 | 0xb<<20 | 0<<16 | 0xb<<8 | 0xc<<4 |
| case AABSF: |
| return o | 0xe<<24 | 0xb<<20 | 0<<16 | 0xa<<8 | 0xc<<4 |
| case ANEGD: |
| return o | 0xe<<24 | 0xb<<20 | 1<<16 | 0xb<<8 | 0x4<<4 |
| case ANEGF: |
| return o | 0xe<<24 | 0xb<<20 | 1<<16 | 0xa<<8 | 0x4<<4 |
| case ACMPD: |
| return o | 0xe<<24 | 0xb<<20 | 4<<16 | 0xb<<8 | 0xc<<4 |
| case ACMPF: |
| return o | 0xe<<24 | 0xb<<20 | 4<<16 | 0xa<<8 | 0xc<<4 |
| |
| case AMOVF: |
| return o | 0xe<<24 | 0xb<<20 | 0<<16 | 0xa<<8 | 4<<4 |
| case AMOVD: |
| return o | 0xe<<24 | 0xb<<20 | 0<<16 | 0xb<<8 | 4<<4 |
| |
| case AMOVDF: |
| return o | 0xe<<24 | 0xb<<20 | 7<<16 | 0xa<<8 | 0xc<<4 | 1<<8 // dtof |
| case AMOVFD: |
| return o | 0xe<<24 | 0xb<<20 | 7<<16 | 0xa<<8 | 0xc<<4 | 0<<8 // dtof |
| |
| case AMOVWF: |
| if sc&C_UBIT == 0 { |
| o |= 1 << 7 /* signed */ |
| } |
| return o | 0xe<<24 | 0xb<<20 | 8<<16 | 0xa<<8 | 4<<4 | 0<<18 | 0<<8 // toint, double |
| |
| case AMOVWD: |
| if sc&C_UBIT == 0 { |
| o |= 1 << 7 /* signed */ |
| } |
| return o | 0xe<<24 | 0xb<<20 | 8<<16 | 0xa<<8 | 4<<4 | 0<<18 | 1<<8 // toint, double |
| |
| case AMOVFW: |
| if sc&C_UBIT == 0 { |
| o |= 1 << 16 /* signed */ |
| } |
| return o | 0xe<<24 | 0xb<<20 | 8<<16 | 0xa<<8 | 4<<4 | 1<<18 | 0<<8 | 1<<7 // toint, double, trunc |
| |
| case AMOVDW: |
| if sc&C_UBIT == 0 { |
| o |= 1 << 16 /* signed */ |
| } |
| return o | 0xe<<24 | 0xb<<20 | 8<<16 | 0xa<<8 | 4<<4 | 1<<18 | 1<<8 | 1<<7 // toint, double, trunc |
| |
| case -AMOVWF: // copy WtoF |
| return o | 0xe<<24 | 0x0<<20 | 0xb<<8 | 1<<4 |
| |
| case -AMOVFW: // copy FtoW |
| return o | 0xe<<24 | 0x1<<20 | 0xb<<8 | 1<<4 |
| |
| case -ACMP: // cmp imm |
| return o | 0x3<<24 | 0x5<<20 |
| |
| case ABFX: |
| return o | 0x3d<<21 | 0x5<<4 |
| |
| case ABFXU: |
| return o | 0x3f<<21 | 0x5<<4 |
| |
| case ABFC: |
| return o | 0x3e<<21 | 0x1f |
| |
| case ABFI: |
| return o | 0x3e<<21 | 0x1<<4 |
| |
| case AXTAB: |
| return o | 0x6a<<20 | 0x7<<4 |
| |
| case AXTAH: |
| return o | 0x6b<<20 | 0x7<<4 |
| |
| case AXTABU: |
| return o | 0x6e<<20 | 0x7<<4 |
| |
| case AXTAHU: |
| return o | 0x6f<<20 | 0x7<<4 |
| |
| // CLZ doesn't support .nil |
| case ACLZ: |
| return o&(0xf<<28) | 0x16f<<16 | 0xf1<<4 |
| |
| case AREV: |
| return o&(0xf<<28) | 0x6bf<<16 | 0xf3<<4 |
| |
| case AREV16: |
| return o&(0xf<<28) | 0x6bf<<16 | 0xfb<<4 |
| |
| case AREVSH: |
| return o&(0xf<<28) | 0x6ff<<16 | 0xfb<<4 |
| |
| case ARBIT: |
| return o&(0xf<<28) | 0x6ff<<16 | 0xf3<<4 |
| |
| case AMULWT: |
| return o&(0xf<<28) | 0x12<<20 | 0xe<<4 |
| |
| case AMULWB: |
| return o&(0xf<<28) | 0x12<<20 | 0xa<<4 |
| |
| case AMULBB: |
| return o&(0xf<<28) | 0x16<<20 | 0x8<<4 |
| |
| case AMULAWT: |
| return o&(0xf<<28) | 0x12<<20 | 0xc<<4 |
| |
| case AMULAWB: |
| return o&(0xf<<28) | 0x12<<20 | 0x8<<4 |
| |
| case AMULABB: |
| return o&(0xf<<28) | 0x10<<20 | 0x8<<4 |
| |
| case ABL: // BLX REG |
| return o&(0xf<<28) | 0x12fff3<<4 |
| } |
| |
| c.ctxt.Diag("%v: bad rrr %d", p, a) |
| return 0 |
| } |
| |
| func (c *ctxt5) opbra(p *obj.Prog, a obj.As, sc int) uint32 { |
| sc &= C_SCOND |
| sc ^= C_SCOND_XOR |
| if a == ABL || a == obj.ADUFFZERO || a == obj.ADUFFCOPY { |
| return uint32(sc)<<28 | 0x5<<25 | 0x1<<24 |
| } |
| if sc != 0xe { |
| c.ctxt.Diag("%v: .COND on bcond instruction", p) |
| } |
| switch a { |
| case ABEQ: |
| return 0x0<<28 | 0x5<<25 |
| case ABNE: |
| return 0x1<<28 | 0x5<<25 |
| case ABCS: |
| return 0x2<<28 | 0x5<<25 |
| case ABHS: |
| return 0x2<<28 | 0x5<<25 |
| case ABCC: |
| return 0x3<<28 | 0x5<<25 |
| case ABLO: |
| return 0x3<<28 | 0x5<<25 |
| case ABMI: |
| return 0x4<<28 | 0x5<<25 |
| case ABPL: |
| return 0x5<<28 | 0x5<<25 |
| case ABVS: |
| return 0x6<<28 | 0x5<<25 |
| case ABVC: |
| return 0x7<<28 | 0x5<<25 |
| case ABHI: |
| return 0x8<<28 | 0x5<<25 |
| case ABLS: |
| return 0x9<<28 | 0x5<<25 |
| case ABGE: |
| return 0xa<<28 | 0x5<<25 |
| case ABLT: |
| return 0xb<<28 | 0x5<<25 |
| case ABGT: |
| return 0xc<<28 | 0x5<<25 |
| case ABLE: |
| return 0xd<<28 | 0x5<<25 |
| case AB: |
| return 0xe<<28 | 0x5<<25 |
| } |
| |
| c.ctxt.Diag("%v: bad bra %v", p, a) |
| return 0 |
| } |
| |
| func (c *ctxt5) olr(v int32, b int, r int, sc int) uint32 { |
| o := ((uint32(sc) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| if sc&C_PBIT == 0 { |
| o |= 1 << 24 |
| } |
| if sc&C_UBIT == 0 { |
| o |= 1 << 23 |
| } |
| if sc&C_WBIT != 0 { |
| o |= 1 << 21 |
| } |
| o |= 1<<26 | 1<<20 |
| if v < 0 { |
| if sc&C_UBIT != 0 { |
| c.ctxt.Diag(".U on neg offset") |
| } |
| v = -v |
| o ^= 1 << 23 |
| } |
| |
| if v >= 1<<12 || v < 0 { |
| c.ctxt.Diag("literal span too large: %d (R%d)\n%v", v, b, c.printp) |
| } |
| o |= uint32(v) |
| o |= (uint32(b) & 15) << 16 |
| o |= (uint32(r) & 15) << 12 |
| return o |
| } |
| |
| func (c *ctxt5) olhr(v int32, b int, r int, sc int) uint32 { |
| o := ((uint32(sc) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| if sc&C_PBIT == 0 { |
| o |= 1 << 24 |
| } |
| if sc&C_WBIT != 0 { |
| o |= 1 << 21 |
| } |
| o |= 1<<23 | 1<<20 | 0xb<<4 |
| if v < 0 { |
| v = -v |
| o ^= 1 << 23 |
| } |
| |
| if v >= 1<<8 || v < 0 { |
| c.ctxt.Diag("literal span too large: %d (R%d)\n%v", v, b, c.printp) |
| } |
| o |= uint32(v)&0xf | (uint32(v)>>4)<<8 | 1<<22 |
| o |= (uint32(b) & 15) << 16 |
| o |= (uint32(r) & 15) << 12 |
| return o |
| } |
| |
| func (c *ctxt5) osr(a obj.As, r int, v int32, b int, sc int) uint32 { |
| o := c.olr(v, b, r, sc) ^ (1 << 20) |
| if a != AMOVW { |
| o |= 1 << 22 |
| } |
| return o |
| } |
| |
| func (c *ctxt5) oshr(r int, v int32, b int, sc int) uint32 { |
| o := c.olhr(v, b, r, sc) ^ (1 << 20) |
| return o |
| } |
| |
| func (c *ctxt5) osrr(r int, i int, b int, sc int) uint32 { |
| return c.olr(int32(i), b, r, sc) ^ (1<<25 | 1<<20) |
| } |
| |
| func (c *ctxt5) oshrr(r int, i int, b int, sc int) uint32 { |
| return c.olhr(int32(i), b, r, sc) ^ (1<<22 | 1<<20) |
| } |
| |
| func (c *ctxt5) olrr(i int, b int, r int, sc int) uint32 { |
| return c.olr(int32(i), b, r, sc) ^ (1 << 25) |
| } |
| |
| func (c *ctxt5) olhrr(i int, b int, r int, sc int) uint32 { |
| return c.olhr(int32(i), b, r, sc) ^ (1 << 22) |
| } |
| |
| func (c *ctxt5) ofsr(a obj.As, r int, v int32, b int, sc int, p *obj.Prog) uint32 { |
| o := ((uint32(sc) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| if sc&C_PBIT == 0 { |
| o |= 1 << 24 |
| } |
| if sc&C_WBIT != 0 { |
| o |= 1 << 21 |
| } |
| o |= 6<<25 | 1<<24 | 1<<23 | 10<<8 |
| if v < 0 { |
| v = -v |
| o ^= 1 << 23 |
| } |
| |
| if v&3 != 0 { |
| c.ctxt.Diag("odd offset for floating point op: %d\n%v", v, p) |
| } else if v >= 1<<10 || v < 0 { |
| c.ctxt.Diag("literal span too large: %d\n%v", v, p) |
| } |
| o |= (uint32(v) >> 2) & 0xFF |
| o |= (uint32(b) & 15) << 16 |
| o |= (uint32(r) & 15) << 12 |
| |
| switch a { |
| default: |
| c.ctxt.Diag("bad fst %v", a) |
| fallthrough |
| |
| case AMOVD: |
| o |= 1 << 8 |
| fallthrough |
| |
| case AMOVF: |
| break |
| } |
| |
| return o |
| } |
| |
| // MOVW $"lower 16-bit", Reg |
| func (c *ctxt5) omvs(p *obj.Prog, a *obj.Addr, dr int) uint32 { |
| var o1 uint32 |
| o1 = ((uint32(p.Scond) & C_SCOND) ^ C_SCOND_XOR) << 28 |
| o1 |= 0x30 << 20 |
| o1 |= (uint32(dr) & 15) << 12 |
| o1 |= uint32(a.Offset) & 0x0fff |
| o1 |= (uint32(a.Offset) & 0xf000) << 4 |
| return o1 |
| } |
| |
| // MVN $C_NCON, Reg -> MOVW $C_RCON, Reg |
| func (c *ctxt5) omvr(p *obj.Prog, a *obj.Addr, dr int) uint32 { |
| o1 := c.oprrr(p, AMOVW, int(p.Scond)) |
| o1 |= (uint32(dr) & 15) << 12 |
| v := immrot(^uint32(a.Offset)) |
| if v == 0 { |
| c.ctxt.Diag("%v: missing literal", p) |
| return 0 |
| } |
| o1 |= uint32(v) |
| return o1 |
| } |
| |
| func (c *ctxt5) omvl(p *obj.Prog, a *obj.Addr, dr int) uint32 { |
| var o1 uint32 |
| if p.Pcond == nil { |
| c.aclass(a) |
| v := immrot(^uint32(c.instoffset)) |
| if v == 0 { |
| c.ctxt.Diag("%v: missing literal", p) |
| return 0 |
| } |
| |
| o1 = c.oprrr(p, AMVN, int(p.Scond)&C_SCOND) |
| o1 |= uint32(v) |
| o1 |= (uint32(dr) & 15) << 12 |
| } else { |
| v := int32(p.Pcond.Pc - p.Pc - 8) |
| o1 = c.olr(v, REGPC, dr, int(p.Scond)&C_SCOND) |
| } |
| |
| return o1 |
| } |
| |
| func (c *ctxt5) chipzero5(e float64) int { |
| // We use GOARM=7 to gate the use of VFPv3 vmov (imm) instructions. |
| if objabi.GOARM < 7 || math.Float64bits(e) != 0 { |
| return -1 |
| } |
| return 0 |
| } |
| |
| func (c *ctxt5) chipfloat5(e float64) int { |
| // We use GOARM=7 to gate the use of VFPv3 vmov (imm) instructions. |
| if objabi.GOARM < 7 { |
| return -1 |
| } |
| |
| ei := math.Float64bits(e) |
| l := uint32(ei) |
| h := uint32(ei >> 32) |
| |
| if l != 0 || h&0xffff != 0 { |
| return -1 |
| } |
| h1 := h & 0x7fc00000 |
| if h1 != 0x40000000 && h1 != 0x3fc00000 { |
| return -1 |
| } |
| n := 0 |
| |
| // sign bit (a) |
| if h&0x80000000 != 0 { |
| n |= 1 << 7 |
| } |
| |
| // exp sign bit (b) |
| if h1 == 0x3fc00000 { |
| n |= 1 << 6 |
| } |
| |
| // rest of exp and mantissa (cd-efgh) |
| n |= int((h >> 16) & 0x3f) |
| |
| //print("match %.8lux %.8lux %d\n", l, h, n); |
| return n |
| } |
| |
| func nocache(p *obj.Prog) { |
| p.Optab = 0 |
| p.From.Class = 0 |
| if p.GetFrom3() != nil { |
| p.GetFrom3().Class = 0 |
| } |
| p.To.Class = 0 |
| } |