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[/] [openrisc/] [trunk/] [gnu-src/] [gcc-4.2.2/] [gcc/] [config/] [c4x/] [c4x-modes.def] - Blame information for rev 294

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/* Definitions of target machine for GNU compiler.  TMS320C[34]x
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   Copyright (C) 2002, 2004, 2007 Free Software Foundation, Inc.
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   Contributed by Michael Hayes (m.hayes@elec.canterbury.ac.nz)
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              and Herman Ten Brugge (Haj.Ten.Brugge@net.HCC.nl).
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   This file is part of GCC.
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   GCC is free software; you can redistribute it and/or modify
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   it under the terms of the GNU General Public License as published by
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   the Free Software Foundation; either version 3, or (at your option)
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   any later version.
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   GCC is distributed in the hope that it will be useful,
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   but WITHOUT ANY WARRANTY; without even the implied warranty of
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   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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   GNU General Public License for more details.
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   You should have received a copy of the GNU General Public License
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   along with GCC; see the file COPYING3.  If not see
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   .  */
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/* C4x wants 1- and 2-word float modes, in its own peculiar format.
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   FIXME: Give this port a way to get rid of SFmode, DFmode, and all
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   the other modes it doesn't use.  */
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FLOAT_MODE (QF, 1, c4x_single_format);
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FLOAT_MODE (HF, 2, c4x_extended_format);
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RESET_FLOAT_FORMAT (SF, 0);  /* not used */
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RESET_FLOAT_FORMAT (DF, 0);  /* not used */
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/* Add any extra modes needed to represent the condition code.
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   On the C4x, we have a "no-overflow" mode which is used when an ADD,
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   SUB, NEG, or MPY insn is used to set the condition code.  This is
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   to prevent the combiner from optimizing away a following CMP of the
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   result with zero when a signed conditional branch or load insn
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   follows.
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   The problem is a subtle one and deals with the manner in which the
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   negative condition (N) flag is used on the C4x.  This flag does not
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   reflect the status of the actual result but of the ideal result had
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   no overflow occurred (when considering signed operands).
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   For example, 0x7fffffff + 1 => 0x80000000 Z=0 V=1 N=0 C=0.  Here
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   the flags reflect the untruncated result, not the actual result.
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   While the actual result is less than zero, the N flag is not set
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   since the ideal result of the addition without truncation would
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   have been positive.
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   Note that the while the N flag is handled differently to most other
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   architectures, the use of it is self consistent and is not the
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   cause of the problem.
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   Logical operations set the N flag to the MSB of the result so if
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   the result is negative, N is 1.  However, integer and floating
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   point operations set the N flag to be the MSB of the result
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   exclusive ored with the overflow (V) flag.  Thus if an overflow
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   occurs and the result does not have the MSB set (i.e., the result
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   looks like a positive number), the N flag is set.  Conversely, if
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   an overflow occurs and the MSB of the result is set, N is set to 0.
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   Thus the N flag represents the sign of the result if it could have
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   been stored without overflow but does not represent the apparent
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   sign of the result.  Note that most architectures set the N flag to
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   be the MSB of the result.
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   The C4x approach to setting the N flag simplifies signed
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   conditional branches and loads which only have to test the state of
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   the N flag, whereas most architectures have to look at both the N
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   and V flags.  The disadvantage is that there is no flag giving the
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   status of the sign bit of the operation.  However, there are no
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   conditional load or branch instructions that make use of this
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   feature (e.g., BMI---branch minus) instruction.  Note that BN and
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   BLT are identical in the C4x.
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   To handle the problem where the N flag is set differently whenever
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   there is an overflow we use a different CC mode, CC_NOOVmode which
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   says that the CC reflects the comparison of the result against zero
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   if no overflow occurred.
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   For example,
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   [(set (reg:CC_NOOV 21)
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         (compare:CC_NOOV (minus:QI (match_operand:QI 1 "src_operand" "")
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                                    (match_operand:QI 2 "src_operand" ""))
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                          (const_int 0)))
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    (set (match_operand:QI 0 "ext_reg_operand" "")
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         (minus:QI (match_dup 1)
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                   (match_dup 2)))]
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   Note that there is no problem for insns that don't return a result
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   like CMP, since the CC reflects the effect of operation.
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   An example of a potential problem is when GCC
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   converts   (LTU (MINUS (0x80000000) (0x7fffffff) (0x80000000)))
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   to         (LEU (MINUS (0x80000000) (0x7fffffff) (0x7fffffff)))
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   to         (GE  (MINUS (0x80000000) (0x7fffffff) (0x00000000)))
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   Now (MINUS (0x80000000) (0x7fffffff)) returns 0x00000001 but the
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   C4x sets the N flag since the result without overflow would have
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   been 0xffffffff when treating the operands as signed integers.
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   Thus (GE (MINUS (0x80000000) (0x7fffffff) (0x00000000))) sets the N
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   flag but (GE (0x00000001)) does not set the N flag.
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   The upshot is that we cannot use signed branch and conditional
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   load instructions after an add, subtract, neg, abs or multiply.
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   We must emit a compare insn to check the result against 0.  */
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CC_MODE (CC_NOOV);

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