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944fcfab56
* ppc-sysv-tdep.c: Re-indent.
512 lines
16 KiB
C
512 lines
16 KiB
C
/* Target-dependent code for PowerPC systems using the SVR4 ABI
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for GDB, the GNU debugger.
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Copyright 2000, 2001, 2002 Free Software Foundation, Inc.
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This file is part of GDB.
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This program 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 2 of the License, or
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(at your option) any later version.
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This program 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 this program; if not, write to the Free Software
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Foundation, Inc., 59 Temple Place - Suite 330,
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Boston, MA 02111-1307, USA. */
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#include "defs.h"
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#include "gdbcore.h"
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#include "inferior.h"
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#include "regcache.h"
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#include "value.h"
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#include "gdb_string.h"
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#include "ppc-tdep.h"
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/* Pass the arguments in either registers, or in the stack. Using the
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ppc sysv ABI, the first eight words of the argument list (that might
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be less than eight parameters if some parameters occupy more than one
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word) are passed in r3..r10 registers. float and double parameters are
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passed in fpr's, in addition to that. Rest of the parameters if any
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are passed in user stack.
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If the function is returning a structure, then the return address is passed
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in r3, then the first 7 words of the parametes can be passed in registers,
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starting from r4. */
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CORE_ADDR
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ppc_sysv_abi_push_dummy_call (struct gdbarch *gdbarch, CORE_ADDR func_addr,
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struct regcache *regcache, CORE_ADDR bp_addr,
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int nargs, struct value **args, CORE_ADDR sp,
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int struct_return, CORE_ADDR struct_addr)
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{
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struct gdbarch_tdep *tdep = gdbarch_tdep (current_gdbarch);
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const CORE_ADDR saved_sp = read_sp ();
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int argspace = 0; /* 0 is an initial wrong guess. */
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int write_pass;
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/* Go through the argument list twice.
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Pass 1: Figure out how much new stack space is required for
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arguments and pushed values. Unlike the PowerOpen ABI, the SysV
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ABI doesn't reserve any extra space for parameters which are put
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in registers, but does always push structures and then pass their
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address.
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Pass 2: Replay the same computation but this time also write the
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values out to the target. */
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for (write_pass = 0; write_pass < 2; write_pass++)
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{
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int argno;
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/* Next available floating point register for float and double
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arguments. */
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int freg = 1;
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/* Next available general register for non-float, non-vector
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arguments. */
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int greg = 3;
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/* Next available vector register for vector arguments. */
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int vreg = 2;
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/* Arguments start above the "LR save word" and "Back chain". */
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int argoffset = 2 * tdep->wordsize;
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/* Structures start after the arguments. */
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int structoffset = argoffset + argspace;
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/* If the function is returning a `struct', then the first word
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(which will be passed in r3) is used for struct return
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address. In that case we should advance one word and start
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from r4 register to copy parameters. */
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if (struct_return)
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{
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if (write_pass)
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regcache_cooked_write_signed (regcache,
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tdep->ppc_gp0_regnum + greg,
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struct_addr);
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greg++;
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}
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for (argno = 0; argno < nargs; argno++)
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{
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struct value *arg = args[argno];
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struct type *type = check_typedef (VALUE_TYPE (arg));
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int len = TYPE_LENGTH (type);
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char *val = VALUE_CONTENTS (arg);
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if (TYPE_CODE (type) == TYPE_CODE_FLT
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&& ppc_floating_point_unit_p (current_gdbarch) && len <= 8)
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{
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/* Floating point value converted to "double" then
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passed in an FP register, when the registers run out,
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8 byte aligned stack is used. */
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if (freg <= 8)
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{
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if (write_pass)
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{
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/* Always store the floating point value using
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the register's floating-point format. */
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char regval[MAX_REGISTER_SIZE];
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struct type *regtype
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= register_type (gdbarch, FP0_REGNUM + freg);
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convert_typed_floating (val, type, regval, regtype);
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regcache_cooked_write (regcache, FP0_REGNUM + freg,
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regval);
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}
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freg++;
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}
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else
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{
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/* SysV ABI converts floats to doubles before
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writing them to an 8 byte aligned stack location. */
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argoffset = align_up (argoffset, 8);
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if (write_pass)
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{
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char memval[8];
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struct type *memtype;
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switch (TARGET_BYTE_ORDER)
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{
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case BFD_ENDIAN_BIG:
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memtype = builtin_type_ieee_double_big;
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break;
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case BFD_ENDIAN_LITTLE:
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memtype = builtin_type_ieee_double_little;
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break;
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default:
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internal_error (__FILE__, __LINE__, "bad switch");
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}
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convert_typed_floating (val, type, memval, memtype);
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write_memory (sp + argoffset, val, len);
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}
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argoffset += 8;
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}
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}
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else if (len == 8 && (TYPE_CODE (type) == TYPE_CODE_INT /* long long */
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|| (!ppc_floating_point_unit_p (current_gdbarch) && TYPE_CODE (type) == TYPE_CODE_FLT))) /* double */
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{
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/* "long long" or "double" passed in an odd/even
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register pair with the low addressed word in the odd
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register and the high addressed word in the even
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register, or when the registers run out an 8 byte
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aligned stack location. */
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if (greg > 9)
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{
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/* Just in case GREG was 10. */
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greg = 11;
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argoffset = align_up (argoffset, 8);
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if (write_pass)
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write_memory (sp + argoffset, val, len);
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argoffset += 8;
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}
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else if (tdep->wordsize == 8)
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{
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if (write_pass)
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regcache_cooked_write (regcache,
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tdep->ppc_gp0_regnum + greg, val);
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greg += 1;
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}
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else
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{
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/* Must start on an odd register - r3/r4 etc. */
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if ((greg & 1) == 0)
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greg++;
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if (write_pass)
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{
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regcache_cooked_write (regcache,
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tdep->ppc_gp0_regnum + greg + 0,
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val + 0);
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regcache_cooked_write (regcache,
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tdep->ppc_gp0_regnum + greg + 1,
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val + 4);
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}
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greg += 2;
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}
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}
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else if (len == 16
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&& TYPE_CODE (type) == TYPE_CODE_ARRAY
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&& TYPE_VECTOR (type) && tdep->ppc_vr0_regnum >= 0)
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{
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/* Vector parameter passed in an Altivec register, or
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when that runs out, 16 byte aligned stack location. */
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if (vreg <= 13)
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{
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if (write_pass)
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regcache_cooked_write (current_regcache,
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tdep->ppc_vr0_regnum + vreg, val);
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vreg++;
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}
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else
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{
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argoffset = align_up (argoffset, 16);
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if (write_pass)
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write_memory (sp + argoffset, val, 16);
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argoffset += 16;
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}
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}
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else if (len == 8
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&& TYPE_CODE (type) == TYPE_CODE_ARRAY
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&& TYPE_VECTOR (type) && tdep->ppc_ev0_regnum >= 0)
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{
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/* Vector parameter passed in an e500 register, or when
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that runs out, 8 byte aligned stack location. Note
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that since e500 vector and general purpose registers
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both map onto the same underlying register set, a
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"greg" and not a "vreg" is consumed here. A cooked
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write stores the value in the correct locations
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within the raw register cache. */
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if (greg <= 10)
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{
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if (write_pass)
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regcache_cooked_write (current_regcache,
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tdep->ppc_ev0_regnum + greg, val);
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greg++;
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}
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else
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{
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argoffset = align_up (argoffset, 8);
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if (write_pass)
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write_memory (sp + argoffset, val, 8);
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argoffset += 8;
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}
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}
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else
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{
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/* Reduce the parameter down to something that fits in a
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"word". */
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char word[MAX_REGISTER_SIZE];
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memset (word, 0, MAX_REGISTER_SIZE);
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if (len > tdep->wordsize
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|| TYPE_CODE (type) == TYPE_CODE_STRUCT
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|| TYPE_CODE (type) == TYPE_CODE_UNION)
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{
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/* Structs and large values are put on an 8 byte
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aligned stack ... */
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structoffset = align_up (structoffset, 8);
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if (write_pass)
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write_memory (sp + structoffset, val, len);
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/* ... and then a "word" pointing to that address is
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passed as the parameter. */
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store_unsigned_integer (word, tdep->wordsize,
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sp + structoffset);
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structoffset += len;
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}
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else if (TYPE_CODE (type) == TYPE_CODE_INT)
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/* Sign or zero extend the "int" into a "word". */
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store_unsigned_integer (word, tdep->wordsize,
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unpack_long (type, val));
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else
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/* Always goes in the low address. */
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memcpy (word, val, len);
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/* Store that "word" in a register, or on the stack.
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The words have "4" byte alignment. */
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if (greg <= 10)
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{
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if (write_pass)
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regcache_cooked_write (regcache,
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tdep->ppc_gp0_regnum + greg, word);
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greg++;
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}
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else
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{
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argoffset = align_up (argoffset, tdep->wordsize);
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if (write_pass)
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write_memory (sp + argoffset, word, tdep->wordsize);
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argoffset += tdep->wordsize;
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}
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}
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}
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/* Compute the actual stack space requirements. */
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if (!write_pass)
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{
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/* Remember the amount of space needed by the arguments. */
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argspace = argoffset;
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/* Allocate space for both the arguments and the structures. */
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sp -= (argoffset + structoffset);
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/* Ensure that the stack is still 16 byte aligned. */
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sp = align_down (sp, 16);
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}
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}
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/* Update %sp. */
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regcache_cooked_write_signed (regcache, SP_REGNUM, sp);
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/* Write the backchain (it occupies WORDSIZED bytes). */
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write_memory_signed_integer (sp, tdep->wordsize, saved_sp);
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/* Point the inferior function call's return address at the dummy's
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breakpoint. */
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regcache_cooked_write_signed (regcache, tdep->ppc_lr_regnum, bp_addr);
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return sp;
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}
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/* Structures 8 bytes or less long are returned in the r3 & r4
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registers, according to the SYSV ABI. */
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int
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ppc_sysv_abi_use_struct_convention (int gcc_p, struct type *value_type)
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{
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if ((TYPE_LENGTH (value_type) == 16 || TYPE_LENGTH (value_type) == 8)
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&& TYPE_VECTOR (value_type))
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return 0;
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return (TYPE_LENGTH (value_type) > 8);
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}
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/* The 64 bit ABI retun value convention.
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Return non-zero if the return-value is stored in a register, return
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0 if the return-value is instead stored on the stack (a.k.a.,
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struct return convention).
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For a return-value stored in a register: when INVAL is non-NULL,
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copy the buffer to the corresponding register return-value location
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location; when OUTVAL is non-NULL, fill the buffer from the
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corresponding register return-value location. */
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/* Potential ways that a function can return a value of a given type. */
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enum return_value_convention
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{
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/* Where the return value has been squeezed into one or more
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registers. */
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RETURN_VALUE_REGISTER_CONVENTION,
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/* Commonly known as the "struct return convention". The caller
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passes an additional hidden first parameter to the caller. That
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parameter contains the address at which the value being returned
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should be stored. While typically, and historically, used for
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large structs, this is convention is applied to values of many
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different types. */
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RETURN_VALUE_STRUCT_CONVENTION
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};
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static enum return_value_convention
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ppc64_sysv_abi_return_value (struct type *valtype, struct regcache *regcache,
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const void *inval, void *outval)
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{
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struct gdbarch_tdep *tdep = gdbarch_tdep (current_gdbarch);
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/* Floats and doubles in F1. */
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if (TYPE_CODE (valtype) == TYPE_CODE_FLT && TYPE_LENGTH (valtype) <= 8)
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{
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char regval[MAX_REGISTER_SIZE];
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struct type *regtype = register_type (current_gdbarch, FP0_REGNUM);
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if (inval != NULL)
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{
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convert_typed_floating (inval, valtype, regval, regtype);
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regcache_cooked_write (regcache, FP0_REGNUM + 1, regval);
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}
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if (outval != NULL)
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{
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regcache_cooked_read (regcache, FP0_REGNUM + 1, regval);
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convert_typed_floating (regval, regtype, outval, valtype);
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}
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return RETURN_VALUE_REGISTER_CONVENTION;
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}
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if (TYPE_CODE (valtype) == TYPE_CODE_INT && TYPE_LENGTH (valtype) <= 8)
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{
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/* Integers in r3. */
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if (inval != NULL)
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{
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/* Be careful to sign extend the value. */
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regcache_cooked_write_unsigned (regcache, tdep->ppc_gp0_regnum + 3,
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unpack_long (valtype, inval));
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}
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if (outval != NULL)
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{
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/* Extract the integer from r3. Since this is truncating the
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value, there isn't a sign extension problem. */
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ULONGEST regval;
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regcache_cooked_read_unsigned (regcache, tdep->ppc_gp0_regnum + 3,
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®val);
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store_unsigned_integer (outval, TYPE_LENGTH (valtype), regval);
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}
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return RETURN_VALUE_REGISTER_CONVENTION;
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}
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/* All pointers live in r3. */
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if (TYPE_CODE (valtype) == TYPE_CODE_PTR)
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{
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/* All pointers live in r3. */
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if (inval != NULL)
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regcache_cooked_write (regcache, tdep->ppc_gp0_regnum + 3, inval);
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if (outval != NULL)
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regcache_cooked_read (regcache, tdep->ppc_gp0_regnum + 3, outval);
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return RETURN_VALUE_REGISTER_CONVENTION;
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}
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if (TYPE_CODE (valtype) == TYPE_CODE_ARRAY
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&& TYPE_LENGTH (valtype) <= 8
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&& TYPE_CODE (TYPE_TARGET_TYPE (valtype)) == TYPE_CODE_INT
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&& TYPE_LENGTH (TYPE_TARGET_TYPE (valtype)) == 1)
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{
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/* Small character arrays are returned, right justified, in r3. */
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int offset = (register_size (current_gdbarch, tdep->ppc_gp0_regnum + 3)
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- TYPE_LENGTH (valtype));
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if (inval != NULL)
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regcache_cooked_write_part (regcache, tdep->ppc_gp0_regnum + 3,
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offset, TYPE_LENGTH (valtype), inval);
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if (outval != NULL)
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regcache_cooked_read_part (regcache, tdep->ppc_gp0_regnum + 3,
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offset, TYPE_LENGTH (valtype), outval);
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return RETURN_VALUE_REGISTER_CONVENTION;
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}
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/* Big floating point values get stored in adjacent floating
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point registers. */
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if (TYPE_CODE (valtype) == TYPE_CODE_FLT
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&& (TYPE_LENGTH (valtype) == 16 || TYPE_LENGTH (valtype) == 32))
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{
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if (inval || outval != NULL)
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{
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int i;
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for (i = 0; i < TYPE_LENGTH (valtype) / 8; i++)
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{
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if (inval != NULL)
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regcache_cooked_write (regcache, FP0_REGNUM + 1 + i,
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(const bfd_byte *) inval + i * 8);
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if (outval != NULL)
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regcache_cooked_read (regcache, FP0_REGNUM + 1 + i,
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(bfd_byte *) outval + i * 8);
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}
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}
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return RETURN_VALUE_REGISTER_CONVENTION;
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}
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/* Complex values get returned in f1:f2, need to convert. */
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if (TYPE_CODE (valtype) == TYPE_CODE_COMPLEX
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&& (TYPE_LENGTH (valtype) == 8 || TYPE_LENGTH (valtype) == 16))
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{
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if (regcache != NULL)
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{
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int i;
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for (i = 0; i < 2; i++)
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{
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char regval[MAX_REGISTER_SIZE];
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struct type *regtype =
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register_type (current_gdbarch, FP0_REGNUM);
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if (inval != NULL)
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{
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convert_typed_floating ((const bfd_byte *) inval +
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i * (TYPE_LENGTH (valtype) / 2),
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valtype, regval, regtype);
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regcache_cooked_write (regcache, FP0_REGNUM + 1 + i,
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regval);
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}
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if (outval != NULL)
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{
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regcache_cooked_read (regcache, FP0_REGNUM + 1 + i, regval);
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convert_typed_floating (regval, regtype,
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(bfd_byte *) outval +
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i * (TYPE_LENGTH (valtype) / 2),
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valtype);
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}
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}
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}
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return RETURN_VALUE_REGISTER_CONVENTION;
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}
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/* Big complex values get stored in f1:f4. */
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if (TYPE_CODE (valtype) == TYPE_CODE_COMPLEX && TYPE_LENGTH (valtype) == 32)
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{
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if (regcache != NULL)
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{
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int i;
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for (i = 0; i < 4; i++)
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{
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if (inval != NULL)
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regcache_cooked_write (regcache, FP0_REGNUM + 1 + i,
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(const bfd_byte *) inval + i * 8);
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if (outval != NULL)
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regcache_cooked_read (regcache, FP0_REGNUM + 1 + i,
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(bfd_byte *) outval + i * 8);
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}
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}
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return RETURN_VALUE_REGISTER_CONVENTION;
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}
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return RETURN_VALUE_STRUCT_CONVENTION;
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}
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int
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ppc64_sysv_abi_use_struct_convention (int gcc_p, struct type *value_type)
|
|
{
|
|
return (ppc64_sysv_abi_return_value (value_type, NULL, NULL, NULL)
|
|
== RETURN_VALUE_STRUCT_CONVENTION);
|
|
}
|
|
|
|
void
|
|
ppc64_sysv_abi_extract_return_value (struct type *valtype,
|
|
struct regcache *regbuf, void *valbuf)
|
|
{
|
|
if (ppc64_sysv_abi_return_value (valtype, regbuf, NULL, valbuf)
|
|
!= RETURN_VALUE_REGISTER_CONVENTION)
|
|
error ("Function return value unknown");
|
|
}
|
|
|
|
void
|
|
ppc64_sysv_abi_store_return_value (struct type *valtype,
|
|
struct regcache *regbuf,
|
|
const void *valbuf)
|
|
{
|
|
if (!ppc64_sysv_abi_return_value (valtype, regbuf, valbuf, NULL))
|
|
error ("Function return value location unknown");
|
|
}
|