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Diffstat (limited to 'gnu/usr.bin/gcc/config/fx80/fx80.c')
-rw-r--r-- | gnu/usr.bin/gcc/config/fx80/fx80.c | 300 |
1 files changed, 300 insertions, 0 deletions
diff --git a/gnu/usr.bin/gcc/config/fx80/fx80.c b/gnu/usr.bin/gcc/config/fx80/fx80.c new file mode 100644 index 00000000000..a87be41e5e8 --- /dev/null +++ b/gnu/usr.bin/gcc/config/fx80/fx80.c @@ -0,0 +1,300 @@ +/* Subroutines for insn-output.c for Alliant FX computers. + Copyright (C) 1989,1991 Free Software Foundation, Inc. + +This file is part of GNU CC. + +GNU CC is free software; you can redistribute it and/or modify +it under the terms of the GNU General Public License as published by +the Free Software Foundation; either version 2, or (at your option) +any later version. + +GNU CC is distributed in the hope that it will be useful, +but WITHOUT ANY WARRANTY; without even the implied warranty of +MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +GNU General Public License for more details. + +You should have received a copy of the GNU General Public License +along with GNU CC; see the file COPYING. If not, write to +the Free Software Foundation, 59 Temple Place - Suite 330, +Boston, MA 02111-1307, USA. */ + + +/* Some output-actions in alliant.md need these. */ +#include <stdio.h> +#include "config.h" +#include "rtl.h" +#include "regs.h" +#include "hard-reg-set.h" +#include "real.h" +#include "insn-config.h" +#include "conditions.h" +#include "insn-flags.h" +#include "output.h" +#include "insn-attr.h" + +/* Index into this array by (register number >> 3) to find the + smallest class which contains that register. */ +enum reg_class regno_reg_class[] + = { DATA_REGS, ADDR_REGS, FP_REGS }; + +static rtx find_addr_reg (); + +char * +output_btst (operands, countop, dataop, insn, signpos) + rtx *operands; + rtx countop, dataop; + rtx insn; + int signpos; +{ + operands[0] = countop; + operands[1] = dataop; + + if (GET_CODE (countop) == CONST_INT) + { + register int count = INTVAL (countop); + /* If COUNT is bigger than size of storage unit in use, + advance to the containing unit of same size. */ + if (count > signpos) + { + int offset = (count & ~signpos) / 8; + count = count & signpos; + operands[1] = dataop = adj_offsettable_operand (dataop, offset); + } + if (count == signpos) + cc_status.flags = CC_NOT_POSITIVE | CC_Z_IN_NOT_N; + else + cc_status.flags = CC_NOT_NEGATIVE | CC_Z_IN_NOT_N; + + /* These three statements used to use next_insns_test_no... + but it appears that this should do the same job. */ + if (count == 31 + && next_insn_tests_no_inequality (insn)) + return "tst%.l %1"; + if (count == 15 + && next_insn_tests_no_inequality (insn)) + return "tst%.w %1"; + if (count == 7 + && next_insn_tests_no_inequality (insn)) + return "tst%.b %1"; + + cc_status.flags = CC_NOT_NEGATIVE; + } + return "btst %0,%1"; +} + +/* Return the best assembler insn template + for moving operands[1] into operands[0] as a fullword. */ + +static char * +singlemove_string (operands) + rtx *operands; +{ + if (operands[1] != const0_rtx) + return "mov%.l %1,%0"; + if (! ADDRESS_REG_P (operands[0])) + return "clr%.l %0"; + return "sub%.l %0,%0"; +} + +/* Output assembler code to perform a doubleword move insn + with operands OPERANDS. */ + +char * +output_move_double (operands) + rtx *operands; +{ + enum { REGOP, OFFSOP, MEMOP, PUSHOP, POPOP, CNSTOP, RNDOP } optype0, optype1; + rtx latehalf[2]; + rtx addreg0 = 0, addreg1 = 0; + + /* First classify both operands. */ + + if (REG_P (operands[0])) + optype0 = REGOP; + else if (offsettable_memref_p (operands[0])) + optype0 = OFFSOP; + else if (GET_CODE (XEXP (operands[0], 0)) == POST_INC) + optype0 = POPOP; + else if (GET_CODE (XEXP (operands[0], 0)) == PRE_DEC) + optype0 = PUSHOP; + else if (GET_CODE (operands[0]) == MEM) + optype0 = MEMOP; + else + optype0 = RNDOP; + + if (REG_P (operands[1])) + optype1 = REGOP; + else if (CONSTANT_P (operands[1])) + optype1 = CNSTOP; + else if (offsettable_memref_p (operands[1])) + optype1 = OFFSOP; + else if (GET_CODE (XEXP (operands[1], 0)) == POST_INC) + optype1 = POPOP; + else if (GET_CODE (XEXP (operands[1], 0)) == PRE_DEC) + optype1 = PUSHOP; + else if (GET_CODE (operands[1]) == MEM) + optype1 = MEMOP; + else + optype1 = RNDOP; + + /* Check for the cases that the operand constraints are not + supposed to allow to happen. Abort if we get one, + because generating code for these cases is painful. */ + + if (optype0 == RNDOP || optype1 == RNDOP) + abort (); + + /* If one operand is decrementing and one is incrementing + decrement the former register explicitly + and change that operand into ordinary indexing. */ + + if (optype0 == PUSHOP && optype1 == POPOP) + { + operands[0] = XEXP (XEXP (operands[0], 0), 0); + output_asm_insn ("subq%.l %#8,%0", operands); + operands[0] = gen_rtx (MEM, DImode, operands[0]); + optype0 = OFFSOP; + } + if (optype0 == POPOP && optype1 == PUSHOP) + { + operands[1] = XEXP (XEXP (operands[1], 0), 0); + output_asm_insn ("subq%.l %#8,%1", operands); + operands[1] = gen_rtx (MEM, DImode, operands[1]); + optype1 = OFFSOP; + } + + /* If an operand is an unoffsettable memory ref, find a register + we can increment temporarily to make it refer to the second word. */ + + if (optype0 == MEMOP) + addreg0 = find_addr_reg (XEXP (operands[0], 0)); + + if (optype1 == MEMOP) + addreg1 = find_addr_reg (XEXP (operands[1], 0)); + + /* Ok, we can do one word at a time. + Normally we do the low-numbered word first, + but if either operand is autodecrementing then we + do the high-numbered word first. + + In either case, set up in LATEHALF the operands to use + for the high-numbered word and in some cases alter the + operands in OPERANDS to be suitable for the low-numbered word. */ + + if (optype0 == REGOP) + latehalf[0] = gen_rtx (REG, SImode, REGNO (operands[0]) + 1); + else if (optype0 == OFFSOP) + latehalf[0] = adj_offsettable_operand (operands[0], 4); + else + latehalf[0] = operands[0]; + + if (optype1 == REGOP) + latehalf[1] = gen_rtx (REG, SImode, REGNO (operands[1]) + 1); + else if (optype1 == OFFSOP) + latehalf[1] = adj_offsettable_operand (operands[1], 4); + else if (optype1 == CNSTOP) + { + if (GET_CODE (operands[1]) == CONST_DOUBLE) + split_double (operands[1], &operands[1], &latehalf[1]); + else if (CONSTANT_P (operands[1])) + { + latehalf[1] = operands[1]; + operands[1] = const0_rtx; + } + } + else + latehalf[1] = operands[1]; + + /* If insn is effectively movd N(sp),-(sp) then we will do the + high word first. We should use the adjusted operand 1 (which is N+4(sp)) + for the low word as well, to compensate for the first decrement of sp. */ + if (optype0 == PUSHOP + && REGNO (XEXP (XEXP (operands[0], 0), 0)) == STACK_POINTER_REGNUM + && reg_overlap_mentioned_p (stack_pointer_rtx, operands[1])) + operands[1] = latehalf[1]; + + /* If one or both operands autodecrementing, + do the two words, high-numbered first. */ + + /* Likewise, the first move would clobber the source of the second one, + do them in the other order. This happens only for registers; + such overlap can't happen in memory unless the user explicitly + sets it up, and that is an undefined circumstance. */ + + if (optype0 == PUSHOP || optype1 == PUSHOP + || (optype0 == REGOP && optype1 == REGOP + && REGNO (operands[0]) == REGNO (latehalf[1]))) + { + /* Make any unoffsettable addresses point at high-numbered word. */ + if (addreg0) + output_asm_insn ("addql %#4,%0", &addreg0); + if (addreg1) + output_asm_insn ("addql %#4,%0", &addreg1); + + /* Do that word. */ + output_asm_insn (singlemove_string (latehalf), latehalf); + + /* Undo the adds we just did. */ + if (addreg0) + output_asm_insn ("subql %#4,%0", &addreg0); + if (addreg1) + output_asm_insn ("subql %#4,%0", &addreg1); + + /* Do low-numbered word. */ + return singlemove_string (operands); + } + + /* Normal case: do the two words, low-numbered first. */ + + output_asm_insn (singlemove_string (operands), operands); + + /* Make any unoffsettable addresses point at high-numbered word. */ + if (addreg0) + output_asm_insn ("addql %#4,%0", &addreg0); + if (addreg1) + output_asm_insn ("addql %#4,%0", &addreg1); + + /* Do that word. */ + output_asm_insn (singlemove_string (latehalf), latehalf); + + /* Undo the adds we just did. */ + if (addreg0) + output_asm_insn ("subql %#4,%0", &addreg0); + if (addreg1) + output_asm_insn ("subql %#4,%0", &addreg1); + + return ""; +} + +/* Return a REG that occurs in ADDR with coefficient 1. + ADDR can be effectively incremented by incrementing REG. */ + +static rtx +find_addr_reg (addr) + rtx addr; +{ + while (GET_CODE (addr) == PLUS) + { + if (GET_CODE (XEXP (addr, 0)) == REG) + addr = XEXP (addr, 0); + else if (GET_CODE (XEXP (addr, 1)) == REG) + addr = XEXP (addr, 1); + else if (CONSTANT_P (XEXP (addr, 0))) + addr = XEXP (addr, 1); + else if (CONSTANT_P (XEXP (addr, 1))) + addr = XEXP (addr, 0); + else + abort (); + } + if (GET_CODE (addr) == REG) + return addr; + abort (); +} + +int +standard_SunFPA_constant_p (x) + rtx x; +{ + return( 0 ); +} + |