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	Backport from FSF:

	2010-08-25  Julian Brown  <julian@codesourcery.com>

	* config/arm/arm.c (arm_issue_rate): Return 2 for Cortex-A5.
	* config/arm/arm.md (generic_sched): No for Cortex-A5.
	(generic_vfp): Likewise.
	(cortex-a5.md): Include.
	* config/arm/cortex-a5.md: New.

2010-08-25  Andrew Stubbs  <ams@codesourcery.com>

 	Revert:
 
 	2010-07-26  Julian Brown  <julian@codesourcery.com>

=== modified file 'gcc/config/arm/arm.c'
--- old/gcc/config/arm/arm.c	2010-08-25 16:20:13 +0000
+++ new/gcc/config/arm/arm.c	2010-08-25 16:22:17 +0000
@@ -22472,6 +22472,7 @@
     {
     case cortexr4:
     case cortexr4f:
+    case cortexa5:
     case cortexa8:
     case cortexa9:
       return 2;

=== modified file 'gcc/config/arm/arm.md'
--- old/gcc/config/arm/arm.md	2010-08-25 16:20:13 +0000
+++ new/gcc/config/arm/arm.md	2010-08-25 16:22:17 +0000
@@ -412,7 +412,7 @@
 
 (define_attr "generic_sched" "yes,no"
   (const (if_then_else 
-          (ior (eq_attr "tune" "arm926ejs,arm1020e,arm1026ejs,arm1136js,arm1136jfs,cortexa8,cortexa9")
+          (ior (eq_attr "tune" "arm926ejs,arm1020e,arm1026ejs,arm1136js,arm1136jfs,cortexa5,cortexa8,cortexa9")
 	      (eq_attr "tune_cortexr4" "yes"))
           (const_string "no")
           (const_string "yes"))))
@@ -420,7 +420,7 @@
 (define_attr "generic_vfp" "yes,no"
   (const (if_then_else
 	  (and (eq_attr "fpu" "vfp")
-	       (eq_attr "tune" "!arm1020e,arm1022e,cortexa8,cortexa9")
+	       (eq_attr "tune" "!arm1020e,arm1022e,cortexa5,cortexa8,cortexa9")
 	       (eq_attr "tune_cortexr4" "no"))
 	  (const_string "yes")
 	  (const_string "no"))))
@@ -444,6 +444,7 @@
 (include "arm1020e.md")
 (include "arm1026ejs.md")
 (include "arm1136jfs.md")
+(include "cortex-a5.md")
 (include "cortex-a8.md")
 (include "cortex-a9.md")
 (include "cortex-r4.md")

=== added file 'gcc/config/arm/cortex-a5.md'
--- old/gcc/config/arm/cortex-a5.md	1970-01-01 00:00:00 +0000
+++ new/gcc/config/arm/cortex-a5.md	2010-08-25 16:22:17 +0000
@@ -0,0 +1,297 @@
+;; ARM Cortex-A5 pipeline description
+;; Copyright (C) 2010 Free Software Foundation, Inc.
+;; Contributed by CodeSourcery.
+;;
+;; This file is part of GCC.
+;;
+;; GCC 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 3, or (at your option)
+;; any later version.
+;;
+;; GCC 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 GCC; see the file COPYING3.  If not see
+;; <http://www.gnu.org/licenses/>.
+
+(define_automaton "cortex_a5")
+
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+;; Functional units.
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+
+;; The integer (ALU) pipeline.  There are five DPU pipeline
+;; stages. However the decode/issue stages operate the same for all
+;; instructions, so do not model them.  We only need to model the
+;; first execute stage because instructions always advance one stage
+;; per cycle in order.  Only branch instructions may dual-issue, so a
+;; single unit covers all of the LS, ALU, MAC and FPU pipelines.
+
+(define_cpu_unit "cortex_a5_ex1" "cortex_a5")
+
+;; The branch pipeline.  Branches can dual-issue with other instructions
+;; (except when those instructions take multiple cycles to issue).
+
+(define_cpu_unit "cortex_a5_branch" "cortex_a5")
+
+;; Pseudo-unit for blocking the multiply pipeline when a double-precision
+;; multiply is in progress.
+
+(define_cpu_unit "cortex_a5_fpmul_pipe" "cortex_a5")
+
+;; The floating-point add pipeline (ex1/f1 stage), used to model the usage
+;; of the add pipeline by fmac instructions, etc.
+
+(define_cpu_unit "cortex_a5_fpadd_pipe" "cortex_a5")
+
+;; Floating-point div/sqrt (long latency, out-of-order completion).
+
+(define_cpu_unit "cortex_a5_fp_div_sqrt" "cortex_a5")
+
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+;; ALU instructions.
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+
+(define_insn_reservation "cortex_a5_alu" 2
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "alu"))
+  "cortex_a5_ex1")
+
+(define_insn_reservation "cortex_a5_alu_shift" 2
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "alu_shift,alu_shift_reg"))
+  "cortex_a5_ex1")
+
+;; Forwarding path for unshifted operands.
+
+(define_bypass 1 "cortex_a5_alu,cortex_a5_alu_shift"
+  "cortex_a5_alu")
+
+(define_bypass 1 "cortex_a5_alu,cortex_a5_alu_shift"
+  "cortex_a5_alu_shift"
+  "arm_no_early_alu_shift_dep")
+
+;; The multiplier pipeline can forward results from wr stage only so 
+;; there's no need to specify bypasses).
+
+(define_insn_reservation "cortex_a5_mul" 2
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "mult"))
+  "cortex_a5_ex1")
+
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+;; Load/store instructions.
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+
+;; Address-generation happens in the issue stage, which is one stage behind
+;; the ex1 stage (the first stage we care about for scheduling purposes). The
+;; dc1 stage is parallel with ex1, dc2 with ex2 and rot with wr.
+
+(define_insn_reservation "cortex_a5_load1" 2
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "load_byte,load1"))
+  "cortex_a5_ex1")
+
+(define_insn_reservation "cortex_a5_store1" 0
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "store1"))
+  "cortex_a5_ex1")
+
+(define_insn_reservation "cortex_a5_load2" 3
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "load2"))
+  "cortex_a5_ex1+cortex_a5_branch, cortex_a5_ex1")
+
+(define_insn_reservation "cortex_a5_store2" 0
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "store2"))
+  "cortex_a5_ex1+cortex_a5_branch, cortex_a5_ex1")
+
+(define_insn_reservation "cortex_a5_load3" 4
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "load3"))
+  "cortex_a5_ex1+cortex_a5_branch, cortex_a5_ex1+cortex_a5_branch,\
+   cortex_a5_ex1")
+
+(define_insn_reservation "cortex_a5_store3" 0
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "store3"))
+  "cortex_a5_ex1+cortex_a5_branch, cortex_a5_ex1+cortex_a5_branch,\
+   cortex_a5_ex1")
+
+(define_insn_reservation "cortex_a5_load4" 5
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "load3"))
+  "cortex_a5_ex1+cortex_a5_branch, cortex_a5_ex1+cortex_a5_branch,\
+   cortex_a5_ex1+cortex_a5_branch, cortex_a5_ex1")
+
+(define_insn_reservation "cortex_a5_store4" 0
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "store3"))
+  "cortex_a5_ex1+cortex_a5_branch, cortex_a5_ex1+cortex_a5_branch,\
+   cortex_a5_ex1+cortex_a5_branch, cortex_a5_ex1")
+
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+;; Branches.
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+
+;; Direct branches are the only instructions we can dual-issue (also IT and
+;; nop, but those aren't very interesting for scheduling).  (The latency here
+;; is meant to represent when the branch actually takes place, but may not be
+;; entirely correct.)
+
+(define_insn_reservation "cortex_a5_branch" 3
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "branch,call"))
+  "cortex_a5_branch")
+
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+;; Floating-point arithmetic.
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+
+(define_insn_reservation "cortex_a5_fpalu" 4
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "ffariths, fadds, ffarithd, faddd, fcpys, fmuls, f_cvt,\
+			fcmps, fcmpd"))
+  "cortex_a5_ex1+cortex_a5_fpadd_pipe")
+
+;; For fconsts and fconstd, 8-bit immediate data is passed directly from
+;; f1 to f3 (which I think reduces the latency by one cycle).
+
+(define_insn_reservation "cortex_a5_fconst" 3
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "fconsts,fconstd"))
+  "cortex_a5_ex1+cortex_a5_fpadd_pipe")
+
+;; We should try not to attempt to issue a single-precision multiplication in
+;; the middle of a double-precision multiplication operation (the usage of
+;; cortex_a5_fpmul_pipe).
+
+(define_insn_reservation "cortex_a5_fpmuls" 4
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "fmuls"))
+  "cortex_a5_ex1+cortex_a5_fpmul_pipe")
+
+;; For single-precision multiply-accumulate, the add (accumulate) is issued
+;; whilst the multiply is in F4.  The multiply result can then be forwarded
+;; from F5 to F1.  The issue unit is only used once (when we first start
+;; processing the instruction), but the usage of the FP add pipeline could
+;; block other instructions attempting to use it simultaneously.  We try to
+;; avoid that using cortex_a5_fpadd_pipe.
+
+(define_insn_reservation "cortex_a5_fpmacs" 8
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "fmacs"))
+  "cortex_a5_ex1+cortex_a5_fpmul_pipe, nothing*3, cortex_a5_fpadd_pipe")
+
+;; Non-multiply instructions can issue in the middle two instructions of a
+;; double-precision multiply.  Note that it isn't entirely clear when a branch
+;; can dual-issue when a multi-cycle multiplication is in progress; we ignore
+;; that for now though.
+
+(define_insn_reservation "cortex_a5_fpmuld" 7
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "fmuld"))
+  "cortex_a5_ex1+cortex_a5_fpmul_pipe, cortex_a5_fpmul_pipe*2,\
+   cortex_a5_ex1+cortex_a5_fpmul_pipe")
+
+(define_insn_reservation "cortex_a5_fpmacd" 11
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "fmacd"))
+  "cortex_a5_ex1+cortex_a5_fpmul_pipe, cortex_a5_fpmul_pipe*2,\
+   cortex_a5_ex1+cortex_a5_fpmul_pipe, nothing*3, cortex_a5_fpadd_pipe")
+
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+;; Floating-point divide/square root instructions.
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+
+;; ??? Not sure if the 14 cycles taken for single-precision divide to complete
+;; includes the time taken for the special instruction used to collect the
+;; result to travel down the multiply pipeline, or not.  Assuming so.  (If
+;; that's wrong, the latency should be increased by a few cycles.)
+
+;; fsqrt takes one cycle less, but that is not modelled, nor is the use of the
+;; multiply pipeline to collect the divide/square-root result.
+
+(define_insn_reservation "cortex_a5_fdivs" 14
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "fdivs"))
+  "cortex_a5_ex1, cortex_a5_fp_div_sqrt * 13")
+
+;; ??? Similarly for fdivd.
+
+(define_insn_reservation "cortex_a5_fdivd" 29
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "fdivd"))
+  "cortex_a5_ex1, cortex_a5_fp_div_sqrt * 28")
+
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+;; VFP to/from core transfers.
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+
+;; FP loads take data from wr/rot/f3.
+
+;; Core-to-VFP transfers use the multiply pipeline.
+
+(define_insn_reservation "cortex_a5_r2f" 4
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "r_2_f"))
+  "cortex_a5_ex1")
+
+(define_insn_reservation "cortex_a5_f2r" 2
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "f_2_r"))
+  "cortex_a5_ex1")
+
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+;; VFP flag transfer.
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+
+;; ??? The flag forwarding from fmstat to the ex2 stage of the second
+;; instruction is not modeled at present.
+
+(define_insn_reservation "cortex_a5_f_flags" 4
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "f_flag"))
+  "cortex_a5_ex1")
+
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+;; VFP load/store.
+;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
+
+(define_insn_reservation "cortex_a5_f_loads" 4
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "f_loads"))
+  "cortex_a5_ex1")
+
+(define_insn_reservation "cortex_a5_f_loadd" 5
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "f_load,f_loadd"))
+  "cortex_a5_ex1+cortex_a5_branch, cortex_a5_ex1")
+
+(define_insn_reservation "cortex_a5_f_stores" 0
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "f_stores"))
+  "cortex_a5_ex1")
+
+(define_insn_reservation "cortex_a5_f_stored" 0
+  (and (eq_attr "tune" "cortexa5")
+       (eq_attr "type" "f_store,f_stored"))
+  "cortex_a5_ex1+cortex_a5_branch, cortex_a5_ex1")
+
+;; Load-to-use for floating-point values has a penalty of one cycle,
+;; i.e. a latency of two.
+
+(define_bypass 2 "cortex_a5_f_loads"
+                 "cortex_a5_fpalu, cortex_a5_fpmacs, cortex_a5_fpmuld,\
+		  cortex_a5_fpmacd, cortex_a5_fdivs, cortex_a5_fdivd,\
+		  cortex_a5_f2r")
+
+(define_bypass 3 "cortex_a5_f_loadd"
+                 "cortex_a5_fpalu, cortex_a5_fpmacs, cortex_a5_fpmuld,\
+		  cortex_a5_fpmacd, cortex_a5_fdivs, cortex_a5_fdivd,\
+		  cortex_a5_f2r")