X-Git-Url: https://oss.titaniummirror.com/gitweb/?a=blobdiff_plain;f=gcc%2Fconfig%2Fia64%2Fitanium1.md;fp=gcc%2Fconfig%2Fia64%2Fitanium1.md;h=e2a5283220599475fafa30046efa1a294fb5527d;hb=6fed43773c9b0ce596dca5686f37ac3fc0fa11c0;hp=0000000000000000000000000000000000000000;hpb=27b11d56b743098deb193d510b337ba22dc52e5c;p=msp430-gcc.git diff --git a/gcc/config/ia64/itanium1.md b/gcc/config/ia64/itanium1.md new file mode 100644 index 00000000..e2a52832 --- /dev/null +++ b/gcc/config/ia64/itanium1.md @@ -0,0 +1,1695 @@ +;; Itanium1 (original Itanium) DFA descriptions for insn scheduling +;; and bundling. +;; Copyright (C) 2002, 2004, 2005, 2007 Free Software Foundation, Inc. +;; Contributed by Vladimir Makarov . +;; +;; 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 +;; . */ +;; + + +/* This is description of pipeline hazards based on DFA. The + following constructions can be used for this: + + o define_cpu_unit string [string]) describes a cpu functional unit + (separated by comma). + + 1st operand: Names of cpu function units. + 2nd operand: Name of automaton (see comments for + DEFINE_AUTOMATON). + + All define_reservations and define_cpu_units should have unique + names which cannot be "nothing". + + o (exclusion_set string string) means that each CPU function unit + in the first string cannot be reserved simultaneously with each + unit whose name is in the second string and vise versa. CPU + units in the string are separated by commas. For example, it is + useful for description CPU with fully pipelined floating point + functional unit which can execute simultaneously only single + floating point insns or only double floating point insns. + + o (presence_set string string) means that each CPU function unit in + the first string cannot be reserved unless at least one of + pattern of units whose names are in the second string is + reserved. This is an asymmetric relation. CPU units or unit + patterns in the strings are separated by commas. Pattern is one + unit name or unit names separated by white-spaces. + + For example, it is useful for description that slot1 is reserved + after slot0 reservation for a VLIW processor. We could describe + it by the following construction + + (presence_set "slot1" "slot0") + + Or slot1 is reserved only after slot0 and unit b0 reservation. + In this case we could write + + (presence_set "slot1" "slot0 b0") + + All CPU functional units in a set should belong to the same + automaton. + + o (final_presence_set string string) is analogous to + `presence_set'. The difference between them is when checking is + done. When an instruction is issued in given automaton state + reflecting all current and planned unit reservations, the + automaton state is changed. The first state is a source state, + the second one is a result state. Checking for `presence_set' is + done on the source state reservation, checking for + `final_presence_set' is done on the result reservation. This + construction is useful to describe a reservation which is + actually two subsequent reservations. For example, if we use + + (presence_set "slot1" "slot0") + + the following insn will be never issued (because slot1 requires + slot0 which is absent in the source state). + + (define_reservation "insn_and_nop" "slot0 + slot1") + + but it can be issued if we use analogous `final_presence_set'. + + o (absence_set string string) means that each CPU function unit in + the first string can be reserved only if each pattern of units + whose names are in the second string is not reserved. This is an + asymmetric relation (actually exclusion set is analogous to this + one but it is symmetric). CPU units or unit patterns in the + string are separated by commas. Pattern is one unit name or unit + names separated by white-spaces. + + For example, it is useful for description that slot0 cannot be + reserved after slot1 or slot2 reservation for a VLIW processor. + We could describe it by the following construction + + (absence_set "slot2" "slot0, slot1") + + Or slot2 cannot be reserved if slot0 and unit b0 are reserved or + slot1 and unit b1 are reserved . In this case we could write + + (absence_set "slot2" "slot0 b0, slot1 b1") + + All CPU functional units in a set should to belong the same + automaton. + + o (final_absence_set string string) is analogous to `absence_set' but + checking is done on the result (state) reservation. See comments + for final_presence_set. + + o (define_bypass number out_insn_names in_insn_names) names bypass with + given latency (the first number) from insns given by the first + string (see define_insn_reservation) into insns given by the + second string. Insn names in the strings are separated by + commas. + + o (define_automaton string) describes names of an automaton + generated and used for pipeline hazards recognition. The names + are separated by comma. Actually it is possibly to generate the + single automaton but unfortunately it can be very large. If we + use more one automata, the summary size of the automata usually + is less than the single one. The automaton name is used in + define_cpu_unit. All automata should have unique names. + + o (automata_option string) describes option for generation of + automata. Currently there are the following options: + + o "no-minimization" which makes no minimization of automata. + This is only worth to do when we are debugging the description + and need to look more accurately at reservations of states. + + o "ndfa" which makes automata with nondeterministic reservation + by insns. + + o (define_reservation string string) names reservation (the first + string) of cpu functional units (the 2nd string). Sometimes unit + reservations for different insns contain common parts. In such + case, you describe common part and use one its name (the 1st + parameter) in regular expression in define_insn_reservation. All + define_reservations, define results and define_cpu_units should + have unique names which cannot be "nothing". + + o (define_insn_reservation name default_latency condition regexpr) + describes reservation of cpu functional units (the 3nd operand) + for instruction which is selected by the condition (the 2nd + parameter). The first parameter is used for output of debugging + information. The reservations are described by a regular + expression according the following syntax: + + regexp = regexp "," oneof + | oneof + + oneof = oneof "|" allof + | allof + + allof = allof "+" repeat + | repeat + + repeat = element "*" number + | element + + element = cpu_function_name + | reservation_name + | result_name + | "nothing" + | "(" regexp ")" + + 1. "," is used for describing start of the next cycle in + reservation. + + 2. "|" is used for describing the reservation described by the + first regular expression *or* the reservation described by + the second regular expression *or* etc. + + 3. "+" is used for describing the reservation described by the + first regular expression *and* the reservation described by + the second regular expression *and* etc. + + 4. "*" is used for convenience and simply means sequence in + which the regular expression are repeated NUMBER times with + cycle advancing (see ","). + + 5. cpu function unit name which means reservation. + + 6. reservation name -- see define_reservation. + + 7. string "nothing" means no units reservation. + +*/ + +(define_automaton "one") + +;; All possible combinations of bundles/syllables +(define_cpu_unit "1_0m.ii, 1_0m.mi, 1_0m.fi, 1_0m.mf, 1_0b.bb, 1_0m.bb,\ + 1_0m.ib, 1_0m.mb, 1_0m.fb, 1_0m.lx" "one") +(define_cpu_unit "1_0mi.i, 1_0mm.i, 1_0mf.i, 1_0mm.f, 1_0bb.b, 1_0mb.b,\ + 1_0mi.b, 1_0mm.b, 1_0mf.b, 1_0mlx." "one") +(define_cpu_unit "1_0mii., 1_0mmi., 1_0mfi., 1_0mmf., 1_0bbb., 1_0mbb.,\ + 1_0mib., 1_0mmb., 1_0mfb." "one") + +(define_cpu_unit "1_1m.ii, 1_1m.mi, 1_1m.fi, 1_1b.bb, 1_1m.bb,\ + 1_1m.ib, 1_1m.mb, 1_1m.fb, 1_1m.lx" "one") +(define_cpu_unit "1_1mi.i, 1_1mm.i, 1_1mf.i, 1_1bb.b, 1_1mb.b,\ + 1_1mi.b, 1_1mm.b, 1_1mf.b, 1_1mlx." "one") +(define_cpu_unit "1_1mii., 1_1mmi., 1_1mfi., 1_1bbb., 1_1mbb.,\ + 1_1mib., 1_1mmb., 1_1mfb." "one") + +;; Slot 1 +(exclusion_set "1_0m.ii" + "1_0m.mi, 1_0m.fi, 1_0m.mf, 1_0b.bb, 1_0m.bb, 1_0m.ib, 1_0m.mb, 1_0m.fb,\ + 1_0m.lx") +(exclusion_set "1_0m.mi" + "1_0m.fi, 1_0m.mf, 1_0b.bb, 1_0m.bb, 1_0m.ib, 1_0m.mb, 1_0m.fb, 1_0m.lx") +(exclusion_set "1_0m.fi" + "1_0m.mf, 1_0b.bb, 1_0m.bb, 1_0m.ib, 1_0m.mb, 1_0m.fb, 1_0m.lx") +(exclusion_set "1_0m.mf" + "1_0b.bb, 1_0m.bb, 1_0m.ib, 1_0m.mb, 1_0m.fb, 1_0m.lx") +(exclusion_set "1_0b.bb" "1_0m.bb, 1_0m.ib, 1_0m.mb, 1_0m.fb, 1_0m.lx") +(exclusion_set "1_0m.bb" "1_0m.ib, 1_0m.mb, 1_0m.fb, 1_0m.lx") +(exclusion_set "1_0m.ib" "1_0m.mb, 1_0m.fb, 1_0m.lx") +(exclusion_set "1_0m.mb" "1_0m.fb, 1_0m.lx") +(exclusion_set "1_0m.fb" "1_0m.lx") + +;; Slot 2 +(exclusion_set "1_0mi.i" + "1_0mm.i, 1_0mf.i, 1_0mm.f, 1_0bb.b, 1_0mb.b, 1_0mi.b, 1_0mm.b, 1_0mf.b,\ + 1_0mlx.") +(exclusion_set "1_0mm.i" + "1_0mf.i, 1_0mm.f, 1_0bb.b, 1_0mb.b, 1_0mi.b, 1_0mm.b, 1_0mf.b, 1_0mlx.") +(exclusion_set "1_0mf.i" + "1_0mm.f, 1_0bb.b, 1_0mb.b, 1_0mi.b, 1_0mm.b, 1_0mf.b, 1_0mlx.") +(exclusion_set "1_0mm.f" + "1_0bb.b, 1_0mb.b, 1_0mi.b, 1_0mm.b, 1_0mf.b, 1_0mlx.") +(exclusion_set "1_0bb.b" "1_0mb.b, 1_0mi.b, 1_0mm.b, 1_0mf.b, 1_0mlx.") +(exclusion_set "1_0mb.b" "1_0mi.b, 1_0mm.b, 1_0mf.b, 1_0mlx.") +(exclusion_set "1_0mi.b" "1_0mm.b, 1_0mf.b, 1_0mlx.") +(exclusion_set "1_0mm.b" "1_0mf.b, 1_0mlx.") +(exclusion_set "1_0mf.b" "1_0mlx.") + +;; Slot 3 +(exclusion_set "1_0mii." + "1_0mmi., 1_0mfi., 1_0mmf., 1_0bbb., 1_0mbb., 1_0mib., 1_0mmb., 1_0mfb.,\ + 1_0mlx.") +(exclusion_set "1_0mmi." + "1_0mfi., 1_0mmf., 1_0bbb., 1_0mbb., 1_0mib., 1_0mmb., 1_0mfb., 1_0mlx.") +(exclusion_set "1_0mfi." + "1_0mmf., 1_0bbb., 1_0mbb., 1_0mib., 1_0mmb., 1_0mfb., 1_0mlx.") +(exclusion_set "1_0mmf." + "1_0bbb., 1_0mbb., 1_0mib., 1_0mmb., 1_0mfb., 1_0mlx.") +(exclusion_set "1_0bbb." "1_0mbb., 1_0mib., 1_0mmb., 1_0mfb., 1_0mlx.") +(exclusion_set "1_0mbb." "1_0mib., 1_0mmb., 1_0mfb., 1_0mlx.") +(exclusion_set "1_0mib." "1_0mmb., 1_0mfb., 1_0mlx.") +(exclusion_set "1_0mmb." "1_0mfb., 1_0mlx.") +(exclusion_set "1_0mfb." "1_0mlx.") + +;; Slot 4 +(exclusion_set "1_1m.ii" + "1_1m.mi, 1_1m.fi, 1_1b.bb, 1_1m.bb, 1_1m.ib, 1_1m.mb, 1_1m.fb, 1_1m.lx") +(exclusion_set "1_1m.mi" + "1_1m.fi, 1_1b.bb, 1_1m.bb, 1_1m.ib, 1_1m.mb, 1_1m.fb, 1_1m.lx") +(exclusion_set "1_1m.fi" + "1_1b.bb, 1_1m.bb, 1_1m.ib, 1_1m.mb, 1_1m.fb, 1_1m.lx") +(exclusion_set "1_1b.bb" "1_1m.bb, 1_1m.ib, 1_1m.mb, 1_1m.fb, 1_1m.lx") +(exclusion_set "1_1m.bb" "1_1m.ib, 1_1m.mb, 1_1m.fb, 1_1m.lx") +(exclusion_set "1_1m.ib" "1_1m.mb, 1_1m.fb, 1_1m.lx") +(exclusion_set "1_1m.mb" "1_1m.fb, 1_1m.lx") +(exclusion_set "1_1m.fb" "1_1m.lx") + +;; Slot 5 +(exclusion_set "1_1mi.i" + "1_1mm.i, 1_1mf.i, 1_1bb.b, 1_1mb.b, 1_1mi.b, 1_1mm.b, 1_1mf.b, 1_1mlx.") +(exclusion_set "1_1mm.i" + "1_1mf.i, 1_1bb.b, 1_1mb.b, 1_1mi.b, 1_1mm.b, 1_1mf.b, 1_1mlx.") +(exclusion_set "1_1mf.i" + "1_1bb.b, 1_1mb.b, 1_1mi.b, 1_1mm.b, 1_1mf.b, 1_1mlx.") +(exclusion_set "1_1bb.b" "1_1mb.b, 1_1mi.b, 1_1mm.b, 1_1mf.b, 1_1mlx.") +(exclusion_set "1_1mb.b" "1_1mi.b, 1_1mm.b, 1_1mf.b, 1_1mlx.") +(exclusion_set "1_1mi.b" "1_1mm.b, 1_1mf.b, 1_1mlx.") +(exclusion_set "1_1mm.b" "1_1mf.b, 1_1mlx.") +(exclusion_set "1_1mf.b" "1_1mlx.") + +;; Slot 6 +(exclusion_set "1_1mii." + "1_1mmi., 1_1mfi., 1_1bbb., 1_1mbb., 1_1mib., 1_1mmb., 1_1mfb., 1_1mlx.") +(exclusion_set "1_1mmi." + "1_1mfi., 1_1bbb., 1_1mbb., 1_1mib., 1_1mmb., 1_1mfb., 1_1mlx.") +(exclusion_set "1_1mfi." + "1_1bbb., 1_1mbb., 1_1mib., 1_1mmb., 1_1mfb., 1_1mlx.") +(exclusion_set "1_1bbb." "1_1mbb., 1_1mib., 1_1mmb., 1_1mfb., 1_1mlx.") +(exclusion_set "1_1mbb." "1_1mib., 1_1mmb., 1_1mfb., 1_1mlx.") +(exclusion_set "1_1mib." "1_1mmb., 1_1mfb., 1_1mlx.") +(exclusion_set "1_1mmb." "1_1mfb., 1_1mlx.") +(exclusion_set "1_1mfb." "1_1mlx.") + +(final_presence_set "1_0mi.i" "1_0m.ii") +(final_presence_set "1_0mii." "1_0mi.i") +(final_presence_set "1_1mi.i" "1_1m.ii") +(final_presence_set "1_1mii." "1_1mi.i") + +(final_presence_set "1_0mm.i" "1_0m.mi") +(final_presence_set "1_0mmi." "1_0mm.i") +(final_presence_set "1_1mm.i" "1_1m.mi") +(final_presence_set "1_1mmi." "1_1mm.i") + +(final_presence_set "1_0mf.i" "1_0m.fi") +(final_presence_set "1_0mfi." "1_0mf.i") +(final_presence_set "1_1mf.i" "1_1m.fi") +(final_presence_set "1_1mfi." "1_1mf.i") + +(final_presence_set "1_0mm.f" "1_0m.mf") +(final_presence_set "1_0mmf." "1_0mm.f") + +(final_presence_set "1_0bb.b" "1_0b.bb") +(final_presence_set "1_0bbb." "1_0bb.b") +(final_presence_set "1_1bb.b" "1_1b.bb") +(final_presence_set "1_1bbb." "1_1bb.b") + +(final_presence_set "1_0mb.b" "1_0m.bb") +(final_presence_set "1_0mbb." "1_0mb.b") +(final_presence_set "1_1mb.b" "1_1m.bb") +(final_presence_set "1_1mbb." "1_1mb.b") + +(final_presence_set "1_0mi.b" "1_0m.ib") +(final_presence_set "1_0mib." "1_0mi.b") +(final_presence_set "1_1mi.b" "1_1m.ib") +(final_presence_set "1_1mib." "1_1mi.b") + +(final_presence_set "1_0mm.b" "1_0m.mb") +(final_presence_set "1_0mmb." "1_0mm.b") +(final_presence_set "1_1mm.b" "1_1m.mb") +(final_presence_set "1_1mmb." "1_1mm.b") + +(final_presence_set "1_0mf.b" "1_0m.fb") +(final_presence_set "1_0mfb." "1_0mf.b") +(final_presence_set "1_1mf.b" "1_1m.fb") +(final_presence_set "1_1mfb." "1_1mf.b") + +(final_presence_set "1_0mlx." "1_0m.lx") +(final_presence_set "1_1mlx." "1_1m.lx") + +(final_presence_set + "1_1m.ii,1_1m.mi,1_1m.fi,1_1b.bb,1_1m.bb,1_1m.ib,1_1m.mb,1_1m.fb,1_1m.lx" + "1_0mii.,1_0mmi.,1_0mfi.,1_0mmf.,1_0bbb.,1_0mbb.,1_0mib.,1_0mmb.,1_0mfb.,\ + 1_0mlx.") + +;; Microarchitecture units: +(define_cpu_unit + "1_um0, 1_um1, 1_ui0, 1_ui1, 1_uf0, 1_uf1, 1_ub0, 1_ub1, 1_ub2,\ + 1_unb0, 1_unb1, 1_unb2" "one") + +(exclusion_set "1_ub0" "1_unb0") +(exclusion_set "1_ub1" "1_unb1") +(exclusion_set "1_ub2" "1_unb2") + +;; The following rules are used to decrease number of alternatives. +;; They are consequences of Itanium microarchitecture. They also +;; describe the following rules mentioned in Itanium +;; microarchitecture: rules mentioned in Itanium microarchitecture: +;; o "MMF: Always splits issue before the first M and after F regardless +;; of surrounding bundles and stops". +;; o "BBB/MBB: Always splits issue after either of these bundles". +;; o "MIB BBB: Split issue after the first bundle in this pair". + +(exclusion_set "1_0m.mf,1_0mm.f,1_0mmf." + "1_1m.ii,1_1m.mi,1_1m.fi,1_1b.bb,1_1m.bb,1_1m.ib,1_1m.mb,1_1m.fb,1_1m.lx") +(exclusion_set "1_0b.bb,1_0bb.b,1_0bbb.,1_0m.bb,1_0mb.b,1_0mbb." + "1_1m.ii,1_1m.mi,1_1m.fi,1_1b.bb,1_1m.bb,1_1m.ib,1_1m.mb,1_1m.fb,1_1m.lx") +(exclusion_set "1_0m.ib,1_0mi.b,1_0mib." "1_1b.bb") + +;; For exceptions of M, I, B, F insns: +(define_cpu_unit "1_not_um1, 1_not_ui1, 1_not_uf1" "one") + +(final_absence_set "1_not_um1" "1_um1") +(final_absence_set "1_not_ui1" "1_ui1") +(final_absence_set "1_not_uf1" "1_uf1") + +;;; "MIB/MFB/MMB: Splits issue after any of these bundles unless the +;;; B-slot contains a nop.b or a brp instruction". +;;; "The B in an MIB/MFB/MMB bundle disperses to B0 if it is a brp or +;;; nop.b, otherwise it disperses to B2". +(final_absence_set + "1_1m.ii, 1_1m.mi, 1_1m.fi, 1_1b.bb, 1_1m.bb, 1_1m.ib, 1_1m.mb, 1_1m.fb,\ + 1_1m.lx" + "1_0mib. 1_ub2, 1_0mfb. 1_ub2, 1_0mmb. 1_ub2") + +;; This is necessary to start new processor cycle when we meet stop bit. +(define_cpu_unit "1_stop" "one") +(final_absence_set + "1_0m.ii,1_0mi.i,1_0mii.,1_0m.mi,1_0mm.i,1_0mmi.,1_0m.fi,1_0mf.i,1_0mfi.,\ + 1_0m.mf,1_0mm.f,1_0mmf.,1_0b.bb,1_0bb.b,1_0bbb.,1_0m.bb,1_0mb.b,1_0mbb.,\ + 1_0m.ib,1_0mi.b,1_0mib.,1_0m.mb,1_0mm.b,1_0mmb.,1_0m.fb,1_0mf.b,1_0mfb.,\ + 1_0m.lx,1_0mlx., \ + 1_1m.ii,1_1mi.i,1_1mii.,1_1m.mi,1_1mm.i,1_1mmi.,1_1m.fi,1_1mf.i,1_1mfi.,\ + 1_1b.bb,1_1bb.b,1_1bbb.,1_1m.bb,1_1mb.b,1_1mbb.,1_1m.ib,1_1mi.b,1_1mib.,\ + 1_1m.mb,1_1mm.b,1_1mmb.,1_1m.fb,1_1mf.b,1_1mfb.,1_1m.lx,1_1mlx." + "1_stop") + +;; M and I instruction is dispersed to the lowest numbered M or I unit +;; not already in use. An I slot in the 3rd position of 2nd bundle is +;; always dispersed to I1 +(final_presence_set "1_um1" "1_um0") +(final_presence_set "1_ui1" "1_ui0, 1_1mii., 1_1mmi., 1_1mfi.") + +;; Insns + +;; M and I instruction is dispersed to the lowest numbered M or I unit +;; not already in use. An I slot in the 3rd position of 2nd bundle is +;; always dispersed to I1 +(define_reservation "1_M0" + "1_0m.ii+1_um0|1_0m.mi+1_um0|1_0mm.i+(1_um0|1_um1)\ + |1_0m.fi+1_um0|1_0m.mf+1_um0|1_0mm.f+1_um1\ + |1_0m.bb+1_um0|1_0m.ib+1_um0|1_0m.mb+1_um0\ + |1_0mm.b+1_um1|1_0m.fb+1_um0|1_0m.lx+1_um0\ + |1_1mm.i+1_um1|1_1mm.b+1_um1\ + |(1_1m.ii|1_1m.mi|1_1m.fi|1_1m.bb|1_1m.ib|1_1m.mb|1_1m.fb|1_1m.lx)\ + +(1_um0|1_um1)") + +(define_reservation "1_M1" + "(1_0mii.+(1_ui0|1_ui1)|1_0mmi.+1_ui0|1_0mfi.+1_ui0\ + |1_0mib.+1_unb0|1_0mfb.+1_unb0|1_0mmb.+1_unb0)\ + +(1_1m.ii|1_1m.mi|1_1m.fi|1_1m.bb|1_1m.ib|1_1m.mb|1_1m.fb|1_1m.lx)\ + +(1_um0|1_um1)") + +(define_reservation "1_M" "1_M0|1_M1") + +;; Exceptions for dispersal rules. +;; "An I slot in the 3rd position of 2nd bundle is always dispersed to I1". +(define_reservation "1_I0" + "1_0mi.i+1_ui0|1_0mii.+(1_ui0|1_ui1)|1_0mmi.+1_ui0|1_0mfi.+1_ui0\ + |1_0mi.b+1_ui0|(1_1mi.i|1_1mi.b)+(1_ui0|1_ui1)\ + |1_1mii.+1_ui1|1_1mmi.+1_ui1|1_1mfi.+1_ui1") + +(define_reservation "1_I1" + "1_0m.ii+1_um0+1_0mi.i+1_ui0|1_0mm.i+(1_um0|1_um1)+1_0mmi.+1_ui0\ + |1_0mf.i+1_uf0+1_0mfi.+1_ui0|1_0m.ib+1_um0+1_0mi.b+1_ui0\ + |(1_1m.ii+(1_um0|1_um1)+1_1mi.i\ + |1_1m.ib+(1_um0|1_um1)+1_1mi.b)+(1_ui0|1_ui1)\ + |1_1mm.i+1_um1+1_1mmi.+1_ui1|1_1mf.i+1_uf1+1_1mfi.+1_ui1") + +(define_reservation "1_I" "1_I0|1_I1") + +;; "An F slot in the 1st bundle disperses to F0". +;; "An F slot in the 2st bundle disperses to F1". +(define_reservation "1_F0" + "1_0mf.i+1_uf0|1_0mmf.+1_uf0|1_0mf.b+1_uf0|1_1mf.i+1_uf1|1_1mf.b+1_uf1") + +(define_reservation "1_F1" + "1_0m.fi+1_um0+1_0mf.i+1_uf0|1_0mm.f+(1_um0|1_um1)+1_0mmf.+1_uf0\ + |1_0m.fb+1_um0+1_0mf.b+1_uf0|1_1m.fi+(1_um0|1_um1)+1_1mf.i+1_uf1\ + |1_1m.fb+(1_um0|1_um1)+1_1mf.b+1_uf1") + +(define_reservation "1_F2" + "1_0m.mf+1_um0+1_0mm.f+1_um1+1_0mmf.+1_uf0\ + |(1_0mii.+(1_ui0|1_ui1)|1_0mmi.+1_ui0|1_0mfi.+1_ui0\ + |1_0mib.+1_unb0|1_0mmb.+1_unb0|1_0mfb.+1_unb0)\ + +(1_1m.fi+(1_um0|1_um1)+1_1mf.i+1_uf1\ + |1_1m.fb+(1_um0|1_um1)+1_1mf.b+1_uf1)") + +(define_reservation "1_F" "1_F0|1_F1|1_F2") + +;;; "Each B slot in MBB or BBB bundle disperses to the corresponding B +;;; unit. That is, a B slot in 1st position is dispersed to B0. In the +;;; 2nd position it is dispersed to B2". +(define_reservation "1_NB" + "1_0b.bb+1_unb0|1_0bb.b+1_unb1|1_0bbb.+1_unb2\ + |1_0mb.b+1_unb1|1_0mbb.+1_unb2\ + |1_0mib.+1_unb0|1_0mmb.+1_unb0|1_0mfb.+1_unb0\ + |1_1b.bb+1_unb0|1_1bb.b+1_unb1\ + |1_1bbb.+1_unb2|1_1mb.b+1_unb1|1_1mbb.+1_unb2|1_1mib.+1_unb0\ + |1_1mmb.+1_unb0|1_1mfb.+1_unb0") + +(define_reservation "1_B0" + "1_0b.bb+1_ub0|1_0bb.b+1_ub1|1_0bbb.+1_ub2\ + |1_0mb.b+1_ub1|1_0mbb.+1_ub2|1_0mib.+1_ub2\ + |1_0mfb.+1_ub2|1_1b.bb+1_ub0|1_1bb.b+1_ub1\ + |1_1bbb.+1_ub2|1_1mb.b+1_ub1\ + |1_1mib.+1_ub2|1_1mmb.+1_ub2|1_1mfb.+1_ub2") + +(define_reservation "1_B1" + "1_0m.bb+1_um0+1_0mb.b+1_ub1|1_0mi.b+1_ui0+1_0mib.+1_ub2\ + |1_0mf.b+1_uf0+1_0mfb.+1_ub2\ + |(1_0mii.+(1_ui0|1_ui1)|1_0mmi.+1_ui0|1_0mfi.+1_ui0)+1_1b.bb+1_ub0\ + |1_1m.bb+(1_um0|1_um1)+1_1mb.b+1_ub1\ + |1_1mi.b+(1_ui0|1_ui1)+1_1mib.+1_ub2\ + |1_1mm.b+1_um1+1_1mmb.+1_ub2\ + |1_1mf.b+1_uf1+1_1mfb.+1_ub2") + +(define_reservation "1_B" "1_B0|1_B1") + +;; MLX bunlde uses ports equivalent to MFI bundles. +(define_reservation "1_L0" "1_0mlx.+1_ui0+1_uf0|1_1mlx.+(1_ui0|1_ui1)+1_uf1") +(define_reservation "1_L1" + "1_0m.lx+1_um0+1_0mlx.+1_ui0+1_uf0\ + |1_1m.lx+(1_um0|1_um1)+1_1mlx.+(1_ui0|1_ui1)+1_uf1") +(define_reservation "1_L2" + "(1_0mii.+(1_ui0|1_ui1)|1_0mmi.+1_ui0|1_0mfi.+1_ui0\ + |1_0mib.+1_unb0|1_0mmb.+1_unb0|1_0mfb.+1_unb0) + +1_1m.lx+(1_um0|1_um1)+1_1mlx.+1_ui1+1_uf1") +(define_reservation "1_L" "1_L0|1_L1|1_L2") + +(define_reservation "1_A" "1_M|1_I") + +(define_insn_reservation "1_stop_bit" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "stop_bit")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_stop|1_m0_stop|1_m1_stop|1_mi0_stop|1_mi1_stop") + +(define_insn_reservation "1_br" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "br")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_B") +(define_insn_reservation "1_scall" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "scall")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_B") +(define_insn_reservation "1_fcmp" 2 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "fcmp")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_F+1_not_uf1") +(define_insn_reservation "1_fcvtfx" 7 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "fcvtfx")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_F") + +(define_insn_reservation "1_fld" 9 + (and (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "fld")) + (eq_attr "check_load" "no")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_M") +(define_insn_reservation "1_fldc" 0 + (and (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "fld")) + (eq_attr "check_load" "yes")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_M") + +(define_insn_reservation "1_fldp" 9 + (and (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "fldp")) + (eq_attr "check_load" "no")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_M") +(define_insn_reservation "1_fldpc" 0 + (and (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "fldp")) + (eq_attr "check_load" "yes")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_M") + +(define_insn_reservation "1_fmac" 5 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "fmac")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_F") +(define_insn_reservation "1_fmisc" 5 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "fmisc")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_F+1_not_uf1") + +;; There is only one insn `mov = ar.bsp' for frar_i: +(define_insn_reservation "1_frar_i" 13 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "frar_i")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_I+1_not_ui1") +;; There is only two insns `mov = ar.unat' or `mov = ar.ccv' for frar_m: +(define_insn_reservation "1_frar_m" 6 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "frar_m")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_M+1_not_um1") +(define_insn_reservation "1_frbr" 2 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "frbr")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_I+1_not_ui1") +(define_insn_reservation "1_frfr" 2 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "frfr")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_M+1_not_um1") +(define_insn_reservation "1_frpr" 2 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "frpr")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_I+1_not_ui1") + +(define_insn_reservation "1_ialu" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "ialu")) + (eq (symbol_ref + "bundling_p || ia64_produce_address_p (insn)") + (const_int 0))) + "1_A") +(define_insn_reservation "1_ialu_addr" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "ialu")) + (eq (symbol_ref + "!bundling_p && ia64_produce_address_p (insn)") + (const_int 1))) + "1_M") +(define_insn_reservation "1_icmp" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "icmp")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_A") +(define_insn_reservation "1_ilog" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "ilog")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_A") +(define_insn_reservation "1_mmalua" 2 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "mmalua")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_A") +(define_insn_reservation "1_ishf" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "ishf")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_I+1_not_ui1") +(define_insn_reservation "1_ld" 2 + (and (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "ld")) + (eq_attr "check_load" "no")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_M") +(define_insn_reservation "1_ldc" 0 + (and (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "ld")) + (eq_attr "check_load" "yes")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_M") +(define_insn_reservation "1_long_i" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "long_i")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_L") +(define_insn_reservation "1_mmmul" 2 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "mmmul")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_I+1_not_ui1") +(define_insn_reservation "1_mmshf" 2 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "mmshf")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_I") +(define_insn_reservation "1_mmshfi" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "mmshfi")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_I") + +;; Now we have only one insn (flushrs) of such class. We assume that flushrs +;; is the 1st syllable of the bundle after stop bit. +(define_insn_reservation "1_rse_m" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "rse_m")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "(1_0m.ii|1_0m.mi|1_0m.fi|1_0m.mf|1_0b.bb|1_0m.bb\ + |1_0m.ib|1_0m.mb|1_0m.fb|1_0m.lx)+1_um0") +(define_insn_reservation "1_sem" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "sem")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_M+1_not_um1") +(define_insn_reservation "1_stf" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "stf")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_M") +(define_insn_reservation "1_st" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "st")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_M") +(define_insn_reservation "1_syst_m0" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "syst_m0")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_M+1_not_um1") +(define_insn_reservation "1_syst_m" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "syst_m")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_M") +(define_insn_reservation "1_tbit" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "tbit")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_I+1_not_ui1") + +;; There is only ony insn `mov ar.pfs =' for toar_i: +(define_insn_reservation "1_toar_i" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "toar_i")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_I+1_not_ui1") +;; There are only ony 2 insns `mov ar.ccv =' and `mov ar.unat =' for toar_m: +(define_insn_reservation "1_toar_m" 5 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "toar_m")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_M+1_not_um1") +(define_insn_reservation "1_tobr" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "tobr")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_I+1_not_ui1") +(define_insn_reservation "1_tofr" 9 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "tofr")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_M") +(define_insn_reservation "1_topr" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "topr")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_I+1_not_ui1") +(define_insn_reservation "1_xmpy" 7 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "xmpy")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_F") +(define_insn_reservation "1_xtd" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "xtd")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_I") + +(define_insn_reservation "1_chk_s_i" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "chk_s_i")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_A") +(define_insn_reservation "1_chk_s_f" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "chk_s_f")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_M") +(define_insn_reservation "1_chk_a" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "chk_a")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_M") + +(define_insn_reservation "1_lfetch" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "lfetch")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_M") + +(define_insn_reservation "1_nop_m" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "nop_m")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_M0") +(define_insn_reservation "1_nop_b" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "nop_b")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_NB") +(define_insn_reservation "1_nop_i" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "nop_i")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_I0") +(define_insn_reservation "1_nop_f" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "nop_f")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_F0") +(define_insn_reservation "1_nop_x" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "nop_x")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_L0") + +;; We assume that there is no insn issued on the same cycle as unknown insn. +(define_cpu_unit "1_empty" "one") +(exclusion_set "1_empty" + "1_0m.ii,1_0m.mi,1_0m.fi,1_0m.mf,1_0b.bb,1_0m.bb,1_0m.ib,1_0m.mb,1_0m.fb,\ + 1_0m.lx") + +(define_insn_reservation "1_unknown" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "unknown")) + (eq (symbol_ref "bundling_p") (const_int 0))) "1_empty") + +(define_insn_reservation "1_nop" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "nop")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "1_M0|1_NB|1_I0|1_F0") + +(define_insn_reservation "1_ignore" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "ignore")) + (eq (symbol_ref "bundling_p") (const_int 0))) "nothing") + + +(define_cpu_unit + "1_0m_bs, 1_0mi_bs, 1_0mm_bs, 1_0mf_bs, 1_0b_bs, 1_0bb_bs, 1_0mb_bs" + "one") +(define_cpu_unit + "1_1m_bs, 1_1mi_bs, 1_1mm_bs, 1_1mf_bs, 1_1b_bs, 1_1bb_bs, 1_1mb_bs" + "one") + +(define_cpu_unit "1_m_cont, 1_mi_cont, 1_mm_cont, 1_mf_cont, 1_mb_cont,\ + 1_b_cont, 1_bb_cont" "one") + +;; For stop in the middle of the bundles. +(define_cpu_unit "1_m_stop, 1_m0_stop, 1_m1_stop, 1_0mmi_cont" "one") +(define_cpu_unit "1_mi_stop, 1_mi0_stop, 1_mi1_stop, 1_0mii_cont" "one") + +(final_presence_set "1_0m_bs" + "1_0m.ii, 1_0m.mi, 1_0m.mf, 1_0m.fi, 1_0m.bb,\ + 1_0m.ib, 1_0m.fb, 1_0m.mb, 1_0m.lx") +(final_presence_set "1_1m_bs" + "1_1m.ii, 1_1m.mi, 1_1m.fi, 1_1m.bb, 1_1m.ib, 1_1m.fb, 1_1m.mb,\ + 1_1m.lx") +(final_presence_set "1_0mi_bs" "1_0mi.i, 1_0mi.i") +(final_presence_set "1_1mi_bs" "1_1mi.i, 1_1mi.i") +(final_presence_set "1_0mm_bs" "1_0mm.i, 1_0mm.f, 1_0mm.b") +(final_presence_set "1_1mm_bs" "1_1mm.i, 1_1mm.b") +(final_presence_set "1_0mf_bs" "1_0mf.i, 1_0mf.b") +(final_presence_set "1_1mf_bs" "1_1mf.i, 1_1mf.b") +(final_presence_set "1_0b_bs" "1_0b.bb") +(final_presence_set "1_1b_bs" "1_1b.bb") +(final_presence_set "1_0bb_bs" "1_0bb.b") +(final_presence_set "1_1bb_bs" "1_1bb.b") +(final_presence_set "1_0mb_bs" "1_0mb.b") +(final_presence_set "1_1mb_bs" "1_1mb.b") + +(exclusion_set "1_0m_bs" + "1_0mi.i, 1_0mm.i, 1_0mm.f, 1_0mf.i, 1_0mb.b,\ + 1_0mi.b, 1_0mf.b, 1_0mm.b, 1_0mlx., 1_m0_stop") +(exclusion_set "1_1m_bs" + "1_1mi.i, 1_1mm.i, 1_1mf.i, 1_1mb.b, 1_1mi.b, 1_1mf.b, 1_1mm.b,\ + 1_1mlx., 1_m1_stop") +(exclusion_set "1_0mi_bs" "1_0mii., 1_0mib., 1_mi0_stop") +(exclusion_set "1_1mi_bs" "1_1mii., 1_1mib., 1_mi1_stop") +(exclusion_set "1_0mm_bs" "1_0mmi., 1_0mmf., 1_0mmb.") +(exclusion_set "1_1mm_bs" "1_1mmi., 1_1mmb.") +(exclusion_set "1_0mf_bs" "1_0mfi., 1_0mfb.") +(exclusion_set "1_1mf_bs" "1_1mfi., 1_1mfb.") +(exclusion_set "1_0b_bs" "1_0bb.b") +(exclusion_set "1_1b_bs" "1_1bb.b") +(exclusion_set "1_0bb_bs" "1_0bbb.") +(exclusion_set "1_1bb_bs" "1_1bbb.") +(exclusion_set "1_0mb_bs" "1_0mbb.") +(exclusion_set "1_1mb_bs" "1_1mbb.") + +(exclusion_set + "1_0m_bs, 1_0mi_bs, 1_0mm_bs, 1_0mf_bs, 1_0b_bs, 1_0bb_bs, 1_0mb_bs, + 1_1m_bs, 1_1mi_bs, 1_1mm_bs, 1_1mf_bs, 1_1b_bs, 1_1bb_bs, 1_1mb_bs" + "1_stop") + +(final_presence_set + "1_0mi.i, 1_0mm.i, 1_0mf.i, 1_0mm.f, 1_0mb.b,\ + 1_0mi.b, 1_0mm.b, 1_0mf.b, 1_0mlx." + "1_m_cont") +(final_presence_set "1_0mii., 1_0mib." "1_mi_cont") +(final_presence_set "1_0mmi., 1_0mmf., 1_0mmb." "1_mm_cont") +(final_presence_set "1_0mfi., 1_0mfb." "1_mf_cont") +(final_presence_set "1_0bb.b" "1_b_cont") +(final_presence_set "1_0bbb." "1_bb_cont") +(final_presence_set "1_0mbb." "1_mb_cont") + +(exclusion_set + "1_0m.ii, 1_0m.mi, 1_0m.fi, 1_0m.mf, 1_0b.bb, 1_0m.bb,\ + 1_0m.ib, 1_0m.mb, 1_0m.fb, 1_0m.lx" + "1_m_cont, 1_mi_cont, 1_mm_cont, 1_mf_cont,\ + 1_mb_cont, 1_b_cont, 1_bb_cont") + +(exclusion_set "1_empty" + "1_m_cont,1_mi_cont,1_mm_cont,1_mf_cont,\ + 1_mb_cont,1_b_cont,1_bb_cont") + +;; For m;mi bundle +(final_presence_set "1_m0_stop" "1_0m.mi") +(final_presence_set "1_0mm.i" "1_0mmi_cont") +(exclusion_set "1_0mmi_cont" + "1_0m.ii, 1_0m.mi, 1_0m.fi, 1_0m.mf, 1_0b.bb, 1_0m.bb,\ + 1_0m.ib, 1_0m.mb, 1_0m.fb, 1_0m.lx") +(exclusion_set "1_m0_stop" "1_0mm.i") +(final_presence_set "1_m1_stop" "1_1m.mi") +(exclusion_set "1_m1_stop" "1_1mm.i") +(final_presence_set "1_m_stop" "1_m0_stop, 1_m1_stop") + +;; For mi;i bundle +(final_presence_set "1_mi0_stop" "1_0mi.i") +(final_presence_set "1_0mii." "1_0mii_cont") +(exclusion_set "1_0mii_cont" + "1_0m.ii, 1_0m.mi, 1_0m.fi, 1_0m.mf, 1_0b.bb, 1_0m.bb,\ + 1_0m.ib, 1_0m.mb, 1_0m.fb, 1_0m.lx") +(exclusion_set "1_mi0_stop" "1_0mii.") +(final_presence_set "1_mi1_stop" "1_1mi.i") +(exclusion_set "1_mi1_stop" "1_1mii.") +(final_presence_set "1_mi_stop" "1_mi0_stop, 1_mi1_stop") + +(final_absence_set + "1_0m.ii,1_0mi.i,1_0mii.,1_0m.mi,1_0mm.i,1_0mmi.,1_0m.fi,1_0mf.i,1_0mfi.,\ + 1_0m.mf,1_0mm.f,1_0mmf.,1_0b.bb,1_0bb.b,1_0bbb.,1_0m.bb,1_0mb.b,1_0mbb.,\ + 1_0m.ib,1_0mi.b,1_0mib.,1_0m.mb,1_0mm.b,1_0mmb.,1_0m.fb,1_0mf.b,1_0mfb.,\ + 1_0m.lx,1_0mlx., \ + 1_1m.ii,1_1mi.i,1_1mii.,1_1m.mi,1_1mm.i,1_1mmi.,1_1m.fi,1_1mf.i,1_1mfi.,\ + 1_1b.bb,1_1bb.b,1_1bbb.,1_1m.bb,1_1mb.b,1_1mbb.,\ + 1_1m.ib,1_1mi.b,1_1mib.,1_1m.mb,1_1mm.b,1_1mmb.,1_1m.fb,1_1mf.b,1_1mfb.,\ + 1_1m.lx,1_1mlx." + "1_m0_stop,1_m1_stop,1_mi0_stop,1_mi1_stop") + +(define_cpu_unit "1_m_cont_only, 1_b_cont_only" "one") +(define_cpu_unit "1_mi_cont_only, 1_mm_cont_only, 1_mf_cont_only" "one") +(define_cpu_unit "1_mb_cont_only, 1_bb_cont_only" "one") + +(final_presence_set "1_m_cont_only" "1_m_cont") +(exclusion_set "1_m_cont_only" + "1_0mi.i, 1_0mm.i, 1_0mf.i, 1_0mm.f, 1_0mb.b,\ + 1_0mi.b, 1_0mm.b, 1_0mf.b, 1_0mlx.") + +(final_presence_set "1_b_cont_only" "1_b_cont") +(exclusion_set "1_b_cont_only" "1_0bb.b") + +(final_presence_set "1_mi_cont_only" "1_mi_cont") +(exclusion_set "1_mi_cont_only" "1_0mii., 1_0mib.") + +(final_presence_set "1_mm_cont_only" "1_mm_cont") +(exclusion_set "1_mm_cont_only" "1_0mmi., 1_0mmf., 1_0mmb.") + +(final_presence_set "1_mf_cont_only" "1_mf_cont") +(exclusion_set "1_mf_cont_only" "1_0mfi., 1_0mfb.") + +(final_presence_set "1_mb_cont_only" "1_mb_cont") +(exclusion_set "1_mb_cont_only" "1_0mbb.") + +(final_presence_set "1_bb_cont_only" "1_bb_cont") +(exclusion_set "1_bb_cont_only" "1_0bbb.") + +(define_insn_reservation "1_pre_cycle" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "pre_cycle")) + (eq (symbol_ref "bundling_p") (const_int 0))) + "(1_0m_bs, 1_m_cont) \ + | (1_0mi_bs, (1_mi_cont|nothing)) \ + | (1_0mm_bs, 1_mm_cont) \ + | (1_0mf_bs, (1_mf_cont|nothing)) \ + | (1_0b_bs, (1_b_cont|nothing)) \ + | (1_0bb_bs, (1_bb_cont|nothing)) \ + | (1_0mb_bs, (1_mb_cont|nothing)) \ + | (1_1m_bs, 1_m_cont) \ + | (1_1mi_bs, (1_mi_cont|nothing)) \ + | (1_1mm_bs, 1_mm_cont) \ + | (1_1mf_bs, (1_mf_cont|nothing)) \ + | (1_1b_bs, (1_b_cont|nothing)) \ + | (1_1bb_bs, (1_bb_cont|nothing)) \ + | (1_1mb_bs, (1_mb_cont|nothing)) \ + | (1_m_cont_only, (1_m_cont|nothing)) \ + | (1_b_cont_only, (1_b_cont|nothing)) \ + | (1_mi_cont_only, (1_mi_cont|nothing)) \ + | (1_mm_cont_only, (1_mm_cont|nothing)) \ + | (1_mf_cont_only, (1_mf_cont|nothing)) \ + | (1_mb_cont_only, (1_mb_cont|nothing)) \ + | (1_bb_cont_only, (1_bb_cont|nothing)) \ + | (1_m_stop, (1_0mmi_cont|nothing)) \ + | (1_mi_stop, (1_0mii_cont|nothing))") + +;; Bypasses: +(define_bypass 1 "1_fcmp" "1_br,1_scall") +;; ??? I found 7 cycle delay for 1_fmac -> 1_fcmp for Itanium1 +(define_bypass 7 "1_fmac" "1_fmisc,1_fcvtfx,1_xmpy,1_fcmp") + +;; ??? +(define_bypass 3 "1_frbr" "1_mmmul,1_mmshf") +(define_bypass 14 "1_frar_i" "1_mmmul,1_mmshf") +(define_bypass 7 "1_frar_m" "1_mmmul,1_mmshf") + +;; ???? +;; There is only one insn `mov ar.pfs =' for toar_i. +(define_bypass 0 "1_tobr,1_topr,1_toar_i" "1_br,1_scall") + +(define_bypass 3 "1_ialu,1_ialu_addr" "1_mmmul,1_mmshf,1_mmalua") +;; ??? howto describe ialu for I slot only. We use ialu_addr for that +;;(define_bypass 2 "1_ialu" "1_ld" "ia64_ld_address_bypass_p") +;; ??? howto describe ialu st/address for I slot only. We use ialu_addr +;; for that. +;;(define_bypass 2 "1_ialu" "1_st" "ia64_st_address_bypass_p") + +(define_bypass 0 "1_icmp" "1_br,1_scall") + +(define_bypass 3 "1_ilog" "1_mmmul,1_mmshf") + +(define_bypass 2 "1_ilog,1_xtd" "1_ld" "ia64_ld_address_bypass_p") +(define_bypass 2 "1_ilog,1_xtd" "1_st" "ia64_st_address_bypass_p") + +(define_bypass 3 "1_ld,1_ldc" "1_mmmul,1_mmshf") +(define_bypass 3 "1_ld" "1_ld" "ia64_ld_address_bypass_p") +(define_bypass 3 "1_ld" "1_st" "ia64_st_address_bypass_p") + +;; Intel docs say only LD, ST, IALU, ILOG, ISHF consumers have latency 4, +;; but HP engineers say any non-MM operation. +(define_bypass 4 "1_mmmul,1_mmshf,1_mmalua" + "1_br,1_fcmp,1_fcvtfx,1_fld,1_fldc,1_fmac,1_fmisc,1_frar_i,1_frar_m,\ + 1_frbr,1_frfr,1_frpr,1_ialu,1_icmp,1_ilog,1_ishf,1_ld,1_ldc,1_chk_s_i,1_chk_s_f,1_chk_a,\ + 1_long_i,1_rse_m,1_sem,1_stf,1_st,1_syst_m0,1_syst_m,\ + 1_tbit,1_toar_i,1_toar_m,1_tobr,1_tofr,1_topr,1_xmpy,1_xtd") + +;; ??? how to describe that if scheduled < 4 cycle then latency is 10 cycles. +;; (define_bypass 10 "1_mmmul,1_mmshf" "1_ialu,1_ilog,1_ishf,1_st,1_ld") + +(define_bypass 0 "1_tbit" "1_br,1_scall") + +(define_bypass 8 "1_tofr" "1_frfr,1_stf") +(define_bypass 7 "1_fmisc,1_fcvtfx,1_fmac,1_xmpy" "1_frfr") +(define_bypass 8 "1_fmisc,1_fcvtfx,1_fmac,1_xmpy" "1_stf") + +;; We don't use here fcmp because scall may be predicated. +(define_bypass 0 "1_fcvtfx,1_fld,1_fldc,1_fmac,1_fmisc,1_frar_i,1_frar_m,\ + 1_frbr,1_frfr,1_frpr,1_ialu,1_ialu_addr,1_ilog,1_ishf,\ + 1_ld,1_ldc,1_long_i,1_mmalua,1_mmmul,1_mmshf,1_mmshfi,\ + 1_toar_m,1_tofr,1_xmpy,1_xtd" "1_scall") + +(define_bypass 0 "1_unknown,1_ignore,1_stop_bit,1_br,1_fcmp,1_fcvtfx,\ + 1_fld,1_fldc,1_fmac,1_fmisc,1_frar_i,1_frar_m,1_frbr,1_frfr,\ + 1_frpr,1_ialu,1_ialu_addr,1_icmp,1_ilog,1_ishf,1_ld,1_ldc,\ + 1_chk_s_i,1_chk_s_f,1_chk_a,1_long_i,1_mmalua,1_mmmul,1_mmshf,1_mmshfi,1_nop,\ + 1_nop_b,1_nop_f,1_nop_i,1_nop_m,1_nop_x,1_rse_m,1_scall,\ + 1_sem,1_stf,1_st,1_syst_m0,1_syst_m,1_tbit,1_toar_i,\ + 1_toar_m,1_tobr,1_tofr,1_topr,1_xmpy,1_xtd,1_lfetch" + "1_ignore") + + +;; Bundling + +(define_automaton "oneb") + +;; Pseudo units for quicker searching for position in two packet window. */ +(define_query_cpu_unit "1_1,1_2,1_3,1_4,1_5,1_6" "oneb") + +;; All possible combinations of bundles/syllables +(define_cpu_unit + "1b_0m.ii, 1b_0m.mi, 1b_0m.fi, 1b_0m.mf, 1b_0b.bb, 1b_0m.bb,\ + 1b_0m.ib, 1b_0m.mb, 1b_0m.fb, 1b_0m.lx" "oneb") +(define_cpu_unit + "1b_0mi.i, 1b_0mm.i, 1b_0mf.i, 1b_0mm.f, 1b_0bb.b, 1b_0mb.b,\ + 1b_0mi.b, 1b_0mm.b, 1b_0mf.b" "oneb") +(define_query_cpu_unit + "1b_0mii., 1b_0mmi., 1b_0mfi., 1b_0mmf., 1b_0bbb., 1b_0mbb.,\ + 1b_0mib., 1b_0mmb., 1b_0mfb., 1b_0mlx." "oneb") + +(define_cpu_unit "1b_1m.ii, 1b_1m.mi, 1b_1m.fi, 1b_1b.bb, 1b_1m.bb,\ + 1b_1m.ib, 1b_1m.mb, 1b_1m.fb, 1b_1m.lx" "oneb") +(define_cpu_unit "1b_1mi.i, 1b_1mm.i, 1b_1mf.i, 1b_1bb.b, 1b_1mb.b,\ + 1b_1mi.b, 1b_1mm.b, 1b_1mf.b" "oneb") +(define_query_cpu_unit "1b_1mii., 1b_1mmi., 1b_1mfi., 1b_1bbb., 1b_1mbb.,\ + 1b_1mib., 1b_1mmb., 1b_1mfb., 1b_1mlx." "oneb") + +;; Slot 1 +(exclusion_set "1b_0m.ii" + "1b_0m.mi, 1b_0m.fi, 1b_0m.mf, 1b_0b.bb, 1b_0m.bb,\ + 1b_0m.ib, 1b_0m.mb, 1b_0m.fb, 1b_0m.lx") +(exclusion_set "1b_0m.mi" + "1b_0m.fi, 1b_0m.mf, 1b_0b.bb, 1b_0m.bb, 1b_0m.ib,\ + 1b_0m.mb, 1b_0m.fb, 1b_0m.lx") +(exclusion_set "1b_0m.fi" + "1b_0m.mf, 1b_0b.bb, 1b_0m.bb, 1b_0m.ib, 1b_0m.mb, 1b_0m.fb, 1b_0m.lx") +(exclusion_set "1b_0m.mf" + "1b_0b.bb, 1b_0m.bb, 1b_0m.ib, 1b_0m.mb, 1b_0m.fb, 1b_0m.lx") +(exclusion_set "1b_0b.bb" "1b_0m.bb, 1b_0m.ib, 1b_0m.mb, 1b_0m.fb, 1b_0m.lx") +(exclusion_set "1b_0m.bb" "1b_0m.ib, 1b_0m.mb, 1b_0m.fb, 1b_0m.lx") +(exclusion_set "1b_0m.ib" "1b_0m.mb, 1b_0m.fb, 1b_0m.lx") +(exclusion_set "1b_0m.mb" "1b_0m.fb, 1b_0m.lx") +(exclusion_set "1b_0m.fb" "1b_0m.lx") + +;; Slot 2 +(exclusion_set "1b_0mi.i" + "1b_0mm.i, 1b_0mf.i, 1b_0mm.f, 1b_0bb.b, 1b_0mb.b,\ + 1b_0mi.b, 1b_0mm.b, 1b_0mf.b, 1b_0mlx.") +(exclusion_set "1b_0mm.i" + "1b_0mf.i, 1b_0mm.f, 1b_0bb.b, 1b_0mb.b,\ + 1b_0mi.b, 1b_0mm.b, 1b_0mf.b, 1b_0mlx.") +(exclusion_set "1b_0mf.i" + "1b_0mm.f, 1b_0bb.b, 1b_0mb.b, 1b_0mi.b, 1b_0mm.b, 1b_0mf.b, 1b_0mlx.") +(exclusion_set "1b_0mm.f" + "1b_0bb.b, 1b_0mb.b, 1b_0mi.b, 1b_0mm.b, 1b_0mf.b, 1b_0mlx.") +(exclusion_set "1b_0bb.b" "1b_0mb.b, 1b_0mi.b, 1b_0mm.b, 1b_0mf.b, 1b_0mlx.") +(exclusion_set "1b_0mb.b" "1b_0mi.b, 1b_0mm.b, 1b_0mf.b, 1b_0mlx.") +(exclusion_set "1b_0mi.b" "1b_0mm.b, 1b_0mf.b, 1b_0mlx.") +(exclusion_set "1b_0mm.b" "1b_0mf.b, 1b_0mlx.") +(exclusion_set "1b_0mf.b" "1b_0mlx.") + +;; Slot 3 +(exclusion_set "1b_0mii." + "1b_0mmi., 1b_0mfi., 1b_0mmf., 1b_0bbb., 1b_0mbb.,\ + 1b_0mib., 1b_0mmb., 1b_0mfb., 1b_0mlx.") +(exclusion_set "1b_0mmi." + "1b_0mfi., 1b_0mmf., 1b_0bbb., 1b_0mbb.,\ + 1b_0mib., 1b_0mmb., 1b_0mfb., 1b_0mlx.") +(exclusion_set "1b_0mfi." + "1b_0mmf., 1b_0bbb., 1b_0mbb., 1b_0mib., 1b_0mmb., 1b_0mfb., 1b_0mlx.") +(exclusion_set "1b_0mmf." + "1b_0bbb., 1b_0mbb., 1b_0mib., 1b_0mmb., 1b_0mfb., 1b_0mlx.") +(exclusion_set "1b_0bbb." "1b_0mbb., 1b_0mib., 1b_0mmb., 1b_0mfb., 1b_0mlx.") +(exclusion_set "1b_0mbb." "1b_0mib., 1b_0mmb., 1b_0mfb., 1b_0mlx.") +(exclusion_set "1b_0mib." "1b_0mmb., 1b_0mfb., 1b_0mlx.") +(exclusion_set "1b_0mmb." "1b_0mfb., 1b_0mlx.") +(exclusion_set "1b_0mfb." "1b_0mlx.") + +;; Slot 4 +(exclusion_set "1b_1m.ii" + "1b_1m.mi, 1b_1m.fi, 1b_1b.bb, 1b_1m.bb,\ + 1b_1m.ib, 1b_1m.mb, 1b_1m.fb, 1b_1m.lx") +(exclusion_set "1b_1m.mi" + "1b_1m.fi, 1b_1b.bb, 1b_1m.bb, 1b_1m.ib, 1b_1m.mb, 1b_1m.fb, 1b_1m.lx") +(exclusion_set "1b_1m.fi" + "1b_1b.bb, 1b_1m.bb, 1b_1m.ib, 1b_1m.mb, 1b_1m.fb, 1b_1m.lx") +(exclusion_set "1b_1b.bb" "1b_1m.bb, 1b_1m.ib, 1b_1m.mb, 1b_1m.fb, 1b_1m.lx") +(exclusion_set "1b_1m.bb" "1b_1m.ib, 1b_1m.mb, 1b_1m.fb, 1b_1m.lx") +(exclusion_set "1b_1m.ib" "1b_1m.mb, 1b_1m.fb, 1b_1m.lx") +(exclusion_set "1b_1m.mb" "1b_1m.fb, 1b_1m.lx") +(exclusion_set "1b_1m.fb" "1b_1m.lx") + +;; Slot 5 +(exclusion_set "1b_1mi.i" + "1b_1mm.i, 1b_1mf.i, 1b_1bb.b, 1b_1mb.b,\ + 1b_1mi.b, 1b_1mm.b, 1b_1mf.b, 1b_1mlx.") +(exclusion_set "1b_1mm.i" + "1b_1mf.i, 1b_1bb.b, 1b_1mb.b, 1b_1mi.b, 1b_1mm.b, 1b_1mf.b, 1b_1mlx.") +(exclusion_set "1b_1mf.i" + "1b_1bb.b, 1b_1mb.b, 1b_1mi.b, 1b_1mm.b, 1b_1mf.b, 1b_1mlx.") +(exclusion_set "1b_1bb.b" "1b_1mb.b, 1b_1mi.b, 1b_1mm.b, 1b_1mf.b, 1b_1mlx.") +(exclusion_set "1b_1mb.b" "1b_1mi.b, 1b_1mm.b, 1b_1mf.b, 1b_1mlx.") +(exclusion_set "1b_1mi.b" "1b_1mm.b, 1b_1mf.b, 1b_1mlx.") +(exclusion_set "1b_1mm.b" "1b_1mf.b, 1b_1mlx.") +(exclusion_set "1b_1mf.b" "1b_1mlx.") + +;; Slot 6 +(exclusion_set "1b_1mii." + "1b_1mmi., 1b_1mfi., 1b_1bbb., 1b_1mbb.,\ + 1b_1mib., 1b_1mmb., 1b_1mfb., 1b_1mlx.") +(exclusion_set "1b_1mmi." + "1b_1mfi., 1b_1bbb., 1b_1mbb., 1b_1mib., 1b_1mmb., 1b_1mfb., 1b_1mlx.") +(exclusion_set "1b_1mfi." + "1b_1bbb., 1b_1mbb., 1b_1mib., 1b_1mmb., 1b_1mfb., 1b_1mlx.") +(exclusion_set "1b_1bbb." "1b_1mbb., 1b_1mib., 1b_1mmb., 1b_1mfb., 1b_1mlx.") +(exclusion_set "1b_1mbb." "1b_1mib., 1b_1mmb., 1b_1mfb., 1b_1mlx.") +(exclusion_set "1b_1mib." "1b_1mmb., 1b_1mfb., 1b_1mlx.") +(exclusion_set "1b_1mmb." "1b_1mfb., 1b_1mlx.") +(exclusion_set "1b_1mfb." "1b_1mlx.") + +(final_presence_set "1b_0mi.i" "1b_0m.ii") +(final_presence_set "1b_0mii." "1b_0mi.i") +(final_presence_set "1b_1mi.i" "1b_1m.ii") +(final_presence_set "1b_1mii." "1b_1mi.i") + +(final_presence_set "1b_0mm.i" "1b_0m.mi") +(final_presence_set "1b_0mmi." "1b_0mm.i") +(final_presence_set "1b_1mm.i" "1b_1m.mi") +(final_presence_set "1b_1mmi." "1b_1mm.i") + +(final_presence_set "1b_0mf.i" "1b_0m.fi") +(final_presence_set "1b_0mfi." "1b_0mf.i") +(final_presence_set "1b_1mf.i" "1b_1m.fi") +(final_presence_set "1b_1mfi." "1b_1mf.i") + +(final_presence_set "1b_0mm.f" "1b_0m.mf") +(final_presence_set "1b_0mmf." "1b_0mm.f") + +(final_presence_set "1b_0bb.b" "1b_0b.bb") +(final_presence_set "1b_0bbb." "1b_0bb.b") +(final_presence_set "1b_1bb.b" "1b_1b.bb") +(final_presence_set "1b_1bbb." "1b_1bb.b") + +(final_presence_set "1b_0mb.b" "1b_0m.bb") +(final_presence_set "1b_0mbb." "1b_0mb.b") +(final_presence_set "1b_1mb.b" "1b_1m.bb") +(final_presence_set "1b_1mbb." "1b_1mb.b") + +(final_presence_set "1b_0mi.b" "1b_0m.ib") +(final_presence_set "1b_0mib." "1b_0mi.b") +(final_presence_set "1b_1mi.b" "1b_1m.ib") +(final_presence_set "1b_1mib." "1b_1mi.b") + +(final_presence_set "1b_0mm.b" "1b_0m.mb") +(final_presence_set "1b_0mmb." "1b_0mm.b") +(final_presence_set "1b_1mm.b" "1b_1m.mb") +(final_presence_set "1b_1mmb." "1b_1mm.b") + +(final_presence_set "1b_0mf.b" "1b_0m.fb") +(final_presence_set "1b_0mfb." "1b_0mf.b") +(final_presence_set "1b_1mf.b" "1b_1m.fb") +(final_presence_set "1b_1mfb." "1b_1mf.b") + +(final_presence_set "1b_0mlx." "1b_0m.lx") +(final_presence_set "1b_1mlx." "1b_1m.lx") + +(final_presence_set + "1b_1m.ii,1b_1m.mi,1b_1m.fi,1b_1b.bb,1b_1m.bb,\ + 1b_1m.ib,1b_1m.mb,1b_1m.fb,1b_1m.lx" + "1b_0mii.,1b_0mmi.,1b_0mfi.,1b_0mmf.,1b_0bbb.,1b_0mbb.,\ + 1b_0mib.,1b_0mmb.,1b_0mfb.,1b_0mlx.") + +;; Microarchitecture units: +(define_cpu_unit + "1b_um0, 1b_um1, 1b_ui0, 1b_ui1, 1b_uf0, 1b_uf1, 1b_ub0, 1b_ub1, 1b_ub2,\ + 1b_unb0, 1b_unb1, 1b_unb2" "oneb") + +(exclusion_set "1b_ub0" "1b_unb0") +(exclusion_set "1b_ub1" "1b_unb1") +(exclusion_set "1b_ub2" "1b_unb2") + +;; The following rules are used to decrease number of alternatives. +;; They are consequences of Itanium microarchitecture. They also +;; describe the following rules mentioned in Itanium +;; microarchitecture: rules mentioned in Itanium microarchitecture: +;; o "MMF: Always splits issue before the first M and after F regardless +;; of surrounding bundles and stops". +;; o "BBB/MBB: Always splits issue after either of these bundles". +;; o "MIB BBB: Split issue after the first bundle in this pair". + +(exclusion_set "1b_0m.mf,1b_0mm.f,1b_0mmf." + "1b_1m.ii,1b_1m.mi,1b_1m.fi,1b_1b.bb,1b_1m.bb,\ + 1b_1m.ib,1b_1m.mb,1b_1m.fb,1b_1m.lx") +(exclusion_set "1b_0b.bb,1b_0bb.b,1b_0bbb.,1b_0m.bb,1b_0mb.b,1b_0mbb." + "1b_1m.ii,1b_1m.mi,1b_1m.fi,1b_1b.bb,1b_1m.bb,\ + 1b_1m.ib,1b_1m.mb,1b_1m.fb,1b_1m.lx") +(exclusion_set "1b_0m.ib,1b_0mi.b,1b_0mib." "1b_1b.bb") + +;; For exceptions of M, I, B, F insns: +(define_cpu_unit "1b_not_um1, 1b_not_ui1, 1b_not_uf1" "oneb") + +(final_absence_set "1b_not_um1" "1b_um1") +(final_absence_set "1b_not_ui1" "1b_ui1") +(final_absence_set "1b_not_uf1" "1b_uf1") + +;;; "MIB/MFB/MMB: Splits issue after any of these bundles unless the +;;; B-slot contains a nop.b or a brp instruction". +;;; "The B in an MIB/MFB/MMB bundle disperses to B0 if it is a brp or +;;; nop.b, otherwise it disperses to B2". +(final_absence_set + "1b_1m.ii, 1b_1m.mi, 1b_1m.fi, 1b_1b.bb, 1b_1m.bb,\ + 1b_1m.ib, 1b_1m.mb, 1b_1m.fb, 1b_1m.lx" + "1b_0mib. 1b_ub2, 1b_0mfb. 1b_ub2, 1b_0mmb. 1b_ub2") + +;; This is necessary to start new processor cycle when we meet stop bit. +(define_cpu_unit "1b_stop" "oneb") +(final_absence_set + "1b_0m.ii,1b_0mi.i,1b_0mii.,1b_0m.mi,1b_0mm.i,1b_0mmi.,\ + 1b_0m.fi,1b_0mf.i,1b_0mfi.,\ + 1b_0m.mf,1b_0mm.f,1b_0mmf.,1b_0b.bb,1b_0bb.b,1b_0bbb.,\ + 1b_0m.bb,1b_0mb.b,1b_0mbb.,\ + 1b_0m.ib,1b_0mi.b,1b_0mib.,1b_0m.mb,1b_0mm.b,1b_0mmb.,\ + 1b_0m.fb,1b_0mf.b,1b_0mfb.,1b_0m.lx,1b_0mlx., \ + 1b_1m.ii,1b_1mi.i,1b_1mii.,1b_1m.mi,1b_1mm.i,1b_1mmi.,\ + 1b_1m.fi,1b_1mf.i,1b_1mfi.,\ + 1b_1b.bb,1b_1bb.b,1b_1bbb.,1b_1m.bb,1b_1mb.b,1b_1mbb.,\ + 1b_1m.ib,1b_1mi.b,1b_1mib.,\ + 1b_1m.mb,1b_1mm.b,1b_1mmb.,1b_1m.fb,1b_1mf.b,1b_1mfb.,1b_1m.lx,1b_1mlx." + "1b_stop") + +;; M and I instruction is dispersed to the lowest numbered M or I unit +;; not already in use. An I slot in the 3rd position of 2nd bundle is +;; always dispersed to I1 +(final_presence_set "1b_um1" "1b_um0") +(final_presence_set "1b_ui1" "1b_ui0, 1b_1mii., 1b_1mmi., 1b_1mfi.") + +;; Insns + +;; M and I instruction is dispersed to the lowest numbered M or I unit +;; not already in use. An I slot in the 3rd position of 2nd bundle is +;; always dispersed to I1 +(define_reservation "1b_M" + "1b_0m.ii+1_1+1b_um0|1b_0m.mi+1_1+1b_um0|1b_0mm.i+1_2+(1b_um0|1b_um1)\ + |1b_0m.fi+1_1+1b_um0|1b_0m.mf+1_1+1b_um0|1b_0mm.f+1_2+1b_um1\ + |1b_0m.bb+1_1+1b_um0|1b_0m.ib+1_1+1b_um0|1b_0m.mb+1_1+1b_um0\ + |1b_0mm.b+1_2+1b_um1|1b_0m.fb+1_1+1b_um0|1b_0m.lx+1_1+1b_um0\ + |1b_1mm.i+1_5+1b_um1|1b_1mm.b+1_5+1b_um1\ + |(1b_1m.ii+1_4|1b_1m.mi+1_4|1b_1m.fi+1_4|1b_1m.bb+1_4|1b_1m.ib+1_4\ + |1b_1m.mb+1_4|1b_1m.fb+1_4|1b_1m.lx+1_4)\ + +(1b_um0|1b_um1)") + +;; Exceptions for dispersal rules. +;; "An I slot in the 3rd position of 2nd bundle is always dispersed to I1". +(define_reservation "1b_I" + "1b_0mi.i+1_2+1b_ui0|1b_0mii.+1_3+(1b_ui0|1b_ui1)|1b_0mmi.+1_3+1b_ui0\ + |1b_0mfi.+1_3+1b_ui0|1b_0mi.b+1_2+1b_ui0\ + |(1b_1mi.i+1_5|1b_1mi.b+1_5)+(1b_ui0|1b_ui1)\ + |1b_1mii.+1_6+1b_ui1|1b_1mmi.+1_6+1b_ui1|1b_1mfi.+1_6+1b_ui1") + +;; "An F slot in the 1st bundle disperses to F0". +;; "An F slot in the 2st bundle disperses to F1". +(define_reservation "1b_F" + "1b_0mf.i+1_2+1b_uf0|1b_0mmf.+1_3+1b_uf0|1b_0mf.b+1_2+1b_uf0\ + |1b_1mf.i+1_5+1b_uf1|1b_1mf.b+1_5+1b_uf1") + +;;; "Each B slot in MBB or BBB bundle disperses to the corresponding B +;;; unit. That is, a B slot in 1st position is dispersed to B0. In the +;;; 2nd position it is dispersed to B2". +(define_reservation "1b_NB" + "1b_0b.bb+1_1+1b_unb0|1b_0bb.b+1_2+1b_unb1|1b_0bbb.+1_3+1b_unb2\ + |1b_0mb.b+1_2+1b_unb1|1b_0mbb.+1_3+1b_unb2\ + |1b_0mib.+1_3+1b_unb0|1b_0mmb.+1_3+1b_unb0|1b_0mfb.+1_3+1b_unb0\ + |1b_1b.bb+1_4+1b_unb0|1b_1bb.b+1_5+1b_unb1\ + |1b_1bbb.+1_6+1b_unb2|1b_1mb.b+1_5+1b_unb1|1b_1mbb.+1_6+1b_unb2\ + |1b_1mib.+1_6+1b_unb0|1b_1mmb.+1_6+1b_unb0|1b_1mfb.+1_6+1b_unb0") + +(define_reservation "1b_B" + "1b_0b.bb+1_1+1b_ub0|1b_0bb.b+1_2+1b_ub1|1b_0bbb.+1_3+1b_ub2\ + |1b_0mb.b+1_2+1b_ub1|1b_0mbb.+1_3+1b_ub2|1b_0mib.+1_3+1b_ub2\ + |1b_0mfb.+1_3+1b_ub2|1b_1b.bb+1_4+1b_ub0|1b_1bb.b+1_5+1b_ub1\ + |1b_1bbb.+1_6+1b_ub2|1b_1mb.b+1_5+1b_ub1\ + |1b_1mib.+1_6+1b_ub2|1b_1mmb.+1_6+1b_ub2|1b_1mfb.+1_6+1b_ub2") + +(define_reservation "1b_L" "1b_0mlx.+1_3+1b_ui0+1b_uf0\ + |1b_1mlx.+1_6+(1b_ui0|1b_ui1)+1b_uf1") + +;; We assume that there is no insn issued on the same cycle as unknown insn. +(define_cpu_unit "1b_empty" "oneb") +(exclusion_set "1b_empty" + "1b_0m.ii,1b_0m.mi,1b_0m.fi,1b_0m.mf,1b_0b.bb,1b_0m.bb,\ + 1b_0m.ib,1b_0m.mb,1b_0m.fb,1b_0m.lx") + +(define_cpu_unit + "1b_0m_bs, 1b_0mi_bs, 1b_0mm_bs, 1b_0mf_bs, 1b_0b_bs, 1b_0bb_bs, 1b_0mb_bs" + "oneb") +(define_cpu_unit + "1b_1m_bs, 1b_1mi_bs, 1b_1mm_bs, 1b_1mf_bs, 1b_1b_bs, 1b_1bb_bs, 1b_1mb_bs" + "oneb") + +(define_cpu_unit "1b_m_cont, 1b_mi_cont, 1b_mm_cont, 1b_mf_cont, 1b_mb_cont,\ + 1b_b_cont, 1b_bb_cont" "oneb") + +;; For stop in the middle of the bundles. +(define_cpu_unit "1b_m_stop, 1b_m0_stop, 1b_m1_stop, 1b_0mmi_cont" "oneb") +(define_cpu_unit "1b_mi_stop, 1b_mi0_stop, 1b_mi1_stop, 1b_0mii_cont" "oneb") + +(final_presence_set "1b_0m_bs" + "1b_0m.ii, 1b_0m.mi, 1b_0m.mf, 1b_0m.fi, 1b_0m.bb,\ + 1b_0m.ib, 1b_0m.fb, 1b_0m.mb, 1b_0m.lx") +(final_presence_set "1b_1m_bs" + "1b_1m.ii, 1b_1m.mi, 1b_1m.fi, 1b_1m.bb, 1b_1m.ib, 1b_1m.fb, 1b_1m.mb,\ + 1b_1m.lx") +(final_presence_set "1b_0mi_bs" "1b_0mi.i, 1b_0mi.i") +(final_presence_set "1b_1mi_bs" "1b_1mi.i, 1b_1mi.i") +(final_presence_set "1b_0mm_bs" "1b_0mm.i, 1b_0mm.f, 1b_0mm.b") +(final_presence_set "1b_1mm_bs" "1b_1mm.i, 1b_1mm.b") +(final_presence_set "1b_0mf_bs" "1b_0mf.i, 1b_0mf.b") +(final_presence_set "1b_1mf_bs" "1b_1mf.i, 1b_1mf.b") +(final_presence_set "1b_0b_bs" "1b_0b.bb") +(final_presence_set "1b_1b_bs" "1b_1b.bb") +(final_presence_set "1b_0bb_bs" "1b_0bb.b") +(final_presence_set "1b_1bb_bs" "1b_1bb.b") +(final_presence_set "1b_0mb_bs" "1b_0mb.b") +(final_presence_set "1b_1mb_bs" "1b_1mb.b") + +(exclusion_set "1b_0m_bs" + "1b_0mi.i, 1b_0mm.i, 1b_0mm.f, 1b_0mf.i, 1b_0mb.b,\ + 1b_0mi.b, 1b_0mf.b, 1b_0mm.b, 1b_0mlx., 1b_m0_stop") +(exclusion_set "1b_1m_bs" + "1b_1mi.i, 1b_1mm.i, 1b_1mf.i, 1b_1mb.b, 1b_1mi.b, 1b_1mf.b, 1b_1mm.b,\ + 1b_1mlx., 1b_m1_stop") +(exclusion_set "1b_0mi_bs" "1b_0mii., 1b_0mib., 1b_mi0_stop") +(exclusion_set "1b_1mi_bs" "1b_1mii., 1b_1mib., 1b_mi1_stop") +(exclusion_set "1b_0mm_bs" "1b_0mmi., 1b_0mmf., 1b_0mmb.") +(exclusion_set "1b_1mm_bs" "1b_1mmi., 1b_1mmb.") +(exclusion_set "1b_0mf_bs" "1b_0mfi., 1b_0mfb.") +(exclusion_set "1b_1mf_bs" "1b_1mfi., 1b_1mfb.") +(exclusion_set "1b_0b_bs" "1b_0bb.b") +(exclusion_set "1b_1b_bs" "1b_1bb.b") +(exclusion_set "1b_0bb_bs" "1b_0bbb.") +(exclusion_set "1b_1bb_bs" "1b_1bbb.") +(exclusion_set "1b_0mb_bs" "1b_0mbb.") +(exclusion_set "1b_1mb_bs" "1b_1mbb.") + +(exclusion_set + "1b_0m_bs, 1b_0mi_bs, 1b_0mm_bs, 1b_0mf_bs, 1b_0b_bs, 1b_0bb_bs, 1b_0mb_bs, + 1b_1m_bs, 1b_1mi_bs, 1b_1mm_bs, 1b_1mf_bs, 1b_1b_bs, 1b_1bb_bs, 1b_1mb_bs" + "1b_stop") + +(final_presence_set + "1b_0mi.i, 1b_0mm.i, 1b_0mf.i, 1b_0mm.f, 1b_0mb.b,\ + 1b_0mi.b, 1b_0mm.b, 1b_0mf.b, 1b_0mlx." + "1b_m_cont") +(final_presence_set "1b_0mii., 1b_0mib." "1b_mi_cont") +(final_presence_set "1b_0mmi., 1b_0mmf., 1b_0mmb." "1b_mm_cont") +(final_presence_set "1b_0mfi., 1b_0mfb." "1b_mf_cont") +(final_presence_set "1b_0bb.b" "1b_b_cont") +(final_presence_set "1b_0bbb." "1b_bb_cont") +(final_presence_set "1b_0mbb." "1b_mb_cont") + +(exclusion_set + "1b_0m.ii, 1b_0m.mi, 1b_0m.fi, 1b_0m.mf, 1b_0b.bb, 1b_0m.bb,\ + 1b_0m.ib, 1b_0m.mb, 1b_0m.fb, 1b_0m.lx" + "1b_m_cont, 1b_mi_cont, 1b_mm_cont, 1b_mf_cont,\ + 1b_mb_cont, 1b_b_cont, 1b_bb_cont") + +(exclusion_set "1b_empty" + "1b_m_cont,1b_mi_cont,1b_mm_cont,1b_mf_cont,\ + 1b_mb_cont,1b_b_cont,1b_bb_cont") + +;; For m;mi bundle +(final_presence_set "1b_m0_stop" "1b_0m.mi") +(final_presence_set "1b_0mm.i" "1b_0mmi_cont") +(exclusion_set "1b_0mmi_cont" + "1b_0m.ii, 1b_0m.mi, 1b_0m.fi, 1b_0m.mf, 1b_0b.bb, 1b_0m.bb,\ + 1b_0m.ib, 1b_0m.mb, 1b_0m.fb, 1b_0m.lx") +(exclusion_set "1b_m0_stop" "1b_0mm.i") +(final_presence_set "1b_m1_stop" "1b_1m.mi") +(exclusion_set "1b_m1_stop" "1b_1mm.i") +(final_presence_set "1b_m_stop" "1b_m0_stop, 1b_m1_stop") + +;; For mi;i bundle +(final_presence_set "1b_mi0_stop" "1b_0mi.i") +(final_presence_set "1b_0mii." "1b_0mii_cont") +(exclusion_set "1b_0mii_cont" + "1b_0m.ii, 1b_0m.mi, 1b_0m.fi, 1b_0m.mf, 1b_0b.bb, 1b_0m.bb,\ + 1b_0m.ib, 1b_0m.mb, 1b_0m.fb, 1b_0m.lx") +(exclusion_set "1b_mi0_stop" "1b_0mii.") +(final_presence_set "1b_mi1_stop" "1b_1mi.i") +(exclusion_set "1b_mi1_stop" "1b_1mii.") +(final_presence_set "1b_mi_stop" "1b_mi0_stop, 1b_mi1_stop") + +(final_absence_set + "1b_0m.ii,1b_0mi.i,1b_0mii.,1b_0m.mi,1b_0mm.i,1b_0mmi.,\ + 1b_0m.fi,1b_0mf.i,1b_0mfi.,1b_0m.mf,1b_0mm.f,1b_0mmf.,\ + 1b_0b.bb,1b_0bb.b,1b_0bbb.,1b_0m.bb,1b_0mb.b,1b_0mbb.,\ + 1b_0m.ib,1b_0mi.b,1b_0mib.,1b_0m.mb,1b_0mm.b,1b_0mmb.,\ + 1b_0m.fb,1b_0mf.b,1b_0mfb.,1b_0m.lx,1b_0mlx., \ + 1b_1m.ii,1b_1mi.i,1b_1mii.,1b_1m.mi,1b_1mm.i,1b_1mmi.,\ + 1b_1m.fi,1b_1mf.i,1b_1mfi.,\ + 1b_1b.bb,1b_1bb.b,1b_1bbb.,1b_1m.bb,1b_1mb.b,1b_1mbb.,\ + 1b_1m.ib,1b_1mi.b,1b_1mib.,1b_1m.mb,1b_1mm.b,1b_1mmb.,\ + 1b_1m.fb,1b_1mf.b,1b_1mfb.,1b_1m.lx,1b_1mlx." + "1b_m0_stop,1b_m1_stop,1b_mi0_stop,1b_mi1_stop") + +(define_reservation "1b_A" "1b_M|1b_I") + +(define_insn_reservation "1b_stop_bit" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "stop_bit")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_stop|1b_m0_stop|1b_m1_stop|1b_mi0_stop|1b_mi1_stop") +(define_insn_reservation "1b_br" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "br")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_B") +(define_insn_reservation "1b_scall" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "scall")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_B") +(define_insn_reservation "1b_fcmp" 2 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "fcmp")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_F+1b_not_uf1") +(define_insn_reservation "1b_fcvtfx" 7 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "fcvtfx")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_F") + +(define_insn_reservation "1b_fld" 9 + (and (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "fld")) + (eq_attr "check_load" "no")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_M") +(define_insn_reservation "1b_fldc" 0 + (and (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "fld")) + (eq_attr "check_load" "yes")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_M") + +(define_insn_reservation "1b_fldp" 9 + (and (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "fldp")) + (eq_attr "check_load" "no")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_M") +(define_insn_reservation "1b_fldpc" 0 + (and (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "fldp")) + (eq_attr "check_load" "yes")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_M") + +(define_insn_reservation "1b_fmac" 5 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "fmac")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_F") +(define_insn_reservation "1b_fmisc" 5 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "fmisc")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_F+1b_not_uf1") +(define_insn_reservation "1b_frar_i" 13 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "frar_i")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_I+1b_not_ui1") +(define_insn_reservation "1b_frar_m" 6 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "frar_m")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_M+1b_not_um1") +(define_insn_reservation "1b_frbr" 2 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "frbr")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_I+1b_not_ui1") +(define_insn_reservation "1b_frfr" 2 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "frfr")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_M+1b_not_um1") +(define_insn_reservation "1b_frpr" 2 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "frpr")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_I+1b_not_ui1") +(define_insn_reservation "1b_ialu" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "ialu")) + (ne (symbol_ref + "bundling_p && !ia64_produce_address_p (insn)") + (const_int 0))) + "1b_A") +(define_insn_reservation "1b_ialu_addr" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "ialu")) + (eq (symbol_ref + "bundling_p && ia64_produce_address_p (insn)") + (const_int 1))) + "1b_M") +(define_insn_reservation "1b_icmp" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "icmp")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_A") +(define_insn_reservation "1b_ilog" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "ilog")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_A") +(define_insn_reservation "1b_mmalua" 2 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "mmalua")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_A") +(define_insn_reservation "1b_ishf" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "ishf")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_I+1b_not_ui1") + +(define_insn_reservation "1b_ld" 2 + (and (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "ld")) + (eq_attr "check_load" "no")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_M") +(define_insn_reservation "1b_ldc" 0 + (and (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "ld")) + (eq_attr "check_load" "yes")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_M") + +(define_insn_reservation "1b_long_i" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "long_i")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_L") +(define_insn_reservation "1b_mmmul" 2 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "mmmul")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_I+1b_not_ui1") +(define_insn_reservation "1b_mmshf" 2 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "mmshf")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_I") +(define_insn_reservation "1b_mmshfi" 2 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "mmshfi")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_I") +(define_insn_reservation "1b_rse_m" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "rse_m")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "(1b_0m.ii|1b_0m.mi|1b_0m.fi|1b_0m.mf|1b_0b.bb|1b_0m.bb\ + |1b_0m.ib|1b_0m.mb|1b_0m.fb|1b_0m.lx)+1_1+1b_um0") +(define_insn_reservation "1b_sem" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "sem")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_M+1b_not_um1") +(define_insn_reservation "1b_stf" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "stf")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_M") +(define_insn_reservation "1b_st" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "st")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_M") +(define_insn_reservation "1b_syst_m0" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "syst_m0")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_M+1b_not_um1") +(define_insn_reservation "1b_syst_m" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "syst_m")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_M") +(define_insn_reservation "1b_tbit" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "tbit")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_I+1b_not_ui1") +(define_insn_reservation "1b_toar_i" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "toar_i")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_I+1b_not_ui1") +(define_insn_reservation "1b_toar_m" 5 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "toar_m")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_M+1b_not_um1") +(define_insn_reservation "1b_tobr" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "tobr")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_I+1b_not_ui1") +(define_insn_reservation "1b_tofr" 9 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "tofr")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_M") +(define_insn_reservation "1b_topr" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "topr")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_I+1b_not_ui1") +(define_insn_reservation "1b_xmpy" 7 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "xmpy")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_F") +(define_insn_reservation "1b_xtd" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "xtd")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_I") + +(define_insn_reservation "1b_chk_s_i" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "chk_s_i")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_A") +(define_insn_reservation "1b_chk_s_f" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "chk_s_f")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_M") +(define_insn_reservation "1b_chk_a" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "chk_a")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_M") + +(define_insn_reservation "1b_lfetch" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "lfetch")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_M") +(define_insn_reservation "1b_nop_m" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "nop_m")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_M") +(define_insn_reservation "1b_nop_b" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "nop_b")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_NB") +(define_insn_reservation "1b_nop_i" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "nop_i")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_I") +(define_insn_reservation "1b_nop_f" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "nop_f")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_F") +(define_insn_reservation "1b_nop_x" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "nop_x")) + (ne (symbol_ref "bundling_p") (const_int 0))) "1b_L") +(define_insn_reservation "1b_unknown" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "unknown")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_empty") +(define_insn_reservation "1b_nop" 1 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "nop")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "1b_M|1b_NB|1b_I|1b_F") +(define_insn_reservation "1b_ignore" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "ignore")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "nothing") + +(define_insn_reservation "1b_pre_cycle" 0 + (and (and (eq_attr "cpu" "itanium") + (eq_attr "itanium_class" "pre_cycle")) + (ne (symbol_ref "bundling_p") (const_int 0))) + "(1b_0m_bs, 1b_m_cont) \ + | (1b_0mi_bs, 1b_mi_cont) \ + | (1b_0mm_bs, 1b_mm_cont) \ + | (1b_0mf_bs, 1b_mf_cont) \ + | (1b_0b_bs, 1b_b_cont) \ + | (1b_0bb_bs, 1b_bb_cont) \ + | (1b_0mb_bs, 1b_mb_cont) \ + | (1b_1m_bs, 1b_m_cont) \ + | (1b_1mi_bs, 1b_mi_cont) \ + | (1b_1mm_bs, 1b_mm_cont) \ + | (1b_1mf_bs, 1b_mf_cont) \ + | (1b_1b_bs, 1b_b_cont) \ + | (1b_1bb_bs, 1b_bb_cont) \ + | (1b_1mb_bs, 1b_mb_cont) \ + | (1b_m_stop, 1b_0mmi_cont) \ + | (1b_mi_stop, 1b_0mii_cont)") +