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authorMartin Liska <mliska@suse.cz>2022-01-14 16:56:44 +0100
committerMartin Liska <mliska@suse.cz>2022-01-17 22:12:04 +0100
commit5c69acb32329d49e58c26fa41ae74229a52b9106 (patch)
treeddb05f9d73afb6f998457d2ac4b720e3b3b60483 /gcc/emit-rtl.c
parent490e23032baaece71f2ec09fa1805064b150fbc2 (diff)
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Rename .c files to .cc files.
gcc/ada/ChangeLog: * adadecode.c: Moved to... * adadecode.cc: ...here. * affinity.c: Moved to... * affinity.cc: ...here. * argv-lynxos178-raven-cert.c: Moved to... * argv-lynxos178-raven-cert.cc: ...here. * argv.c: Moved to... * argv.cc: ...here. * aux-io.c: Moved to... * aux-io.cc: ...here. * cio.c: Moved to... * cio.cc: ...here. * cstreams.c: Moved to... * cstreams.cc: ...here. * env.c: Moved to... * env.cc: ...here. * exit.c: Moved to... * exit.cc: ...here. * expect.c: Moved to... * expect.cc: ...here. * final.c: Moved to... * final.cc: ...here. * gcc-interface/cuintp.c: Moved to... * gcc-interface/cuintp.cc: ...here. * gcc-interface/decl.c: Moved to... * gcc-interface/decl.cc: ...here. * gcc-interface/misc.c: Moved to... * gcc-interface/misc.cc: ...here. * gcc-interface/targtyps.c: Moved to... * gcc-interface/targtyps.cc: ...here. * gcc-interface/trans.c: Moved to... * gcc-interface/trans.cc: ...here. * gcc-interface/utils.c: Moved to... * gcc-interface/utils.cc: ...here. * gcc-interface/utils2.c: Moved to... * gcc-interface/utils2.cc: ...here. * init.c: Moved to... * init.cc: ...here. * initialize.c: Moved to... * initialize.cc: ...here. * libgnarl/thread.c: Moved to... * libgnarl/thread.cc: ...here. * link.c: Moved to... * link.cc: ...here. * locales.c: Moved to... * locales.cc: ...here. * mkdir.c: Moved to... * mkdir.cc: ...here. * raise.c: Moved to... * raise.cc: ...here. * rtfinal.c: Moved to... * rtfinal.cc: ...here. * rtinit.c: Moved to... * rtinit.cc: ...here. * seh_init.c: Moved to... * seh_init.cc: ...here. * sigtramp-armdroid.c: Moved to... * sigtramp-armdroid.cc: ...here. * sigtramp-ios.c: Moved to... * sigtramp-ios.cc: ...here. * sigtramp-qnx.c: Moved to... * sigtramp-qnx.cc: ...here. * sigtramp-vxworks.c: Moved to... * sigtramp-vxworks.cc: ...here. * socket.c: Moved to... * socket.cc: ...here. * tracebak.c: Moved to... * tracebak.cc: ...here. * version.c: Moved to... * version.cc: ...here. * vx_stack_info.c: Moved to... * vx_stack_info.cc: 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to... * cfghooks.cc: ...here. * cfgloop.c: Moved to... * cfgloop.cc: ...here. * cfgloopanal.c: Moved to... * cfgloopanal.cc: ...here. * cfgloopmanip.c: Moved to... * cfgloopmanip.cc: ...here. * cfgrtl.c: Moved to... * cfgrtl.cc: ...here. * cgraph.c: Moved to... * cgraph.cc: ...here. * cgraphbuild.c: Moved to... * cgraphbuild.cc: ...here. * cgraphclones.c: Moved to... * cgraphclones.cc: ...here. * cgraphunit.c: Moved to... * cgraphunit.cc: ...here. * collect-utils.c: Moved to... * collect-utils.cc: ...here. * collect2-aix.c: Moved to... * collect2-aix.cc: ...here. * collect2.c: Moved to... * collect2.cc: ...here. * combine-stack-adj.c: Moved to... * combine-stack-adj.cc: ...here. * combine.c: Moved to... * combine.cc: ...here. * common/common-targhooks.c: Moved to... * common/common-targhooks.cc: ...here. * common/config/aarch64/aarch64-common.c: Moved to... * common/config/aarch64/aarch64-common.cc: ...here. * common/config/alpha/alpha-common.c: Moved to... * common/config/alpha/alpha-common.cc: ...here. * common/config/arc/arc-common.c: Moved to... * common/config/arc/arc-common.cc: ...here. * common/config/arm/arm-common.c: Moved to... * common/config/arm/arm-common.cc: ...here. * common/config/avr/avr-common.c: Moved to... * common/config/avr/avr-common.cc: ...here. * common/config/bfin/bfin-common.c: Moved to... * common/config/bfin/bfin-common.cc: ...here. * common/config/bpf/bpf-common.c: Moved to... * common/config/bpf/bpf-common.cc: ...here. * common/config/c6x/c6x-common.c: Moved to... * common/config/c6x/c6x-common.cc: ...here. * common/config/cr16/cr16-common.c: Moved to... * common/config/cr16/cr16-common.cc: ...here. * common/config/cris/cris-common.c: Moved to... * common/config/cris/cris-common.cc: ...here. * common/config/csky/csky-common.c: Moved to... * common/config/csky/csky-common.cc: ...here. * common/config/default-common.c: Moved to... * common/config/default-common.cc: ...here. * common/config/epiphany/epiphany-common.c: Moved to... * common/config/epiphany/epiphany-common.cc: ...here. * common/config/fr30/fr30-common.c: Moved to... * common/config/fr30/fr30-common.cc: ...here. * common/config/frv/frv-common.c: Moved to... * common/config/frv/frv-common.cc: ...here. * common/config/gcn/gcn-common.c: Moved to... * common/config/gcn/gcn-common.cc: ...here. * common/config/h8300/h8300-common.c: Moved to... * common/config/h8300/h8300-common.cc: ...here. * common/config/i386/i386-common.c: Moved to... * common/config/i386/i386-common.cc: ...here. * common/config/ia64/ia64-common.c: Moved to... * common/config/ia64/ia64-common.cc: ...here. * common/config/iq2000/iq2000-common.c: Moved to... * common/config/iq2000/iq2000-common.cc: ...here. * common/config/lm32/lm32-common.c: Moved to... * common/config/lm32/lm32-common.cc: ...here. * common/config/m32r/m32r-common.c: Moved to... * common/config/m32r/m32r-common.cc: ...here. * common/config/m68k/m68k-common.c: Moved 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config/msp430/msp430.c: Moved to... * config/msp430/msp430.cc: ...here. * config/nds32/nds32-cost.c: Moved to... * config/nds32/nds32-cost.cc: ...here. * config/nds32/nds32-fp-as-gp.c: Moved to... * config/nds32/nds32-fp-as-gp.cc: ...here. * config/nds32/nds32-intrinsic.c: Moved to... * config/nds32/nds32-intrinsic.cc: ...here. * config/nds32/nds32-isr.c: Moved to... * config/nds32/nds32-isr.cc: ...here. * config/nds32/nds32-md-auxiliary.c: Moved to... * config/nds32/nds32-md-auxiliary.cc: ...here. * config/nds32/nds32-memory-manipulation.c: Moved to... * config/nds32/nds32-memory-manipulation.cc: ...here. * config/nds32/nds32-pipelines-auxiliary.c: Moved to... * config/nds32/nds32-pipelines-auxiliary.cc: ...here. * config/nds32/nds32-predicates.c: Moved to... * config/nds32/nds32-predicates.cc: ...here. * config/nds32/nds32-relax-opt.c: Moved to... * config/nds32/nds32-relax-opt.cc: ...here. * config/nds32/nds32-utils.c: Moved to... * config/nds32/nds32-utils.cc: ...here. * 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config/pru/pru.cc: ...here. * config/riscv/riscv-builtins.c: Moved to... * config/riscv/riscv-builtins.cc: ...here. * config/riscv/riscv-c.c: Moved to... * config/riscv/riscv-c.cc: ...here. * config/riscv/riscv-d.c: Moved to... * config/riscv/riscv-d.cc: ...here. * config/riscv/riscv-shorten-memrefs.c: Moved to... * config/riscv/riscv-shorten-memrefs.cc: ...here. * config/riscv/riscv-sr.c: Moved to... * config/riscv/riscv-sr.cc: ...here. * config/riscv/riscv.c: Moved to... * config/riscv/riscv.cc: ...here. * config/rl78/rl78-c.c: Moved to... * config/rl78/rl78-c.cc: ...here. * config/rl78/rl78.c: Moved to... * config/rl78/rl78.cc: ...here. * config/rs6000/driver-rs6000.c: Moved to... * config/rs6000/driver-rs6000.cc: ...here. * config/rs6000/host-darwin.c: Moved to... * config/rs6000/host-darwin.cc: ...here. * config/rs6000/host-ppc64-darwin.c: Moved to... * config/rs6000/host-ppc64-darwin.cc: ...here. * config/rs6000/rbtree.c: Moved to... * config/rs6000/rbtree.cc: ...here. * config/rs6000/rs6000-c.c: Moved to... * config/rs6000/rs6000-c.cc: ...here. * config/rs6000/rs6000-call.c: Moved to... * config/rs6000/rs6000-call.cc: ...here. * config/rs6000/rs6000-d.c: Moved to... * config/rs6000/rs6000-d.cc: ...here. * config/rs6000/rs6000-gen-builtins.c: Moved to... * config/rs6000/rs6000-gen-builtins.cc: ...here. * config/rs6000/rs6000-linux.c: Moved to... * config/rs6000/rs6000-linux.cc: ...here. * config/rs6000/rs6000-logue.c: Moved to... * config/rs6000/rs6000-logue.cc: ...here. * config/rs6000/rs6000-p8swap.c: Moved to... * config/rs6000/rs6000-p8swap.cc: ...here. * config/rs6000/rs6000-pcrel-opt.c: Moved to... * config/rs6000/rs6000-pcrel-opt.cc: ...here. * config/rs6000/rs6000-string.c: Moved to... * config/rs6000/rs6000-string.cc: ...here. * config/rs6000/rs6000.c: Moved to... * config/rs6000/rs6000.cc: ...here. * config/rx/rx.c: Moved to... * config/rx/rx.cc: ...here. * config/s390/driver-native.c: Moved to... * config/s390/driver-native.cc: ...here. * config/s390/s390-c.c: Moved to... * config/s390/s390-c.cc: ...here. * config/s390/s390-d.c: Moved to... * config/s390/s390-d.cc: ...here. * config/s390/s390.c: Moved to... * config/s390/s390.cc: ...here. * config/sh/divtab-sh4-300.c: Moved to... * config/sh/divtab-sh4-300.cc: ...here. * config/sh/divtab-sh4.c: Moved to... * config/sh/divtab-sh4.cc: ...here. * config/sh/divtab.c: Moved to... * config/sh/divtab.cc: ...here. * config/sh/sh-c.c: Moved to... * config/sh/sh-c.cc: ...here. * config/sh/sh.c: Moved to... * config/sh/sh.cc: ...here. * config/sol2-c.c: Moved to... * config/sol2-c.cc: ...here. * config/sol2-cxx.c: Moved to... * config/sol2-cxx.cc: ...here. * config/sol2-d.c: Moved to... * config/sol2-d.cc: ...here. * config/sol2-stubs.c: Moved to... * config/sol2-stubs.cc: ...here. * config/sol2.c: Moved to... * config/sol2.cc: ...here. * config/sparc/driver-sparc.c: Moved to... * config/sparc/driver-sparc.cc: ...here. * config/sparc/sparc-c.c: Moved to... * config/sparc/sparc-c.cc: ...here. * config/sparc/sparc-d.c: Moved to... * config/sparc/sparc-d.cc: ...here. * config/sparc/sparc.c: Moved to... * config/sparc/sparc.cc: ...here. * config/stormy16/stormy16.c: Moved to... * config/stormy16/stormy16.cc: ...here. * config/tilegx/mul-tables.c: Moved to... * config/tilegx/mul-tables.cc: ...here. * config/tilegx/tilegx-c.c: Moved to... * config/tilegx/tilegx-c.cc: ...here. * config/tilegx/tilegx.c: Moved to... * config/tilegx/tilegx.cc: ...here. * config/tilepro/mul-tables.c: Moved to... * config/tilepro/mul-tables.cc: ...here. * config/tilepro/tilepro-c.c: Moved to... * config/tilepro/tilepro-c.cc: ...here. * config/tilepro/tilepro.c: Moved to... * config/tilepro/tilepro.cc: ...here. * config/v850/v850-c.c: Moved to... * config/v850/v850-c.cc: ...here. * config/v850/v850.c: Moved to... * config/v850/v850.cc: ...here. * config/vax/vax.c: Moved to... * config/vax/vax.cc: ...here. * config/visium/visium.c: Moved to... * config/visium/visium.cc: ...here. * config/vms/vms-c.c: Moved to... * config/vms/vms-c.cc: ...here. * config/vms/vms-f.c: Moved to... * config/vms/vms-f.cc: ...here. * config/vms/vms.c: Moved to... * config/vms/vms.cc: ...here. * config/vxworks-c.c: Moved to... * config/vxworks-c.cc: ...here. * config/vxworks.c: Moved to... * config/vxworks.cc: ...here. * config/winnt-c.c: Moved to... * config/winnt-c.cc: ...here. * config/xtensa/xtensa.c: Moved to... * config/xtensa/xtensa.cc: ...here. * context.c: Moved to... * context.cc: ...here. * convert.c: Moved to... * convert.cc: ...here. * coverage.c: Moved to... * coverage.cc: ...here. * cppbuiltin.c: Moved to... * cppbuiltin.cc: ...here. * cppdefault.c: Moved to... * cppdefault.cc: ...here. * cprop.c: Moved to... * cprop.cc: ...here. * cse.c: Moved to... * cse.cc: ...here. * cselib.c: Moved to... * cselib.cc: ...here. * ctfc.c: Moved to... * ctfc.cc: ...here. * ctfout.c: Moved to... * ctfout.cc: ...here. * data-streamer-in.c: Moved to... * data-streamer-in.cc: ...here. * data-streamer-out.c: Moved to... * data-streamer-out.cc: ...here. * data-streamer.c: Moved to... * data-streamer.cc: ...here. * dbgcnt.c: Moved to... * dbgcnt.cc: ...here. * dbxout.c: Moved to... * dbxout.cc: ...here. * dce.c: Moved to... * dce.cc: ...here. * ddg.c: Moved to... * ddg.cc: ...here. * debug.c: Moved to... * debug.cc: ...here. * df-core.c: Moved to... * df-core.cc: ...here. * df-problems.c: Moved to... * df-problems.cc: ...here. * df-scan.c: Moved to... * df-scan.cc: ...here. * dfp.c: Moved to... * dfp.cc: ...here. * diagnostic-color.c: Moved to... * diagnostic-color.cc: ...here. * diagnostic-show-locus.c: Moved to... * diagnostic-show-locus.cc: ...here. * diagnostic-spec.c: Moved to... * diagnostic-spec.cc: ...here. * diagnostic.c: Moved to... * diagnostic.cc: ...here. * dojump.c: Moved to... * dojump.cc: ...here. * dominance.c: Moved to... * dominance.cc: ...here. * domwalk.c: Moved to... * domwalk.cc: ...here. * double-int.c: Moved to... * double-int.cc: ...here. * dse.c: Moved to... * dse.cc: ...here. * dumpfile.c: Moved to... * dumpfile.cc: ...here. * dwarf2asm.c: Moved to... * dwarf2asm.cc: ...here. * dwarf2cfi.c: Moved to... * dwarf2cfi.cc: ...here. * dwarf2ctf.c: Moved to... * dwarf2ctf.cc: ...here. * dwarf2out.c: Moved to... * dwarf2out.cc: ...here. * early-remat.c: Moved to... * early-remat.cc: ...here. * edit-context.c: Moved to... * edit-context.cc: ...here. * emit-rtl.c: Moved to... * emit-rtl.cc: ...here. * errors.c: Moved to... * errors.cc: ...here. * et-forest.c: Moved to... * et-forest.cc: ...here. * except.c: Moved to... * except.cc: ...here. * explow.c: Moved to... * explow.cc: ...here. * expmed.c: Moved to... * expmed.cc: ...here. * expr.c: Moved to... * expr.cc: ...here. * fibonacci_heap.c: Moved to... * fibonacci_heap.cc: ...here. * file-find.c: Moved to... * file-find.cc: ...here. * file-prefix-map.c: Moved to... * file-prefix-map.cc: ...here. * final.c: Moved to... * final.cc: ...here. * fixed-value.c: Moved to... * fixed-value.cc: ...here. * fold-const-call.c: Moved to... * fold-const-call.cc: ...here. * fold-const.c: Moved to... * fold-const.cc: ...here. * fp-test.c: Moved to... * fp-test.cc: ...here. * function-tests.c: Moved to... * function-tests.cc: ...here. * function.c: Moved to... * function.cc: ...here. * fwprop.c: Moved to... * fwprop.cc: ...here. * gcc-ar.c: Moved to... * gcc-ar.cc: ...here. * gcc-main.c: Moved to... * gcc-main.cc: ...here. * gcc-rich-location.c: Moved to... * gcc-rich-location.cc: ...here. * gcc.c: Moved to... * gcc.cc: ...here. * gcov-dump.c: Moved to... * gcov-dump.cc: ...here. * gcov-io.c: Moved to... * gcov-io.cc: ...here. * gcov-tool.c: Moved to... * gcov-tool.cc: ...here. * gcov.c: Moved to... * gcov.cc: ...here. * gcse-common.c: Moved to... * gcse-common.cc: ...here. * gcse.c: Moved to... * gcse.cc: ...here. * genattr-common.c: Moved to... * genattr-common.cc: ...here. * genattr.c: Moved to... * genattr.cc: ...here. * genattrtab.c: Moved to... * genattrtab.cc: ...here. * genautomata.c: Moved to... * genautomata.cc: ...here. * gencfn-macros.c: Moved to... * gencfn-macros.cc: ...here. * gencheck.c: Moved to... * gencheck.cc: ...here. * genchecksum.c: Moved to... * genchecksum.cc: ...here. * gencodes.c: Moved to... * gencodes.cc: ...here. * genconditions.c: Moved to... * genconditions.cc: ...here. * genconfig.c: Moved to... * genconfig.cc: ...here. * genconstants.c: Moved to... * genconstants.cc: ...here. * genemit.c: Moved to... * genemit.cc: ...here. * genenums.c: Moved to... * genenums.cc: ...here. * generic-match-head.c: Moved to... * generic-match-head.cc: ...here. * genextract.c: Moved to... * genextract.cc: ...here. * genflags.c: Moved to... * genflags.cc: ...here. * gengenrtl.c: Moved to... * gengenrtl.cc: ...here. * gengtype-parse.c: Moved to... * gengtype-parse.cc: ...here. * gengtype-state.c: Moved to... * gengtype-state.cc: ...here. * gengtype.c: Moved to... * gengtype.cc: ...here. * genhooks.c: Moved to... * genhooks.cc: ...here. * genmatch.c: Moved to... * genmatch.cc: ...here. * genmddeps.c: Moved to... * genmddeps.cc: ...here. * genmddump.c: Moved to... * genmddump.cc: ...here. * genmodes.c: Moved to... * genmodes.cc: ...here. * genopinit.c: Moved to... * genopinit.cc: ...here. * genoutput.c: Moved to... * genoutput.cc: ...here. * genpeep.c: Moved to... * genpeep.cc: ...here. * genpreds.c: Moved to... * genpreds.cc: ...here. * genrecog.c: Moved to... * genrecog.cc: ...here. * gensupport.c: Moved to... * gensupport.cc: ...here. * gentarget-def.c: Moved to... * gentarget-def.cc: ...here. * genversion.c: Moved to... * genversion.cc: ...here. * ggc-common.c: Moved to... * ggc-common.cc: ...here. * ggc-none.c: Moved to... * ggc-none.cc: ...here. * ggc-page.c: Moved to... * ggc-page.cc: ...here. * ggc-tests.c: Moved to... * ggc-tests.cc: ...here. * gimple-builder.c: Moved to... * gimple-builder.cc: ...here. * gimple-expr.c: Moved to... * gimple-expr.cc: ...here. * gimple-fold.c: Moved to... * gimple-fold.cc: ...here. * gimple-iterator.c: Moved to... * gimple-iterator.cc: ...here. * gimple-laddress.c: Moved to... * gimple-laddress.cc: ...here. * gimple-loop-jam.c: Moved to... * gimple-loop-jam.cc: ...here. * gimple-low.c: Moved to... * gimple-low.cc: ...here. * gimple-match-head.c: Moved to... * gimple-match-head.cc: ...here. * gimple-pretty-print.c: Moved to... * gimple-pretty-print.cc: ...here. * gimple-ssa-backprop.c: Moved to... * gimple-ssa-backprop.cc: ...here. * gimple-ssa-evrp-analyze.c: Moved to... * gimple-ssa-evrp-analyze.cc: ...here. * gimple-ssa-evrp.c: Moved to... * gimple-ssa-evrp.cc: ...here. * gimple-ssa-isolate-paths.c: Moved to... * gimple-ssa-isolate-paths.cc: ...here. * gimple-ssa-nonnull-compare.c: Moved to... * gimple-ssa-nonnull-compare.cc: ...here. * gimple-ssa-split-paths.c: Moved to... * gimple-ssa-split-paths.cc: ...here. * gimple-ssa-sprintf.c: Moved to... * gimple-ssa-sprintf.cc: ...here. * gimple-ssa-store-merging.c: Moved to... * gimple-ssa-store-merging.cc: ...here. * gimple-ssa-strength-reduction.c: Moved to... * gimple-ssa-strength-reduction.cc: ...here. * gimple-ssa-warn-alloca.c: Moved to... * gimple-ssa-warn-alloca.cc: ...here. * gimple-ssa-warn-restrict.c: Moved to... * gimple-ssa-warn-restrict.cc: ...here. * gimple-streamer-in.c: Moved to... * gimple-streamer-in.cc: ...here. * gimple-streamer-out.c: Moved to... * gimple-streamer-out.cc: ...here. * gimple-walk.c: Moved to... * gimple-walk.cc: ...here. * gimple-warn-recursion.c: Moved to... * gimple-warn-recursion.cc: ...here. * gimple.c: Moved to... * gimple.cc: ...here. * gimplify-me.c: Moved to... * gimplify-me.cc: ...here. * gimplify.c: Moved to... * gimplify.cc: ...here. * godump.c: Moved to... * godump.cc: ...here. * graph.c: Moved to... * graph.cc: ...here. * graphds.c: Moved to... * graphds.cc: ...here. * graphite-dependences.c: Moved to... * graphite-dependences.cc: ...here. * graphite-isl-ast-to-gimple.c: Moved to... * graphite-isl-ast-to-gimple.cc: ...here. * graphite-optimize-isl.c: Moved to... * graphite-optimize-isl.cc: ...here. * graphite-poly.c: Moved to... * graphite-poly.cc: ...here. * graphite-scop-detection.c: Moved to... * graphite-scop-detection.cc: ...here. * graphite-sese-to-poly.c: Moved to... * graphite-sese-to-poly.cc: ...here. * graphite.c: Moved to... * graphite.cc: ...here. * haifa-sched.c: Moved to... * haifa-sched.cc: ...here. * hash-map-tests.c: Moved to... * hash-map-tests.cc: ...here. * hash-set-tests.c: Moved to... * hash-set-tests.cc: ...here. * hash-table.c: Moved to... * hash-table.cc: ...here. * hooks.c: Moved to... * hooks.cc: ...here. * host-default.c: Moved to... * host-default.cc: ...here. * hw-doloop.c: Moved to... * hw-doloop.cc: ...here. * hwint.c: Moved to... * hwint.cc: ...here. * ifcvt.c: Moved to... * ifcvt.cc: ...here. * inchash.c: Moved to... * inchash.cc: ...here. * incpath.c: Moved to... * incpath.cc: ...here. * init-regs.c: Moved to... * init-regs.cc: ...here. * input.c: Moved to... * input.cc: ...here. * internal-fn.c: Moved to... * internal-fn.cc: ...here. * intl.c: Moved to... * intl.cc: ...here. * ipa-comdats.c: Moved to... * ipa-comdats.cc: ...here. * ipa-cp.c: Moved to... * ipa-cp.cc: ...here. * ipa-devirt.c: Moved to... * ipa-devirt.cc: ...here. * ipa-fnsummary.c: Moved to... * ipa-fnsummary.cc: ...here. * ipa-icf-gimple.c: Moved to... * ipa-icf-gimple.cc: ...here. * ipa-icf.c: Moved to... * ipa-icf.cc: ...here. * ipa-inline-analysis.c: Moved to... * ipa-inline-analysis.cc: ...here. * ipa-inline-transform.c: Moved to... * ipa-inline-transform.cc: ...here. * ipa-inline.c: Moved to... * ipa-inline.cc: ...here. * ipa-modref-tree.c: Moved to... * ipa-modref-tree.cc: ...here. * ipa-modref.c: Moved to... * ipa-modref.cc: ...here. * ipa-param-manipulation.c: Moved to... * ipa-param-manipulation.cc: ...here. * ipa-polymorphic-call.c: Moved to... * ipa-polymorphic-call.cc: ...here. * ipa-predicate.c: Moved to... * ipa-predicate.cc: ...here. * ipa-profile.c: Moved to... * ipa-profile.cc: ...here. * ipa-prop.c: Moved to... * ipa-prop.cc: ...here. * ipa-pure-const.c: Moved to... * ipa-pure-const.cc: ...here. * ipa-ref.c: Moved to... * ipa-ref.cc: ...here. * ipa-reference.c: Moved to... * ipa-reference.cc: ...here. * ipa-split.c: Moved to... * ipa-split.cc: ...here. * ipa-sra.c: Moved to... * ipa-sra.cc: ...here. * ipa-utils.c: Moved to... * ipa-utils.cc: ...here. * ipa-visibility.c: Moved to... * ipa-visibility.cc: ...here. * ipa.c: Moved to... * ipa.cc: ...here. * ira-build.c: Moved to... * ira-build.cc: ...here. * ira-color.c: Moved to... * ira-color.cc: ...here. * ira-conflicts.c: Moved to... * ira-conflicts.cc: ...here. * ira-costs.c: Moved to... * ira-costs.cc: ...here. * ira-emit.c: Moved to... * ira-emit.cc: ...here. * ira-lives.c: Moved to... * ira-lives.cc: ...here. * ira.c: Moved to... * ira.cc: ...here. * jump.c: Moved to... * jump.cc: ...here. * langhooks.c: Moved to... * langhooks.cc: ...here. * lcm.c: Moved to... * lcm.cc: ...here. * lists.c: Moved to... * lists.cc: ...here. * loop-doloop.c: Moved to... * loop-doloop.cc: ...here. * loop-init.c: Moved to... * loop-init.cc: ...here. * loop-invariant.c: Moved to... * loop-invariant.cc: ...here. * loop-iv.c: Moved to... * loop-iv.cc: ...here. * loop-unroll.c: Moved to... * loop-unroll.cc: ...here. * lower-subreg.c: Moved to... * lower-subreg.cc: ...here. * lra-assigns.c: Moved to... * lra-assigns.cc: ...here. * lra-coalesce.c: Moved to... * lra-coalesce.cc: ...here. * lra-constraints.c: Moved to... * lra-constraints.cc: ...here. * lra-eliminations.c: Moved to... * lra-eliminations.cc: ...here. * lra-lives.c: Moved to... * lra-lives.cc: ...here. * lra-remat.c: Moved to... * lra-remat.cc: ...here. * lra-spills.c: Moved to... * lra-spills.cc: ...here. * lra.c: Moved to... * lra.cc: ...here. * lto-cgraph.c: Moved to... * lto-cgraph.cc: ...here. * lto-compress.c: Moved to... * lto-compress.cc: ...here. * lto-opts.c: Moved to... * lto-opts.cc: ...here. * lto-section-in.c: Moved to... * lto-section-in.cc: ...here. * lto-section-out.c: Moved to... * lto-section-out.cc: ...here. * lto-streamer-in.c: Moved to... * lto-streamer-in.cc: ...here. * lto-streamer-out.c: Moved to... * lto-streamer-out.cc: ...here. * lto-streamer.c: Moved to... * lto-streamer.cc: ...here. * lto-wrapper.c: Moved to... * lto-wrapper.cc: ...here. * main.c: Moved to... * main.cc: ...here. * mcf.c: Moved to... * mcf.cc: ...here. * mode-switching.c: Moved to... * mode-switching.cc: ...here. * modulo-sched.c: Moved to... * modulo-sched.cc: ...here. * multiple_target.c: Moved to... * multiple_target.cc: ...here. * omp-expand.c: Moved to... * omp-expand.cc: ...here. * omp-general.c: Moved to... * omp-general.cc: ...here. * omp-low.c: Moved to... * omp-low.cc: ...here. * omp-offload.c: Moved to... * omp-offload.cc: ...here. * omp-simd-clone.c: Moved to... * omp-simd-clone.cc: ...here. * opt-suggestions.c: Moved to... * opt-suggestions.cc: ...here. * optabs-libfuncs.c: Moved to... * optabs-libfuncs.cc: ...here. * optabs-query.c: Moved to... * optabs-query.cc: ...here. * optabs-tree.c: Moved to... * optabs-tree.cc: ...here. * optabs.c: Moved to... * optabs.cc: ...here. * opts-common.c: Moved to... * opts-common.cc: ...here. * opts-global.c: Moved to... * opts-global.cc: ...here. * opts.c: Moved to... * opts.cc: ...here. * passes.c: Moved to... * passes.cc: ...here. * plugin.c: Moved to... * plugin.cc: ...here. * postreload-gcse.c: Moved to... * postreload-gcse.cc: ...here. * postreload.c: Moved to... * postreload.cc: ...here. * predict.c: Moved to... * predict.cc: ...here. * prefix.c: Moved to... * prefix.cc: ...here. * pretty-print.c: Moved to... * pretty-print.cc: ...here. * print-rtl-function.c: Moved to... * print-rtl-function.cc: ...here. * print-rtl.c: Moved to... * print-rtl.cc: ...here. * print-tree.c: Moved to... * print-tree.cc: ...here. * profile-count.c: Moved to... * profile-count.cc: ...here. * profile.c: Moved to... * profile.cc: ...here. * read-md.c: Moved to... * read-md.cc: ...here. * read-rtl-function.c: Moved to... * read-rtl-function.cc: ...here. * read-rtl.c: Moved to... * read-rtl.cc: ...here. * real.c: Moved to... * real.cc: ...here. * realmpfr.c: Moved to... * realmpfr.cc: ...here. * recog.c: Moved to... * recog.cc: ...here. * ree.c: Moved to... * ree.cc: ...here. * reg-stack.c: Moved to... * reg-stack.cc: ...here. * regcprop.c: Moved to... * regcprop.cc: ...here. * reginfo.c: Moved to... * reginfo.cc: ...here. * regrename.c: Moved to... * regrename.cc: ...here. * regstat.c: Moved to... * regstat.cc: ...here. * reload.c: Moved to... * reload.cc: ...here. * reload1.c: Moved to... * reload1.cc: ...here. * reorg.c: Moved to... * reorg.cc: ...here. * resource.c: Moved to... * resource.cc: ...here. * rtl-error.c: Moved to... * rtl-error.cc: ...here. * rtl-tests.c: Moved to... * rtl-tests.cc: ...here. * rtl.c: Moved to... * rtl.cc: ...here. * rtlanal.c: Moved to... * rtlanal.cc: ...here. * rtlhash.c: Moved to... * rtlhash.cc: ...here. * rtlhooks.c: Moved to... * rtlhooks.cc: ...here. * rtx-vector-builder.c: Moved to... * rtx-vector-builder.cc: ...here. * run-rtl-passes.c: Moved to... * run-rtl-passes.cc: ...here. * sancov.c: Moved to... * sancov.cc: ...here. * sanopt.c: Moved to... * sanopt.cc: ...here. * sbitmap.c: Moved to... * sbitmap.cc: ...here. * sched-deps.c: Moved to... * sched-deps.cc: ...here. * sched-ebb.c: Moved to... * sched-ebb.cc: ...here. * sched-rgn.c: Moved to... * sched-rgn.cc: ...here. * sel-sched-dump.c: Moved to... * sel-sched-dump.cc: ...here. * sel-sched-ir.c: Moved to... * sel-sched-ir.cc: ...here. * sel-sched.c: Moved to... * sel-sched.cc: ...here. * selftest-diagnostic.c: Moved to... * selftest-diagnostic.cc: ...here. * selftest-rtl.c: Moved to... * selftest-rtl.cc: ...here. * selftest-run-tests.c: Moved to... * selftest-run-tests.cc: ...here. * selftest.c: Moved to... * selftest.cc: ...here. * sese.c: Moved to... * sese.cc: ...here. * shrink-wrap.c: Moved to... * shrink-wrap.cc: ...here. * simplify-rtx.c: Moved to... * simplify-rtx.cc: ...here. * sparseset.c: Moved to... * sparseset.cc: ...here. * spellcheck-tree.c: Moved to... * spellcheck-tree.cc: ...here. * spellcheck.c: Moved to... * spellcheck.cc: ...here. * sreal.c: Moved to... * sreal.cc: ...here. * stack-ptr-mod.c: Moved to... * stack-ptr-mod.cc: ...here. * statistics.c: Moved to... * statistics.cc: ...here. * stmt.c: Moved to... * stmt.cc: ...here. * stor-layout.c: Moved to... * stor-layout.cc: ...here. * store-motion.c: Moved to... * store-motion.cc: ...here. * streamer-hooks.c: Moved to... * streamer-hooks.cc: ...here. * stringpool.c: Moved to... * stringpool.cc: ...here. * substring-locations.c: Moved to... * substring-locations.cc: ...here. * symtab.c: Moved to... * symtab.cc: ...here. * target-globals.c: Moved to... * target-globals.cc: ...here. * targhooks.c: Moved to... * targhooks.cc: ...here. * timevar.c: Moved to... * timevar.cc: ...here. * toplev.c: Moved to... * toplev.cc: ...here. * tracer.c: Moved to... * tracer.cc: ...here. * trans-mem.c: Moved to... * trans-mem.cc: ...here. * tree-affine.c: Moved to... * tree-affine.cc: ...here. * tree-call-cdce.c: Moved to... * tree-call-cdce.cc: ...here. * tree-cfg.c: Moved to... * tree-cfg.cc: ...here. * tree-cfgcleanup.c: Moved to... * tree-cfgcleanup.cc: ...here. * tree-chrec.c: Moved to... * tree-chrec.cc: ...here. * tree-complex.c: Moved to... * tree-complex.cc: ...here. * tree-data-ref.c: Moved to... * tree-data-ref.cc: ...here. * tree-dfa.c: Moved to... * tree-dfa.cc: ...here. * tree-diagnostic.c: Moved to... * tree-diagnostic.cc: ...here. * tree-dump.c: Moved to... * tree-dump.cc: ...here. * tree-eh.c: Moved to... * tree-eh.cc: ...here. * tree-emutls.c: Moved to... * tree-emutls.cc: ...here. * tree-if-conv.c: Moved to... * tree-if-conv.cc: ...here. * tree-inline.c: Moved to... * tree-inline.cc: ...here. * tree-into-ssa.c: Moved to... * tree-into-ssa.cc: ...here. * tree-iterator.c: Moved to... * tree-iterator.cc: ...here. * tree-loop-distribution.c: Moved to... * tree-loop-distribution.cc: ...here. * tree-nested.c: Moved to... * tree-nested.cc: ...here. * tree-nrv.c: Moved to... * tree-nrv.cc: ...here. * tree-object-size.c: Moved to... * tree-object-size.cc: ...here. * tree-outof-ssa.c: Moved to... * tree-outof-ssa.cc: ...here. * tree-parloops.c: Moved to... * tree-parloops.cc: ...here. * tree-phinodes.c: Moved to... * tree-phinodes.cc: ...here. * tree-predcom.c: Moved to... * tree-predcom.cc: ...here. * tree-pretty-print.c: Moved to... * tree-pretty-print.cc: ...here. * tree-profile.c: Moved to... * tree-profile.cc: ...here. * tree-scalar-evolution.c: Moved to... * tree-scalar-evolution.cc: ...here. * tree-sra.c: Moved to... * tree-sra.cc: ...here. * tree-ssa-address.c: Moved to... * tree-ssa-address.cc: ...here. * tree-ssa-alias.c: Moved to... * tree-ssa-alias.cc: ...here. * tree-ssa-ccp.c: Moved to... * tree-ssa-ccp.cc: ...here. * tree-ssa-coalesce.c: Moved to... * tree-ssa-coalesce.cc: ...here. * tree-ssa-copy.c: Moved to... * tree-ssa-copy.cc: ...here. * tree-ssa-dce.c: Moved to... * tree-ssa-dce.cc: ...here. * tree-ssa-dom.c: Moved to... * tree-ssa-dom.cc: ...here. * tree-ssa-dse.c: Moved to... * tree-ssa-dse.cc: ...here. * tree-ssa-forwprop.c: Moved to... * tree-ssa-forwprop.cc: ...here. * tree-ssa-ifcombine.c: Moved to... * tree-ssa-ifcombine.cc: ...here. * tree-ssa-live.c: Moved to... * tree-ssa-live.cc: ...here. * tree-ssa-loop-ch.c: Moved to... * tree-ssa-loop-ch.cc: ...here. * tree-ssa-loop-im.c: Moved to... * tree-ssa-loop-im.cc: ...here. * tree-ssa-loop-ivcanon.c: Moved to... * tree-ssa-loop-ivcanon.cc: ...here. * tree-ssa-loop-ivopts.c: Moved to... * tree-ssa-loop-ivopts.cc: ...here. * tree-ssa-loop-manip.c: Moved to... * tree-ssa-loop-manip.cc: ...here. * tree-ssa-loop-niter.c: Moved to... * tree-ssa-loop-niter.cc: ...here. * tree-ssa-loop-prefetch.c: Moved to... * tree-ssa-loop-prefetch.cc: ...here. * tree-ssa-loop-split.c: Moved to... * tree-ssa-loop-split.cc: ...here. * tree-ssa-loop-unswitch.c: Moved to... * tree-ssa-loop-unswitch.cc: ...here. * tree-ssa-loop.c: Moved to... * tree-ssa-loop.cc: ...here. * tree-ssa-math-opts.c: Moved to... * tree-ssa-math-opts.cc: ...here. * tree-ssa-operands.c: Moved to... * tree-ssa-operands.cc: ...here. * tree-ssa-phiopt.c: Moved to... * tree-ssa-phiopt.cc: ...here. * tree-ssa-phiprop.c: Moved to... * tree-ssa-phiprop.cc: ...here. * tree-ssa-pre.c: Moved to... * tree-ssa-pre.cc: ...here. * tree-ssa-propagate.c: Moved to... * tree-ssa-propagate.cc: ...here. * tree-ssa-reassoc.c: Moved to... * tree-ssa-reassoc.cc: ...here. * tree-ssa-sccvn.c: Moved to... * tree-ssa-sccvn.cc: ...here. * tree-ssa-scopedtables.c: Moved to... * tree-ssa-scopedtables.cc: ...here. * tree-ssa-sink.c: Moved to... * tree-ssa-sink.cc: ...here. * tree-ssa-strlen.c: Moved to... * tree-ssa-strlen.cc: ...here. * tree-ssa-structalias.c: Moved to... * tree-ssa-structalias.cc: ...here. * tree-ssa-tail-merge.c: Moved to... * tree-ssa-tail-merge.cc: ...here. * tree-ssa-ter.c: Moved to... * tree-ssa-ter.cc: ...here. * tree-ssa-threadbackward.c: Moved to... * tree-ssa-threadbackward.cc: ...here. * tree-ssa-threadedge.c: Moved to... * tree-ssa-threadedge.cc: ...here. * tree-ssa-threadupdate.c: Moved to... * tree-ssa-threadupdate.cc: ...here. * tree-ssa-uncprop.c: Moved to... * tree-ssa-uncprop.cc: ...here. * tree-ssa-uninit.c: Moved to... * tree-ssa-uninit.cc: ...here. * tree-ssa.c: Moved to... * tree-ssa.cc: ...here. * tree-ssanames.c: Moved to... * tree-ssanames.cc: ...here. * tree-stdarg.c: Moved to... * tree-stdarg.cc: ...here. * tree-streamer-in.c: Moved to... * tree-streamer-in.cc: ...here. * tree-streamer-out.c: Moved to... * tree-streamer-out.cc: ...here. * tree-streamer.c: Moved to... * tree-streamer.cc: ...here. * tree-switch-conversion.c: Moved to... * tree-switch-conversion.cc: ...here. * tree-tailcall.c: Moved to... * tree-tailcall.cc: ...here. * tree-vect-data-refs.c: Moved to... * tree-vect-data-refs.cc: ...here. * tree-vect-generic.c: Moved to... * tree-vect-generic.cc: ...here. * tree-vect-loop-manip.c: Moved to... * tree-vect-loop-manip.cc: ...here. * tree-vect-loop.c: Moved to... * tree-vect-loop.cc: ...here. * tree-vect-patterns.c: Moved to... * tree-vect-patterns.cc: ...here. * tree-vect-slp-patterns.c: Moved to... * tree-vect-slp-patterns.cc: ...here. * tree-vect-slp.c: Moved to... * tree-vect-slp.cc: ...here. * tree-vect-stmts.c: Moved to... * tree-vect-stmts.cc: ...here. * tree-vector-builder.c: Moved to... * tree-vector-builder.cc: ...here. * tree-vectorizer.c: Moved to... * tree-vectorizer.cc: ...here. * tree-vrp.c: Moved to... * tree-vrp.cc: ...here. * tree.c: Moved to... * tree.cc: ...here. * tsan.c: Moved to... * tsan.cc: ...here. * typed-splay-tree.c: Moved to... * typed-splay-tree.cc: ...here. * ubsan.c: Moved to... * ubsan.cc: ...here. * valtrack.c: Moved to... * valtrack.cc: ...here. * value-prof.c: Moved to... * value-prof.cc: ...here. * var-tracking.c: Moved to... * var-tracking.cc: ...here. * varasm.c: Moved to... * varasm.cc: ...here. * varpool.c: Moved to... * varpool.cc: ...here. * vec-perm-indices.c: Moved to... * vec-perm-indices.cc: ...here. * vec.c: Moved to... * vec.cc: ...here. * vmsdbgout.c: Moved to... * vmsdbgout.cc: ...here. * vr-values.c: Moved to... * vr-values.cc: ...here. * vtable-verify.c: Moved to... * vtable-verify.cc: ...here. * web.c: Moved to... * web.cc: ...here. * xcoffout.c: Moved to... * xcoffout.cc: ...here. gcc/c-family/ChangeLog: * c-ada-spec.c: Moved to... * c-ada-spec.cc: ...here. * c-attribs.c: Moved to... * c-attribs.cc: ...here. * c-common.c: Moved to... * c-common.cc: ...here. * c-cppbuiltin.c: Moved to... * c-cppbuiltin.cc: ...here. * c-dump.c: Moved to... * c-dump.cc: ...here. * c-format.c: Moved to... * c-format.cc: ...here. * c-gimplify.c: Moved to... * c-gimplify.cc: ...here. * c-indentation.c: Moved to... * c-indentation.cc: ...here. * c-lex.c: Moved to... * c-lex.cc: ...here. * c-omp.c: Moved to... * c-omp.cc: ...here. * c-opts.c: Moved to... * c-opts.cc: ...here. * c-pch.c: Moved to... * c-pch.cc: ...here. * c-ppoutput.c: Moved to... * c-ppoutput.cc: ...here. * c-pragma.c: Moved to... * c-pragma.cc: ...here. * c-pretty-print.c: Moved to... * c-pretty-print.cc: ...here. * c-semantics.c: Moved to... * c-semantics.cc: ...here. * c-ubsan.c: Moved to... * c-ubsan.cc: ...here. * c-warn.c: Moved to... * c-warn.cc: ...here. * cppspec.c: Moved to... * cppspec.cc: ...here. * stub-objc.c: Moved to... * stub-objc.cc: ...here. gcc/c/ChangeLog: * c-aux-info.c: Moved to... * c-aux-info.cc: ...here. * c-convert.c: Moved to... * c-convert.cc: ...here. * c-decl.c: Moved to... * c-decl.cc: ...here. * c-errors.c: Moved to... * c-errors.cc: ...here. * c-fold.c: Moved to... * c-fold.cc: ...here. * c-lang.c: Moved to... * c-lang.cc: ...here. * c-objc-common.c: Moved to... * c-objc-common.cc: ...here. * c-parser.c: Moved to... * c-parser.cc: ...here. * c-typeck.c: Moved to... * c-typeck.cc: ...here. * gccspec.c: Moved to... * gccspec.cc: ...here. * gimple-parser.c: Moved to... * gimple-parser.cc: ...here. gcc/cp/ChangeLog: * call.c: Moved to... * call.cc: ...here. * class.c: Moved to... * class.cc: ...here. * constexpr.c: Moved to... * constexpr.cc: ...here. * cp-gimplify.c: Moved to... * cp-gimplify.cc: ...here. * cp-lang.c: Moved to... * cp-lang.cc: ...here. * cp-objcp-common.c: Moved to... * cp-objcp-common.cc: ...here. * cp-ubsan.c: Moved to... * cp-ubsan.cc: ...here. * cvt.c: Moved to... * cvt.cc: ...here. * cxx-pretty-print.c: Moved to... * cxx-pretty-print.cc: ...here. * decl.c: Moved to... * decl.cc: ...here. * decl2.c: Moved to... * decl2.cc: ...here. * dump.c: Moved to... * dump.cc: ...here. * error.c: Moved to... * error.cc: ...here. * except.c: Moved to... * except.cc: ...here. * expr.c: Moved to... * expr.cc: ...here. * friend.c: Moved to... * friend.cc: ...here. * g++spec.c: Moved to... * g++spec.cc: ...here. * init.c: Moved to... * init.cc: ...here. * lambda.c: Moved to... * lambda.cc: ...here. * lex.c: Moved to... * lex.cc: ...here. * mangle.c: Moved to... * mangle.cc: ...here. * method.c: Moved to... * method.cc: ...here. * name-lookup.c: Moved to... * name-lookup.cc: ...here. * optimize.c: Moved to... * optimize.cc: ...here. * parser.c: Moved to... * parser.cc: ...here. * pt.c: Moved to... * pt.cc: ...here. * ptree.c: Moved to... * ptree.cc: ...here. * rtti.c: Moved to... * rtti.cc: ...here. * search.c: Moved to... * search.cc: ...here. * semantics.c: Moved to... * semantics.cc: ...here. * tree.c: Moved to... * tree.cc: ...here. * typeck.c: Moved to... * typeck.cc: ...here. * typeck2.c: Moved to... * typeck2.cc: ...here. * vtable-class-hierarchy.c: Moved to... * vtable-class-hierarchy.cc: ...here. gcc/fortran/ChangeLog: * arith.c: Moved to... * arith.cc: ...here. * array.c: Moved to... * array.cc: ...here. * bbt.c: Moved to... * bbt.cc: ...here. * check.c: Moved to... * check.cc: ...here. * class.c: Moved to... * class.cc: ...here. * constructor.c: Moved to... * constructor.cc: ...here. * convert.c: Moved to... * convert.cc: ...here. * cpp.c: Moved to... * cpp.cc: ...here. * data.c: Moved to... * data.cc: ...here. * decl.c: Moved to... * decl.cc: ...here. * dependency.c: Moved to... * dependency.cc: ...here. * dump-parse-tree.c: Moved to... * dump-parse-tree.cc: ...here. * error.c: Moved to... * error.cc: ...here. * expr.c: Moved to... * expr.cc: ...here. * f95-lang.c: Moved to... * f95-lang.cc: ...here. * frontend-passes.c: Moved to... * frontend-passes.cc: ...here. * gfortranspec.c: Moved to... * gfortranspec.cc: ...here. * interface.c: Moved to... * interface.cc: ...here. * intrinsic.c: Moved to... * intrinsic.cc: ...here. * io.c: Moved to... * io.cc: ...here. * iresolve.c: Moved to... * iresolve.cc: ...here. * match.c: Moved to... * match.cc: ...here. * matchexp.c: Moved to... * matchexp.cc: ...here. * misc.c: Moved to... * misc.cc: ...here. * module.c: Moved to... * module.cc: ...here. * openmp.c: Moved to... * openmp.cc: ...here. * options.c: Moved to... * options.cc: ...here. * parse.c: Moved to... * parse.cc: ...here. * primary.c: Moved to... * primary.cc: ...here. * resolve.c: Moved to... * resolve.cc: ...here. * scanner.c: Moved to... * scanner.cc: ...here. * simplify.c: Moved to... * simplify.cc: ...here. * st.c: Moved to... * st.cc: ...here. * symbol.c: Moved to... * symbol.cc: ...here. * target-memory.c: Moved to... * target-memory.cc: ...here. * trans-array.c: Moved to... * trans-array.cc: ...here. * trans-common.c: Moved to... * trans-common.cc: ...here. * trans-const.c: Moved to... * trans-const.cc: ...here. * trans-decl.c: Moved to... * trans-decl.cc: ...here. * trans-expr.c: Moved to... * trans-expr.cc: ...here. * trans-intrinsic.c: Moved to... * trans-intrinsic.cc: ...here. * trans-io.c: Moved to... * trans-io.cc: ...here. * trans-openmp.c: Moved to... * trans-openmp.cc: ...here. * trans-stmt.c: Moved to... * trans-stmt.cc: ...here. * trans-types.c: Moved to... * trans-types.cc: ...here. * trans.c: Moved to... * trans.cc: ...here. gcc/go/ChangeLog: * go-backend.c: Moved to... * go-backend.cc: ...here. * go-lang.c: Moved to... * go-lang.cc: ...here. * gospec.c: Moved to... * gospec.cc: ...here. gcc/jit/ChangeLog: * dummy-frontend.c: Moved to... * dummy-frontend.cc: ...here. * jit-builtins.c: Moved to... * jit-builtins.cc: ...here. * jit-logging.c: Moved to... * jit-logging.cc: ...here. * jit-playback.c: Moved to... * jit-playback.cc: ...here. * jit-recording.c: Moved to... * jit-recording.cc: ...here. * jit-result.c: Moved to... * jit-result.cc: ...here. * jit-spec.c: Moved to... * jit-spec.cc: ...here. * jit-tempdir.c: Moved to... * jit-tempdir.cc: ...here. * jit-w32.c: Moved to... * jit-w32.cc: ...here. * libgccjit.c: Moved to... * libgccjit.cc: ...here. gcc/lto/ChangeLog: * common.c: Moved to... * common.cc: ...here. * lto-common.c: Moved to... * lto-common.cc: ...here. * lto-dump.c: Moved to... * lto-dump.cc: ...here. * lto-lang.c: Moved to... * lto-lang.cc: ...here. * lto-object.c: Moved to... * lto-object.cc: ...here. * lto-partition.c: Moved to... * lto-partition.cc: ...here. * lto-symtab.c: Moved to... * lto-symtab.cc: ...here. * lto.c: Moved to... * lto.cc: ...here. gcc/objc/ChangeLog: * objc-act.c: Moved to... * objc-act.cc: ...here. * objc-encoding.c: Moved to... * objc-encoding.cc: ...here. * objc-gnu-runtime-abi-01.c: Moved to... * objc-gnu-runtime-abi-01.cc: ...here. * objc-lang.c: Moved to... * objc-lang.cc: ...here. * objc-map.c: Moved to... * objc-map.cc: ...here. * objc-next-runtime-abi-01.c: Moved to... * objc-next-runtime-abi-01.cc: ...here. * objc-next-runtime-abi-02.c: Moved to... * objc-next-runtime-abi-02.cc: ...here. * objc-runtime-shared-support.c: Moved to... * objc-runtime-shared-support.cc: ...here. gcc/objcp/ChangeLog: * objcp-decl.c: Moved to... * objcp-decl.cc: ...here. * objcp-lang.c: Moved to... * objcp-lang.cc: ...here. libcpp/ChangeLog: * charset.c: Moved to... * charset.cc: ...here. * directives.c: Moved to... * directives.cc: ...here. * errors.c: Moved to... * errors.cc: ...here. * expr.c: Moved to... * expr.cc: ...here. * files.c: Moved to... * files.cc: ...here. * identifiers.c: Moved to... * identifiers.cc: ...here. * init.c: Moved to... * init.cc: ...here. * lex.c: Moved to... * lex.cc: ...here. * line-map.c: Moved to... * line-map.cc: ...here. * macro.c: Moved to... * macro.cc: ...here. * makeucnid.c: Moved to... * makeucnid.cc: ...here. * mkdeps.c: Moved to... * mkdeps.cc: ...here. * pch.c: Moved to... * pch.cc: ...here. * symtab.c: Moved to... * symtab.cc: ...here. * traditional.c: Moved to... * traditional.cc: ...here.
Diffstat (limited to 'gcc/emit-rtl.c')
-rw-r--r--gcc/emit-rtl.c6596
1 files changed, 0 insertions, 6596 deletions
diff --git a/gcc/emit-rtl.c b/gcc/emit-rtl.c
deleted file mode 100644
index feeee16..0000000
--- a/gcc/emit-rtl.c
+++ /dev/null
@@ -1,6596 +0,0 @@
-/* Emit RTL for the GCC expander.
- Copyright (C) 1987-2022 Free Software Foundation, Inc.
-
-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/>. */
-
-
-/* Middle-to-low level generation of rtx code and insns.
-
- This file contains support functions for creating rtl expressions
- and manipulating them in the doubly-linked chain of insns.
-
- The patterns of the insns are created by machine-dependent
- routines in insn-emit.c, which is generated automatically from
- the machine description. These routines make the individual rtx's
- of the pattern with `gen_rtx_fmt_ee' and others in genrtl.[ch],
- which are automatically generated from rtl.def; what is machine
- dependent is the kind of rtx's they make and what arguments they
- use. */
-
-#include "config.h"
-#include "system.h"
-#include "coretypes.h"
-#include "memmodel.h"
-#include "backend.h"
-#include "target.h"
-#include "rtl.h"
-#include "tree.h"
-#include "df.h"
-#include "tm_p.h"
-#include "stringpool.h"
-#include "insn-config.h"
-#include "regs.h"
-#include "emit-rtl.h"
-#include "recog.h"
-#include "diagnostic-core.h"
-#include "alias.h"
-#include "fold-const.h"
-#include "varasm.h"
-#include "cfgrtl.h"
-#include "tree-eh.h"
-#include "explow.h"
-#include "expr.h"
-#include "builtins.h"
-#include "rtl-iter.h"
-#include "stor-layout.h"
-#include "opts.h"
-#include "predict.h"
-#include "rtx-vector-builder.h"
-#include "gimple.h"
-#include "gimple-ssa.h"
-#include "gimplify.h"
-
-struct target_rtl default_target_rtl;
-#if SWITCHABLE_TARGET
-struct target_rtl *this_target_rtl = &default_target_rtl;
-#endif
-
-#define initial_regno_reg_rtx (this_target_rtl->x_initial_regno_reg_rtx)
-
-/* Commonly used modes. */
-
-scalar_int_mode byte_mode; /* Mode whose width is BITS_PER_UNIT. */
-scalar_int_mode word_mode; /* Mode whose width is BITS_PER_WORD. */
-scalar_int_mode ptr_mode; /* Mode whose width is POINTER_SIZE. */
-
-/* Datastructures maintained for currently processed function in RTL form. */
-
-struct rtl_data x_rtl;
-
-/* Indexed by pseudo register number, gives the rtx for that pseudo.
- Allocated in parallel with regno_pointer_align.
- FIXME: We could put it into emit_status struct, but gengtype is not able to deal
- with length attribute nested in top level structures. */
-
-rtx * regno_reg_rtx;
-
-/* This is *not* reset after each function. It gives each CODE_LABEL
- in the entire compilation a unique label number. */
-
-static GTY(()) int label_num = 1;
-
-/* We record floating-point CONST_DOUBLEs in each floating-point mode for
- the values of 0, 1, and 2. For the integer entries and VOIDmode, we
- record a copy of const[012]_rtx and constm1_rtx. CONSTM1_RTX
- is set only for MODE_INT and MODE_VECTOR_INT modes. */
-
-rtx const_tiny_rtx[4][(int) MAX_MACHINE_MODE];
-
-rtx const_true_rtx;
-
-REAL_VALUE_TYPE dconst0;
-REAL_VALUE_TYPE dconst1;
-REAL_VALUE_TYPE dconst2;
-REAL_VALUE_TYPE dconstm1;
-REAL_VALUE_TYPE dconsthalf;
-
-/* Record fixed-point constant 0 and 1. */
-FIXED_VALUE_TYPE fconst0[MAX_FCONST0];
-FIXED_VALUE_TYPE fconst1[MAX_FCONST1];
-
-/* We make one copy of (const_int C) where C is in
- [- MAX_SAVED_CONST_INT, MAX_SAVED_CONST_INT]
- to save space during the compilation and simplify comparisons of
- integers. */
-
-rtx const_int_rtx[MAX_SAVED_CONST_INT * 2 + 1];
-
-/* Standard pieces of rtx, to be substituted directly into things. */
-rtx pc_rtx;
-rtx ret_rtx;
-rtx simple_return_rtx;
-
-/* Marker used for denoting an INSN, which should never be accessed (i.e.,
- this pointer should normally never be dereferenced), but is required to be
- distinct from NULL_RTX. Currently used by peephole2 pass. */
-rtx_insn *invalid_insn_rtx;
-
-/* A hash table storing CONST_INTs whose absolute value is greater
- than MAX_SAVED_CONST_INT. */
-
-struct const_int_hasher : ggc_cache_ptr_hash<rtx_def>
-{
- typedef HOST_WIDE_INT compare_type;
-
- static hashval_t hash (rtx i);
- static bool equal (rtx i, HOST_WIDE_INT h);
-};
-
-static GTY ((cache)) hash_table<const_int_hasher> *const_int_htab;
-
-struct const_wide_int_hasher : ggc_cache_ptr_hash<rtx_def>
-{
- static hashval_t hash (rtx x);
- static bool equal (rtx x, rtx y);
-};
-
-static GTY ((cache)) hash_table<const_wide_int_hasher> *const_wide_int_htab;
-
-struct const_poly_int_hasher : ggc_cache_ptr_hash<rtx_def>
-{
- typedef std::pair<machine_mode, poly_wide_int_ref> compare_type;
-
- static hashval_t hash (rtx x);
- static bool equal (rtx x, const compare_type &y);
-};
-
-static GTY ((cache)) hash_table<const_poly_int_hasher> *const_poly_int_htab;
-
-/* A hash table storing register attribute structures. */
-struct reg_attr_hasher : ggc_cache_ptr_hash<reg_attrs>
-{
- static hashval_t hash (reg_attrs *x);
- static bool equal (reg_attrs *a, reg_attrs *b);
-};
-
-static GTY ((cache)) hash_table<reg_attr_hasher> *reg_attrs_htab;
-
-/* A hash table storing all CONST_DOUBLEs. */
-struct const_double_hasher : ggc_cache_ptr_hash<rtx_def>
-{
- static hashval_t hash (rtx x);
- static bool equal (rtx x, rtx y);
-};
-
-static GTY ((cache)) hash_table<const_double_hasher> *const_double_htab;
-
-/* A hash table storing all CONST_FIXEDs. */
-struct const_fixed_hasher : ggc_cache_ptr_hash<rtx_def>
-{
- static hashval_t hash (rtx x);
- static bool equal (rtx x, rtx y);
-};
-
-static GTY ((cache)) hash_table<const_fixed_hasher> *const_fixed_htab;
-
-#define cur_insn_uid (crtl->emit.x_cur_insn_uid)
-#define cur_debug_insn_uid (crtl->emit.x_cur_debug_insn_uid)
-#define first_label_num (crtl->emit.x_first_label_num)
-
-static void set_used_decls (tree);
-static void mark_label_nuses (rtx);
-#if TARGET_SUPPORTS_WIDE_INT
-static rtx lookup_const_wide_int (rtx);
-#endif
-static rtx lookup_const_double (rtx);
-static rtx lookup_const_fixed (rtx);
-static rtx gen_const_vector (machine_mode, int);
-static void copy_rtx_if_shared_1 (rtx *orig);
-
-/* Probability of the conditional branch currently proceeded by try_split. */
-profile_probability split_branch_probability;
-
-/* Returns a hash code for X (which is a really a CONST_INT). */
-
-hashval_t
-const_int_hasher::hash (rtx x)
-{
- return (hashval_t) INTVAL (x);
-}
-
-/* Returns nonzero if the value represented by X (which is really a
- CONST_INT) is the same as that given by Y (which is really a
- HOST_WIDE_INT *). */
-
-bool
-const_int_hasher::equal (rtx x, HOST_WIDE_INT y)
-{
- return (INTVAL (x) == y);
-}
-
-#if TARGET_SUPPORTS_WIDE_INT
-/* Returns a hash code for X (which is a really a CONST_WIDE_INT). */
-
-hashval_t
-const_wide_int_hasher::hash (rtx x)
-{
- int i;
- unsigned HOST_WIDE_INT hash = 0;
- const_rtx xr = x;
-
- for (i = 0; i < CONST_WIDE_INT_NUNITS (xr); i++)
- hash += CONST_WIDE_INT_ELT (xr, i);
-
- return (hashval_t) hash;
-}
-
-/* Returns nonzero if the value represented by X (which is really a
- CONST_WIDE_INT) is the same as that given by Y (which is really a
- CONST_WIDE_INT). */
-
-bool
-const_wide_int_hasher::equal (rtx x, rtx y)
-{
- int i;
- const_rtx xr = x;
- const_rtx yr = y;
- if (CONST_WIDE_INT_NUNITS (xr) != CONST_WIDE_INT_NUNITS (yr))
- return false;
-
- for (i = 0; i < CONST_WIDE_INT_NUNITS (xr); i++)
- if (CONST_WIDE_INT_ELT (xr, i) != CONST_WIDE_INT_ELT (yr, i))
- return false;
-
- return true;
-}
-#endif
-
-/* Returns a hash code for CONST_POLY_INT X. */
-
-hashval_t
-const_poly_int_hasher::hash (rtx x)
-{
- inchash::hash h;
- h.add_int (GET_MODE (x));
- for (unsigned int i = 0; i < NUM_POLY_INT_COEFFS; ++i)
- h.add_wide_int (CONST_POLY_INT_COEFFS (x)[i]);
- return h.end ();
-}
-
-/* Returns nonzero if CONST_POLY_INT X is an rtx representation of Y. */
-
-bool
-const_poly_int_hasher::equal (rtx x, const compare_type &y)
-{
- if (GET_MODE (x) != y.first)
- return false;
- for (unsigned int i = 0; i < NUM_POLY_INT_COEFFS; ++i)
- if (CONST_POLY_INT_COEFFS (x)[i] != y.second.coeffs[i])
- return false;
- return true;
-}
-
-/* Returns a hash code for X (which is really a CONST_DOUBLE). */
-hashval_t
-const_double_hasher::hash (rtx x)
-{
- const_rtx const value = x;
- hashval_t h;
-
- if (TARGET_SUPPORTS_WIDE_INT == 0 && GET_MODE (value) == VOIDmode)
- h = CONST_DOUBLE_LOW (value) ^ CONST_DOUBLE_HIGH (value);
- else
- {
- h = real_hash (CONST_DOUBLE_REAL_VALUE (value));
- /* MODE is used in the comparison, so it should be in the hash. */
- h ^= GET_MODE (value);
- }
- return h;
-}
-
-/* Returns nonzero if the value represented by X (really a ...)
- is the same as that represented by Y (really a ...) */
-bool
-const_double_hasher::equal (rtx x, rtx y)
-{
- const_rtx const a = x, b = y;
-
- if (GET_MODE (a) != GET_MODE (b))
- return 0;
- if (TARGET_SUPPORTS_WIDE_INT == 0 && GET_MODE (a) == VOIDmode)
- return (CONST_DOUBLE_LOW (a) == CONST_DOUBLE_LOW (b)
- && CONST_DOUBLE_HIGH (a) == CONST_DOUBLE_HIGH (b));
- else
- return real_identical (CONST_DOUBLE_REAL_VALUE (a),
- CONST_DOUBLE_REAL_VALUE (b));
-}
-
-/* Returns a hash code for X (which is really a CONST_FIXED). */
-
-hashval_t
-const_fixed_hasher::hash (rtx x)
-{
- const_rtx const value = x;
- hashval_t h;
-
- h = fixed_hash (CONST_FIXED_VALUE (value));
- /* MODE is used in the comparison, so it should be in the hash. */
- h ^= GET_MODE (value);
- return h;
-}
-
-/* Returns nonzero if the value represented by X is the same as that
- represented by Y. */
-
-bool
-const_fixed_hasher::equal (rtx x, rtx y)
-{
- const_rtx const a = x, b = y;
-
- if (GET_MODE (a) != GET_MODE (b))
- return 0;
- return fixed_identical (CONST_FIXED_VALUE (a), CONST_FIXED_VALUE (b));
-}
-
-/* Return true if the given memory attributes are equal. */
-
-bool
-mem_attrs_eq_p (const class mem_attrs *p, const class mem_attrs *q)
-{
- if (p == q)
- return true;
- if (!p || !q)
- return false;
- return (p->alias == q->alias
- && p->offset_known_p == q->offset_known_p
- && (!p->offset_known_p || known_eq (p->offset, q->offset))
- && p->size_known_p == q->size_known_p
- && (!p->size_known_p || known_eq (p->size, q->size))
- && p->align == q->align
- && p->addrspace == q->addrspace
- && (p->expr == q->expr
- || (p->expr != NULL_TREE && q->expr != NULL_TREE
- && operand_equal_p (p->expr, q->expr, 0))));
-}
-
-/* Set MEM's memory attributes so that they are the same as ATTRS. */
-
-static void
-set_mem_attrs (rtx mem, mem_attrs *attrs)
-{
- /* If everything is the default, we can just clear the attributes. */
- if (mem_attrs_eq_p (attrs, mode_mem_attrs[(int) GET_MODE (mem)]))
- {
- MEM_ATTRS (mem) = 0;
- return;
- }
-
- if (!MEM_ATTRS (mem)
- || !mem_attrs_eq_p (attrs, MEM_ATTRS (mem)))
- {
- MEM_ATTRS (mem) = ggc_alloc<mem_attrs> ();
- memcpy (MEM_ATTRS (mem), attrs, sizeof (mem_attrs));
- }
-}
-
-/* Returns a hash code for X (which is a really a reg_attrs *). */
-
-hashval_t
-reg_attr_hasher::hash (reg_attrs *x)
-{
- const reg_attrs *const p = x;
-
- inchash::hash h;
- h.add_ptr (p->decl);
- h.add_poly_hwi (p->offset);
- return h.end ();
-}
-
-/* Returns nonzero if the value represented by X is the same as that given by
- Y. */
-
-bool
-reg_attr_hasher::equal (reg_attrs *x, reg_attrs *y)
-{
- const reg_attrs *const p = x;
- const reg_attrs *const q = y;
-
- return (p->decl == q->decl && known_eq (p->offset, q->offset));
-}
-/* Allocate a new reg_attrs structure and insert it into the hash table if
- one identical to it is not already in the table. We are doing this for
- MEM of mode MODE. */
-
-static reg_attrs *
-get_reg_attrs (tree decl, poly_int64 offset)
-{
- reg_attrs attrs;
-
- /* If everything is the default, we can just return zero. */
- if (decl == 0 && known_eq (offset, 0))
- return 0;
-
- attrs.decl = decl;
- attrs.offset = offset;
-
- reg_attrs **slot = reg_attrs_htab->find_slot (&attrs, INSERT);
- if (*slot == 0)
- {
- *slot = ggc_alloc<reg_attrs> ();
- memcpy (*slot, &attrs, sizeof (reg_attrs));
- }
-
- return *slot;
-}
-
-
-#if !HAVE_blockage
-/* Generate an empty ASM_INPUT, which is used to block attempts to schedule,
- and to block register equivalences to be seen across this insn. */
-
-rtx
-gen_blockage (void)
-{
- rtx x = gen_rtx_ASM_INPUT (VOIDmode, "");
- MEM_VOLATILE_P (x) = true;
- return x;
-}
-#endif
-
-
-/* Set the mode and register number of X to MODE and REGNO. */
-
-void
-set_mode_and_regno (rtx x, machine_mode mode, unsigned int regno)
-{
- unsigned int nregs = (HARD_REGISTER_NUM_P (regno)
- ? hard_regno_nregs (regno, mode)
- : 1);
- PUT_MODE_RAW (x, mode);
- set_regno_raw (x, regno, nregs);
-}
-
-/* Initialize a fresh REG rtx with mode MODE and register REGNO. */
-
-rtx
-init_raw_REG (rtx x, machine_mode mode, unsigned int regno)
-{
- set_mode_and_regno (x, mode, regno);
- REG_ATTRS (x) = NULL;
- ORIGINAL_REGNO (x) = regno;
- return x;
-}
-
-/* Generate a new REG rtx. Make sure ORIGINAL_REGNO is set properly, and
- don't attempt to share with the various global pieces of rtl (such as
- frame_pointer_rtx). */
-
-rtx
-gen_raw_REG (machine_mode mode, unsigned int regno)
-{
- rtx x = rtx_alloc (REG MEM_STAT_INFO);
- init_raw_REG (x, mode, regno);
- return x;
-}
-
-/* There are some RTL codes that require special attention; the generation
- functions do the raw handling. If you add to this list, modify
- special_rtx in gengenrtl.c as well. */
-
-rtx_expr_list *
-gen_rtx_EXPR_LIST (machine_mode mode, rtx expr, rtx expr_list)
-{
- return as_a <rtx_expr_list *> (gen_rtx_fmt_ee (EXPR_LIST, mode, expr,
- expr_list));
-}
-
-rtx_insn_list *
-gen_rtx_INSN_LIST (machine_mode mode, rtx insn, rtx insn_list)
-{
- return as_a <rtx_insn_list *> (gen_rtx_fmt_ue (INSN_LIST, mode, insn,
- insn_list));
-}
-
-rtx_insn *
-gen_rtx_INSN (machine_mode mode, rtx_insn *prev_insn, rtx_insn *next_insn,
- basic_block bb, rtx pattern, int location, int code,
- rtx reg_notes)
-{
- return as_a <rtx_insn *> (gen_rtx_fmt_uuBeiie (INSN, mode,
- prev_insn, next_insn,
- bb, pattern, location, code,
- reg_notes));
-}
-
-rtx
-gen_rtx_CONST_INT (machine_mode mode ATTRIBUTE_UNUSED, HOST_WIDE_INT arg)
-{
- if (arg >= - MAX_SAVED_CONST_INT && arg <= MAX_SAVED_CONST_INT)
- return const_int_rtx[arg + MAX_SAVED_CONST_INT];
-
-#if STORE_FLAG_VALUE != 1 && STORE_FLAG_VALUE != -1
- if (const_true_rtx && arg == STORE_FLAG_VALUE)
- return const_true_rtx;
-#endif
-
- /* Look up the CONST_INT in the hash table. */
- rtx *slot = const_int_htab->find_slot_with_hash (arg, (hashval_t) arg,
- INSERT);
- if (*slot == 0)
- *slot = gen_rtx_raw_CONST_INT (VOIDmode, arg);
-
- return *slot;
-}
-
-rtx
-gen_int_mode (poly_int64 c, machine_mode mode)
-{
- c = trunc_int_for_mode (c, mode);
- if (c.is_constant ())
- return GEN_INT (c.coeffs[0]);
- unsigned int prec = GET_MODE_PRECISION (as_a <scalar_mode> (mode));
- return immed_wide_int_const (poly_wide_int::from (c, prec, SIGNED), mode);
-}
-
-/* CONST_DOUBLEs might be created from pairs of integers, or from
- REAL_VALUE_TYPEs. Also, their length is known only at run time,
- so we cannot use gen_rtx_raw_CONST_DOUBLE. */
-
-/* Determine whether REAL, a CONST_DOUBLE, already exists in the
- hash table. If so, return its counterpart; otherwise add it
- to the hash table and return it. */
-static rtx
-lookup_const_double (rtx real)
-{
- rtx *slot = const_double_htab->find_slot (real, INSERT);
- if (*slot == 0)
- *slot = real;
-
- return *slot;
-}
-
-/* Return a CONST_DOUBLE rtx for a floating-point value specified by
- VALUE in mode MODE. */
-rtx
-const_double_from_real_value (REAL_VALUE_TYPE value, machine_mode mode)
-{
- rtx real = rtx_alloc (CONST_DOUBLE);
- PUT_MODE (real, mode);
-
- real->u.rv = value;
-
- return lookup_const_double (real);
-}
-
-/* Determine whether FIXED, a CONST_FIXED, already exists in the
- hash table. If so, return its counterpart; otherwise add it
- to the hash table and return it. */
-
-static rtx
-lookup_const_fixed (rtx fixed)
-{
- rtx *slot = const_fixed_htab->find_slot (fixed, INSERT);
- if (*slot == 0)
- *slot = fixed;
-
- return *slot;
-}
-
-/* Return a CONST_FIXED rtx for a fixed-point value specified by
- VALUE in mode MODE. */
-
-rtx
-const_fixed_from_fixed_value (FIXED_VALUE_TYPE value, machine_mode mode)
-{
- rtx fixed = rtx_alloc (CONST_FIXED);
- PUT_MODE (fixed, mode);
-
- fixed->u.fv = value;
-
- return lookup_const_fixed (fixed);
-}
-
-#if TARGET_SUPPORTS_WIDE_INT == 0
-/* Constructs double_int from rtx CST. */
-
-double_int
-rtx_to_double_int (const_rtx cst)
-{
- double_int r;
-
- if (CONST_INT_P (cst))
- r = double_int::from_shwi (INTVAL (cst));
- else if (CONST_DOUBLE_AS_INT_P (cst))
- {
- r.low = CONST_DOUBLE_LOW (cst);
- r.high = CONST_DOUBLE_HIGH (cst);
- }
- else
- gcc_unreachable ();
-
- return r;
-}
-#endif
-
-#if TARGET_SUPPORTS_WIDE_INT
-/* Determine whether CONST_WIDE_INT WINT already exists in the hash table.
- If so, return its counterpart; otherwise add it to the hash table and
- return it. */
-
-static rtx
-lookup_const_wide_int (rtx wint)
-{
- rtx *slot = const_wide_int_htab->find_slot (wint, INSERT);
- if (*slot == 0)
- *slot = wint;
-
- return *slot;
-}
-#endif
-
-/* Return an rtx constant for V, given that the constant has mode MODE.
- The returned rtx will be a CONST_INT if V fits, otherwise it will be
- a CONST_DOUBLE (if !TARGET_SUPPORTS_WIDE_INT) or a CONST_WIDE_INT
- (if TARGET_SUPPORTS_WIDE_INT). */
-
-static rtx
-immed_wide_int_const_1 (const wide_int_ref &v, machine_mode mode)
-{
- unsigned int len = v.get_len ();
- /* Not scalar_int_mode because we also allow pointer bound modes. */
- unsigned int prec = GET_MODE_PRECISION (as_a <scalar_mode> (mode));
-
- /* Allow truncation but not extension since we do not know if the
- number is signed or unsigned. */
- gcc_assert (prec <= v.get_precision ());
-
- if (len < 2 || prec <= HOST_BITS_PER_WIDE_INT)
- return gen_int_mode (v.elt (0), mode);
-
-#if TARGET_SUPPORTS_WIDE_INT
- {
- unsigned int i;
- rtx value;
- unsigned int blocks_needed
- = (prec + HOST_BITS_PER_WIDE_INT - 1) / HOST_BITS_PER_WIDE_INT;
-
- if (len > blocks_needed)
- len = blocks_needed;
-
- value = const_wide_int_alloc (len);
-
- /* It is so tempting to just put the mode in here. Must control
- myself ... */
- PUT_MODE (value, VOIDmode);
- CWI_PUT_NUM_ELEM (value, len);
-
- for (i = 0; i < len; i++)
- CONST_WIDE_INT_ELT (value, i) = v.elt (i);
-
- return lookup_const_wide_int (value);
- }
-#else
- return immed_double_const (v.elt (0), v.elt (1), mode);
-#endif
-}
-
-#if TARGET_SUPPORTS_WIDE_INT == 0
-/* Return a CONST_DOUBLE or CONST_INT for a value specified as a pair
- of ints: I0 is the low-order word and I1 is the high-order word.
- For values that are larger than HOST_BITS_PER_DOUBLE_INT, the
- implied upper bits are copies of the high bit of i1. The value
- itself is neither signed nor unsigned. Do not use this routine for
- non-integer modes; convert to REAL_VALUE_TYPE and use
- const_double_from_real_value. */
-
-rtx
-immed_double_const (HOST_WIDE_INT i0, HOST_WIDE_INT i1, machine_mode mode)
-{
- rtx value;
- unsigned int i;
-
- /* There are the following cases (note that there are no modes with
- HOST_BITS_PER_WIDE_INT < GET_MODE_BITSIZE (mode) < HOST_BITS_PER_DOUBLE_INT):
-
- 1) If GET_MODE_BITSIZE (mode) <= HOST_BITS_PER_WIDE_INT, then we use
- gen_int_mode.
- 2) If the value of the integer fits into HOST_WIDE_INT anyway
- (i.e., i1 consists only from copies of the sign bit, and sign
- of i0 and i1 are the same), then we return a CONST_INT for i0.
- 3) Otherwise, we create a CONST_DOUBLE for i0 and i1. */
- scalar_mode smode;
- if (is_a <scalar_mode> (mode, &smode)
- && GET_MODE_BITSIZE (smode) <= HOST_BITS_PER_WIDE_INT)
- return gen_int_mode (i0, mode);
-
- /* If this integer fits in one word, return a CONST_INT. */
- if ((i1 == 0 && i0 >= 0) || (i1 == ~0 && i0 < 0))
- return GEN_INT (i0);
-
- /* We use VOIDmode for integers. */
- value = rtx_alloc (CONST_DOUBLE);
- PUT_MODE (value, VOIDmode);
-
- CONST_DOUBLE_LOW (value) = i0;
- CONST_DOUBLE_HIGH (value) = i1;
-
- for (i = 2; i < (sizeof CONST_DOUBLE_FORMAT - 1); i++)
- XWINT (value, i) = 0;
-
- return lookup_const_double (value);
-}
-#endif
-
-/* Return an rtx representation of C in mode MODE. */
-
-rtx
-immed_wide_int_const (const poly_wide_int_ref &c, machine_mode mode)
-{
- if (c.is_constant ())
- return immed_wide_int_const_1 (c.coeffs[0], mode);
-
- /* Not scalar_int_mode because we also allow pointer bound modes. */
- unsigned int prec = GET_MODE_PRECISION (as_a <scalar_mode> (mode));
-
- /* Allow truncation but not extension since we do not know if the
- number is signed or unsigned. */
- gcc_assert (prec <= c.coeffs[0].get_precision ());
- poly_wide_int newc = poly_wide_int::from (c, prec, SIGNED);
-
- /* See whether we already have an rtx for this constant. */
- inchash::hash h;
- h.add_int (mode);
- for (unsigned int i = 0; i < NUM_POLY_INT_COEFFS; ++i)
- h.add_wide_int (newc.coeffs[i]);
- const_poly_int_hasher::compare_type typed_value (mode, newc);
- rtx *slot = const_poly_int_htab->find_slot_with_hash (typed_value,
- h.end (), INSERT);
- rtx x = *slot;
- if (x)
- return x;
-
- /* Create a new rtx. There's a choice to be made here between installing
- the actual mode of the rtx or leaving it as VOIDmode (for consistency
- with CONST_INT). In practice the handling of the codes is different
- enough that we get no benefit from using VOIDmode, and various places
- assume that VOIDmode implies CONST_INT. Using the real mode seems like
- the right long-term direction anyway. */
- typedef trailing_wide_ints<NUM_POLY_INT_COEFFS> twi;
- size_t extra_size = twi::extra_size (prec);
- x = rtx_alloc_v (CONST_POLY_INT,
- sizeof (struct const_poly_int_def) + extra_size);
- PUT_MODE (x, mode);
- CONST_POLY_INT_COEFFS (x).set_precision (prec);
- for (unsigned int i = 0; i < NUM_POLY_INT_COEFFS; ++i)
- CONST_POLY_INT_COEFFS (x)[i] = newc.coeffs[i];
-
- *slot = x;
- return x;
-}
-
-rtx
-gen_rtx_REG (machine_mode mode, unsigned int regno)
-{
- /* In case the MD file explicitly references the frame pointer, have
- all such references point to the same frame pointer. This is
- used during frame pointer elimination to distinguish the explicit
- references to these registers from pseudos that happened to be
- assigned to them.
-
- If we have eliminated the frame pointer or arg pointer, we will
- be using it as a normal register, for example as a spill
- register. In such cases, we might be accessing it in a mode that
- is not Pmode and therefore cannot use the pre-allocated rtx.
-
- Also don't do this when we are making new REGs in reload, since
- we don't want to get confused with the real pointers. */
-
- if (mode == Pmode && !reload_in_progress && !lra_in_progress)
- {
- if (regno == FRAME_POINTER_REGNUM
- && (!reload_completed || frame_pointer_needed))
- return frame_pointer_rtx;
-
- if (!HARD_FRAME_POINTER_IS_FRAME_POINTER
- && regno == HARD_FRAME_POINTER_REGNUM
- && (!reload_completed || frame_pointer_needed))
- return hard_frame_pointer_rtx;
-#if !HARD_FRAME_POINTER_IS_ARG_POINTER
- if (FRAME_POINTER_REGNUM != ARG_POINTER_REGNUM
- && regno == ARG_POINTER_REGNUM)
- return arg_pointer_rtx;
-#endif
-#ifdef RETURN_ADDRESS_POINTER_REGNUM
- if (regno == RETURN_ADDRESS_POINTER_REGNUM)
- return return_address_pointer_rtx;
-#endif
- if (regno == (unsigned) PIC_OFFSET_TABLE_REGNUM
- && PIC_OFFSET_TABLE_REGNUM != INVALID_REGNUM
- && fixed_regs[PIC_OFFSET_TABLE_REGNUM])
- return pic_offset_table_rtx;
- if (regno == STACK_POINTER_REGNUM)
- return stack_pointer_rtx;
- }
-
-#if 0
- /* If the per-function register table has been set up, try to re-use
- an existing entry in that table to avoid useless generation of RTL.
-
- This code is disabled for now until we can fix the various backends
- which depend on having non-shared hard registers in some cases. Long
- term we want to re-enable this code as it can significantly cut down
- on the amount of useless RTL that gets generated.
-
- We'll also need to fix some code that runs after reload that wants to
- set ORIGINAL_REGNO. */
-
- if (cfun
- && cfun->emit
- && regno_reg_rtx
- && regno < FIRST_PSEUDO_REGISTER
- && reg_raw_mode[regno] == mode)
- return regno_reg_rtx[regno];
-#endif
-
- return gen_raw_REG (mode, regno);
-}
-
-rtx
-gen_rtx_MEM (machine_mode mode, rtx addr)
-{
- rtx rt = gen_rtx_raw_MEM (mode, addr);
-
- /* This field is not cleared by the mere allocation of the rtx, so
- we clear it here. */
- MEM_ATTRS (rt) = 0;
-
- return rt;
-}
-
-/* Generate a memory referring to non-trapping constant memory. */
-
-rtx
-gen_const_mem (machine_mode mode, rtx addr)
-{
- rtx mem = gen_rtx_MEM (mode, addr);
- MEM_READONLY_P (mem) = 1;
- MEM_NOTRAP_P (mem) = 1;
- return mem;
-}
-
-/* Generate a MEM referring to fixed portions of the frame, e.g., register
- save areas. */
-
-rtx
-gen_frame_mem (machine_mode mode, rtx addr)
-{
- rtx mem = gen_rtx_MEM (mode, addr);
- MEM_NOTRAP_P (mem) = 1;
- set_mem_alias_set (mem, get_frame_alias_set ());
- return mem;
-}
-
-/* Generate a MEM referring to a temporary use of the stack, not part
- of the fixed stack frame. For example, something which is pushed
- by a target splitter. */
-rtx
-gen_tmp_stack_mem (machine_mode mode, rtx addr)
-{
- rtx mem = gen_rtx_MEM (mode, addr);
- MEM_NOTRAP_P (mem) = 1;
- if (!cfun->calls_alloca)
- set_mem_alias_set (mem, get_frame_alias_set ());
- return mem;
-}
-
-/* We want to create (subreg:OMODE (obj:IMODE) OFFSET). Return true if
- this construct would be valid, and false otherwise. */
-
-bool
-validate_subreg (machine_mode omode, machine_mode imode,
- const_rtx reg, poly_uint64 offset)
-{
- poly_uint64 isize = GET_MODE_SIZE (imode);
- poly_uint64 osize = GET_MODE_SIZE (omode);
-
- /* The sizes must be ordered, so that we know whether the subreg
- is partial, paradoxical or complete. */
- if (!ordered_p (isize, osize))
- return false;
-
- /* All subregs must be aligned. */
- if (!multiple_p (offset, osize))
- return false;
-
- /* The subreg offset cannot be outside the inner object. */
- if (maybe_ge (offset, isize))
- return false;
-
- poly_uint64 regsize = REGMODE_NATURAL_SIZE (imode);
-
- /* ??? This should not be here. Temporarily continue to allow word_mode
- subregs of anything. The most common offender is (subreg:SI (reg:DF)).
- Generally, backends are doing something sketchy but it'll take time to
- fix them all. */
- if (omode == word_mode)
- ;
- /* ??? Similarly, e.g. with (subreg:DF (reg:TI)). Though store_bit_field
- is the culprit here, and not the backends. */
- else if (known_ge (osize, regsize) && known_ge (isize, osize))
- ;
- /* Allow component subregs of complex and vector. Though given the below
- extraction rules, it's not always clear what that means. */
- else if ((COMPLEX_MODE_P (imode) || VECTOR_MODE_P (imode))
- && GET_MODE_INNER (imode) == omode)
- ;
- /* ??? x86 sse code makes heavy use of *paradoxical* vector subregs,
- i.e. (subreg:V4SF (reg:SF) 0) or (subreg:V4SF (reg:V2SF) 0). This
- surely isn't the cleanest way to represent this. It's questionable
- if this ought to be represented at all -- why can't this all be hidden
- in post-reload splitters that make arbitrarily mode changes to the
- registers themselves. */
- else if (VECTOR_MODE_P (omode)
- && GET_MODE_INNER (omode) == GET_MODE_INNER (imode))
- ;
- /* Subregs involving floating point modes are not allowed to
- change size. Therefore (subreg:DI (reg:DF) 0) is fine, but
- (subreg:SI (reg:DF) 0) isn't. */
- else if (FLOAT_MODE_P (imode) || FLOAT_MODE_P (omode))
- {
- if (! (known_eq (isize, osize)
- /* LRA can use subreg to store a floating point value in
- an integer mode. Although the floating point and the
- integer modes need the same number of hard registers,
- the size of floating point mode can be less than the
- integer mode. LRA also uses subregs for a register
- should be used in different mode in on insn. */
- || lra_in_progress))
- return false;
- }
-
- /* Paradoxical subregs must have offset zero. */
- if (maybe_gt (osize, isize))
- return known_eq (offset, 0U);
-
- /* This is a normal subreg. Verify that the offset is representable. */
-
- /* For hard registers, we already have most of these rules collected in
- subreg_offset_representable_p. */
- if (reg && REG_P (reg) && HARD_REGISTER_P (reg))
- {
- unsigned int regno = REGNO (reg);
-
- if ((COMPLEX_MODE_P (imode) || VECTOR_MODE_P (imode))
- && GET_MODE_INNER (imode) == omode)
- ;
- else if (!REG_CAN_CHANGE_MODE_P (regno, imode, omode))
- return false;
-
- return subreg_offset_representable_p (regno, imode, offset, omode);
- }
-
- /* The outer size must be ordered wrt the register size, otherwise
- we wouldn't know at compile time how many registers the outer
- mode occupies. */
- if (!ordered_p (osize, regsize))
- return false;
-
- /* For pseudo registers, we want most of the same checks. Namely:
-
- Assume that the pseudo register will be allocated to hard registers
- that can hold REGSIZE bytes each. If OSIZE is not a multiple of REGSIZE,
- the remainder must correspond to the lowpart of the containing hard
- register. If BYTES_BIG_ENDIAN, the lowpart is at the highest offset,
- otherwise it is at the lowest offset.
-
- Given that we've already checked the mode and offset alignment,
- we only have to check subblock subregs here. */
- if (maybe_lt (osize, regsize)
- && ! (lra_in_progress && (FLOAT_MODE_P (imode) || FLOAT_MODE_P (omode))))
- {
- /* It is invalid for the target to pick a register size for a mode
- that isn't ordered wrt to the size of that mode. */
- poly_uint64 block_size = ordered_min (isize, regsize);
- unsigned int start_reg;
- poly_uint64 offset_within_reg;
- if (!can_div_trunc_p (offset, block_size, &start_reg, &offset_within_reg)
- || (BYTES_BIG_ENDIAN
- ? maybe_ne (offset_within_reg, block_size - osize)
- : maybe_ne (offset_within_reg, 0U)))
- return false;
- }
- return true;
-}
-
-rtx
-gen_rtx_SUBREG (machine_mode mode, rtx reg, poly_uint64 offset)
-{
- gcc_assert (validate_subreg (mode, GET_MODE (reg), reg, offset));
- return gen_rtx_raw_SUBREG (mode, reg, offset);
-}
-
-/* Generate a SUBREG representing the least-significant part of REG if MODE
- is smaller than mode of REG, otherwise paradoxical SUBREG. */
-
-rtx
-gen_lowpart_SUBREG (machine_mode mode, rtx reg)
-{
- machine_mode inmode;
-
- inmode = GET_MODE (reg);
- if (inmode == VOIDmode)
- inmode = mode;
- return gen_rtx_SUBREG (mode, reg,
- subreg_lowpart_offset (mode, inmode));
-}
-
-rtx
-gen_rtx_VAR_LOCATION (machine_mode mode, tree decl, rtx loc,
- enum var_init_status status)
-{
- rtx x = gen_rtx_fmt_te (VAR_LOCATION, mode, decl, loc);
- PAT_VAR_LOCATION_STATUS (x) = status;
- return x;
-}
-
-
-/* Create an rtvec and stores within it the RTXen passed in the arguments. */
-
-rtvec
-gen_rtvec (int n, ...)
-{
- int i;
- rtvec rt_val;
- va_list p;
-
- va_start (p, n);
-
- /* Don't allocate an empty rtvec... */
- if (n == 0)
- {
- va_end (p);
- return NULL_RTVEC;
- }
-
- rt_val = rtvec_alloc (n);
-
- for (i = 0; i < n; i++)
- rt_val->elem[i] = va_arg (p, rtx);
-
- va_end (p);
- return rt_val;
-}
-
-rtvec
-gen_rtvec_v (int n, rtx *argp)
-{
- int i;
- rtvec rt_val;
-
- /* Don't allocate an empty rtvec... */
- if (n == 0)
- return NULL_RTVEC;
-
- rt_val = rtvec_alloc (n);
-
- for (i = 0; i < n; i++)
- rt_val->elem[i] = *argp++;
-
- return rt_val;
-}
-
-rtvec
-gen_rtvec_v (int n, rtx_insn **argp)
-{
- int i;
- rtvec rt_val;
-
- /* Don't allocate an empty rtvec... */
- if (n == 0)
- return NULL_RTVEC;
-
- rt_val = rtvec_alloc (n);
-
- for (i = 0; i < n; i++)
- rt_val->elem[i] = *argp++;
-
- return rt_val;
-}
-
-
-/* Return the number of bytes between the start of an OUTER_MODE
- in-memory value and the start of an INNER_MODE in-memory value,
- given that the former is a lowpart of the latter. It may be a
- paradoxical lowpart, in which case the offset will be negative
- on big-endian targets. */
-
-poly_int64
-byte_lowpart_offset (machine_mode outer_mode,
- machine_mode inner_mode)
-{
- if (paradoxical_subreg_p (outer_mode, inner_mode))
- return -subreg_lowpart_offset (inner_mode, outer_mode);
- else
- return subreg_lowpart_offset (outer_mode, inner_mode);
-}
-
-/* Return the offset of (subreg:OUTER_MODE (mem:INNER_MODE X) OFFSET)
- from address X. For paradoxical big-endian subregs this is a
- negative value, otherwise it's the same as OFFSET. */
-
-poly_int64
-subreg_memory_offset (machine_mode outer_mode, machine_mode inner_mode,
- poly_uint64 offset)
-{
- if (paradoxical_subreg_p (outer_mode, inner_mode))
- {
- gcc_assert (known_eq (offset, 0U));
- return -subreg_lowpart_offset (inner_mode, outer_mode);
- }
- return offset;
-}
-
-/* As above, but return the offset that existing subreg X would have
- if SUBREG_REG (X) were stored in memory. The only significant thing
- about the current SUBREG_REG is its mode. */
-
-poly_int64
-subreg_memory_offset (const_rtx x)
-{
- return subreg_memory_offset (GET_MODE (x), GET_MODE (SUBREG_REG (x)),
- SUBREG_BYTE (x));
-}
-
-/* Generate a REG rtx for a new pseudo register of mode MODE.
- This pseudo is assigned the next sequential register number. */
-
-rtx
-gen_reg_rtx (machine_mode mode)
-{
- rtx val;
- unsigned int align = GET_MODE_ALIGNMENT (mode);
-
- gcc_assert (can_create_pseudo_p ());
-
- /* If a virtual register with bigger mode alignment is generated,
- increase stack alignment estimation because it might be spilled
- to stack later. */
- if (SUPPORTS_STACK_ALIGNMENT
- && crtl->stack_alignment_estimated < align
- && !crtl->stack_realign_processed)
- {
- unsigned int min_align = MINIMUM_ALIGNMENT (NULL, mode, align);
- if (crtl->stack_alignment_estimated < min_align)
- crtl->stack_alignment_estimated = min_align;
- }
-
- if (generating_concat_p
- && (GET_MODE_CLASS (mode) == MODE_COMPLEX_FLOAT
- || GET_MODE_CLASS (mode) == MODE_COMPLEX_INT))
- {
- /* For complex modes, don't make a single pseudo.
- Instead, make a CONCAT of two pseudos.
- This allows noncontiguous allocation of the real and imaginary parts,
- which makes much better code. Besides, allocating DCmode
- pseudos overstrains reload on some machines like the 386. */
- rtx realpart, imagpart;
- machine_mode partmode = GET_MODE_INNER (mode);
-
- realpart = gen_reg_rtx (partmode);
- imagpart = gen_reg_rtx (partmode);
- return gen_rtx_CONCAT (mode, realpart, imagpart);
- }
-
- /* Do not call gen_reg_rtx with uninitialized crtl. */
- gcc_assert (crtl->emit.regno_pointer_align_length);
-
- crtl->emit.ensure_regno_capacity ();
- gcc_assert (reg_rtx_no < crtl->emit.regno_pointer_align_length);
-
- val = gen_raw_REG (mode, reg_rtx_no);
- regno_reg_rtx[reg_rtx_no++] = val;
- return val;
-}
-
-/* Make sure m_regno_pointer_align, and regno_reg_rtx are large
- enough to have elements in the range 0 <= idx <= reg_rtx_no. */
-
-void
-emit_status::ensure_regno_capacity ()
-{
- int old_size = regno_pointer_align_length;
-
- if (reg_rtx_no < old_size)
- return;
-
- int new_size = old_size * 2;
- while (reg_rtx_no >= new_size)
- new_size *= 2;
-
- char *tmp = XRESIZEVEC (char, regno_pointer_align, new_size);
- memset (tmp + old_size, 0, new_size - old_size);
- regno_pointer_align = (unsigned char *) tmp;
-
- rtx *new1 = GGC_RESIZEVEC (rtx, regno_reg_rtx, new_size);
- memset (new1 + old_size, 0, (new_size - old_size) * sizeof (rtx));
- regno_reg_rtx = new1;
-
- crtl->emit.regno_pointer_align_length = new_size;
-}
-
-/* Return TRUE if REG is a PARM_DECL, FALSE otherwise. */
-
-bool
-reg_is_parm_p (rtx reg)
-{
- tree decl;
-
- gcc_assert (REG_P (reg));
- decl = REG_EXPR (reg);
- return (decl && TREE_CODE (decl) == PARM_DECL);
-}
-
-/* Update NEW with the same attributes as REG, but with OFFSET added
- to the REG_OFFSET. */
-
-static void
-update_reg_offset (rtx new_rtx, rtx reg, poly_int64 offset)
-{
- REG_ATTRS (new_rtx) = get_reg_attrs (REG_EXPR (reg),
- REG_OFFSET (reg) + offset);
-}
-
-/* Generate a register with same attributes as REG, but with OFFSET
- added to the REG_OFFSET. */
-
-rtx
-gen_rtx_REG_offset (rtx reg, machine_mode mode, unsigned int regno,
- poly_int64 offset)
-{
- /* Use gen_raw_REG rather than gen_rtx_REG, because otherwise we'd
- overwrite REG_ATTRS (and in the callers often ORIGINAL_REGNO too)
- of the shared REG rtxes like stack_pointer_rtx etc. This should
- happen only for SUBREGs from DEBUG_INSNs, RA should ensure
- multi-word registers don't overlap the special registers like
- stack pointer. */
- rtx new_rtx = gen_raw_REG (mode, regno);
-
- update_reg_offset (new_rtx, reg, offset);
- return new_rtx;
-}
-
-/* Generate a new pseudo-register with the same attributes as REG, but
- with OFFSET added to the REG_OFFSET. */
-
-rtx
-gen_reg_rtx_offset (rtx reg, machine_mode mode, int offset)
-{
- rtx new_rtx = gen_reg_rtx (mode);
-
- update_reg_offset (new_rtx, reg, offset);
- return new_rtx;
-}
-
-/* Adjust REG in-place so that it has mode MODE. It is assumed that the
- new register is a (possibly paradoxical) lowpart of the old one. */
-
-void
-adjust_reg_mode (rtx reg, machine_mode mode)
-{
- update_reg_offset (reg, reg, byte_lowpart_offset (mode, GET_MODE (reg)));
- PUT_MODE (reg, mode);
-}
-
-/* Copy REG's attributes from X, if X has any attributes. If REG and X
- have different modes, REG is a (possibly paradoxical) lowpart of X. */
-
-void
-set_reg_attrs_from_value (rtx reg, rtx x)
-{
- poly_int64 offset;
- bool can_be_reg_pointer = true;
-
- /* Don't call mark_reg_pointer for incompatible pointer sign
- extension. */
- while (GET_CODE (x) == SIGN_EXTEND
- || GET_CODE (x) == ZERO_EXTEND
- || GET_CODE (x) == TRUNCATE
- || (GET_CODE (x) == SUBREG && subreg_lowpart_p (x)))
- {
-#if defined(POINTERS_EXTEND_UNSIGNED)
- if (((GET_CODE (x) == SIGN_EXTEND && POINTERS_EXTEND_UNSIGNED)
- || (GET_CODE (x) == ZERO_EXTEND && ! POINTERS_EXTEND_UNSIGNED)
- || (paradoxical_subreg_p (x)
- && ! (SUBREG_PROMOTED_VAR_P (x)
- && SUBREG_CHECK_PROMOTED_SIGN (x,
- POINTERS_EXTEND_UNSIGNED))))
- && !targetm.have_ptr_extend ())
- can_be_reg_pointer = false;
-#endif
- x = XEXP (x, 0);
- }
-
- /* Hard registers can be reused for multiple purposes within the same
- function, so setting REG_ATTRS, REG_POINTER and REG_POINTER_ALIGN
- on them is wrong. */
- if (HARD_REGISTER_P (reg))
- return;
-
- offset = byte_lowpart_offset (GET_MODE (reg), GET_MODE (x));
- if (MEM_P (x))
- {
- if (MEM_OFFSET_KNOWN_P (x))
- REG_ATTRS (reg) = get_reg_attrs (MEM_EXPR (x),
- MEM_OFFSET (x) + offset);
- if (can_be_reg_pointer && MEM_POINTER (x))
- mark_reg_pointer (reg, 0);
- }
- else if (REG_P (x))
- {
- if (REG_ATTRS (x))
- update_reg_offset (reg, x, offset);
- if (can_be_reg_pointer && REG_POINTER (x))
- mark_reg_pointer (reg, REGNO_POINTER_ALIGN (REGNO (x)));
- }
-}
-
-/* Generate a REG rtx for a new pseudo register, copying the mode
- and attributes from X. */
-
-rtx
-gen_reg_rtx_and_attrs (rtx x)
-{
- rtx reg = gen_reg_rtx (GET_MODE (x));
- set_reg_attrs_from_value (reg, x);
- return reg;
-}
-
-/* Set the register attributes for registers contained in PARM_RTX.
- Use needed values from memory attributes of MEM. */
-
-void
-set_reg_attrs_for_parm (rtx parm_rtx, rtx mem)
-{
- if (REG_P (parm_rtx))
- set_reg_attrs_from_value (parm_rtx, mem);
- else if (GET_CODE (parm_rtx) == PARALLEL)
- {
- /* Check for a NULL entry in the first slot, used to indicate that the
- parameter goes both on the stack and in registers. */
- int i = XEXP (XVECEXP (parm_rtx, 0, 0), 0) ? 0 : 1;
- for (; i < XVECLEN (parm_rtx, 0); i++)
- {
- rtx x = XVECEXP (parm_rtx, 0, i);
- if (REG_P (XEXP (x, 0)))
- REG_ATTRS (XEXP (x, 0))
- = get_reg_attrs (MEM_EXPR (mem),
- INTVAL (XEXP (x, 1)));
- }
- }
-}
-
-/* Set the REG_ATTRS for registers in value X, given that X represents
- decl T. */
-
-void
-set_reg_attrs_for_decl_rtl (tree t, rtx x)
-{
- if (!t)
- return;
- tree tdecl = t;
- if (GET_CODE (x) == SUBREG)
- {
- gcc_assert (subreg_lowpart_p (x));
- x = SUBREG_REG (x);
- }
- if (REG_P (x))
- REG_ATTRS (x)
- = get_reg_attrs (t, byte_lowpart_offset (GET_MODE (x),
- DECL_P (tdecl)
- ? DECL_MODE (tdecl)
- : TYPE_MODE (TREE_TYPE (tdecl))));
- if (GET_CODE (x) == CONCAT)
- {
- if (REG_P (XEXP (x, 0)))
- REG_ATTRS (XEXP (x, 0)) = get_reg_attrs (t, 0);
- if (REG_P (XEXP (x, 1)))
- REG_ATTRS (XEXP (x, 1))
- = get_reg_attrs (t, GET_MODE_UNIT_SIZE (GET_MODE (XEXP (x, 0))));
- }
- if (GET_CODE (x) == PARALLEL)
- {
- int i, start;
-
- /* Check for a NULL entry, used to indicate that the parameter goes
- both on the stack and in registers. */
- if (XEXP (XVECEXP (x, 0, 0), 0))
- start = 0;
- else
- start = 1;
-
- for (i = start; i < XVECLEN (x, 0); i++)
- {
- rtx y = XVECEXP (x, 0, i);
- if (REG_P (XEXP (y, 0)))
- REG_ATTRS (XEXP (y, 0)) = get_reg_attrs (t, INTVAL (XEXP (y, 1)));
- }
- }
-}
-
-/* Assign the RTX X to declaration T. */
-
-void
-set_decl_rtl (tree t, rtx x)
-{
- DECL_WRTL_CHECK (t)->decl_with_rtl.rtl = x;
- if (x)
- set_reg_attrs_for_decl_rtl (t, x);
-}
-
-/* Assign the RTX X to parameter declaration T. BY_REFERENCE_P is true
- if the ABI requires the parameter to be passed by reference. */
-
-void
-set_decl_incoming_rtl (tree t, rtx x, bool by_reference_p)
-{
- DECL_INCOMING_RTL (t) = x;
- if (x && !by_reference_p)
- set_reg_attrs_for_decl_rtl (t, x);
-}
-
-/* Identify REG (which may be a CONCAT) as a user register. */
-
-void
-mark_user_reg (rtx reg)
-{
- if (GET_CODE (reg) == CONCAT)
- {
- REG_USERVAR_P (XEXP (reg, 0)) = 1;
- REG_USERVAR_P (XEXP (reg, 1)) = 1;
- }
- else
- {
- gcc_assert (REG_P (reg));
- REG_USERVAR_P (reg) = 1;
- }
-}
-
-/* Identify REG as a probable pointer register and show its alignment
- as ALIGN, if nonzero. */
-
-void
-mark_reg_pointer (rtx reg, int align)
-{
- if (! REG_POINTER (reg))
- {
- REG_POINTER (reg) = 1;
-
- if (align)
- REGNO_POINTER_ALIGN (REGNO (reg)) = align;
- }
- else if (align && align < REGNO_POINTER_ALIGN (REGNO (reg)))
- /* We can no-longer be sure just how aligned this pointer is. */
- REGNO_POINTER_ALIGN (REGNO (reg)) = align;
-}
-
-/* Return 1 plus largest pseudo reg number used in the current function. */
-
-int
-max_reg_num (void)
-{
- return reg_rtx_no;
-}
-
-/* Return 1 + the largest label number used so far in the current function. */
-
-int
-max_label_num (void)
-{
- return label_num;
-}
-
-/* Return first label number used in this function (if any were used). */
-
-int
-get_first_label_num (void)
-{
- return first_label_num;
-}
-
-/* If the rtx for label was created during the expansion of a nested
- function, then first_label_num won't include this label number.
- Fix this now so that array indices work later. */
-
-void
-maybe_set_first_label_num (rtx_code_label *x)
-{
- if (CODE_LABEL_NUMBER (x) < first_label_num)
- first_label_num = CODE_LABEL_NUMBER (x);
-}
-
-/* For use by the RTL function loader, when mingling with normal
- functions.
- Ensure that label_num is greater than the label num of X, to avoid
- duplicate labels in the generated assembler. */
-
-void
-maybe_set_max_label_num (rtx_code_label *x)
-{
- if (CODE_LABEL_NUMBER (x) >= label_num)
- label_num = CODE_LABEL_NUMBER (x) + 1;
-}
-
-
-/* Return a value representing some low-order bits of X, where the number
- of low-order bits is given by MODE. Note that no conversion is done
- between floating-point and fixed-point values, rather, the bit
- representation is returned.
-
- This function handles the cases in common between gen_lowpart, below,
- and two variants in cse.c and combine.c. These are the cases that can
- be safely handled at all points in the compilation.
-
- If this is not a case we can handle, return 0. */
-
-rtx
-gen_lowpart_common (machine_mode mode, rtx x)
-{
- poly_uint64 msize = GET_MODE_SIZE (mode);
- machine_mode innermode;
-
- /* Unfortunately, this routine doesn't take a parameter for the mode of X,
- so we have to make one up. Yuk. */
- innermode = GET_MODE (x);
- if (CONST_INT_P (x)
- && known_le (msize * BITS_PER_UNIT,
- (unsigned HOST_WIDE_INT) HOST_BITS_PER_WIDE_INT))
- innermode = int_mode_for_size (HOST_BITS_PER_WIDE_INT, 0).require ();
- else if (innermode == VOIDmode)
- innermode = int_mode_for_size (HOST_BITS_PER_DOUBLE_INT, 0).require ();
-
- gcc_assert (innermode != VOIDmode && innermode != BLKmode);
-
- if (innermode == mode)
- return x;
-
- /* The size of the outer and inner modes must be ordered. */
- poly_uint64 xsize = GET_MODE_SIZE (innermode);
- if (!ordered_p (msize, xsize))
- return 0;
-
- if (SCALAR_FLOAT_MODE_P (mode))
- {
- /* Don't allow paradoxical FLOAT_MODE subregs. */
- if (maybe_gt (msize, xsize))
- return 0;
- }
- else
- {
- /* MODE must occupy no more of the underlying registers than X. */
- poly_uint64 regsize = REGMODE_NATURAL_SIZE (innermode);
- unsigned int mregs, xregs;
- if (!can_div_away_from_zero_p (msize, regsize, &mregs)
- || !can_div_away_from_zero_p (xsize, regsize, &xregs)
- || mregs > xregs)
- return 0;
- }
-
- scalar_int_mode int_mode, int_innermode, from_mode;
- if ((GET_CODE (x) == ZERO_EXTEND || GET_CODE (x) == SIGN_EXTEND)
- && is_a <scalar_int_mode> (mode, &int_mode)
- && is_a <scalar_int_mode> (innermode, &int_innermode)
- && is_a <scalar_int_mode> (GET_MODE (XEXP (x, 0)), &from_mode))
- {
- /* If we are getting the low-order part of something that has been
- sign- or zero-extended, we can either just use the object being
- extended or make a narrower extension. If we want an even smaller
- piece than the size of the object being extended, call ourselves
- recursively.
-
- This case is used mostly by combine and cse. */
-
- if (from_mode == int_mode)
- return XEXP (x, 0);
- else if (GET_MODE_SIZE (int_mode) < GET_MODE_SIZE (from_mode))
- return gen_lowpart_common (int_mode, XEXP (x, 0));
- else if (GET_MODE_SIZE (int_mode) < GET_MODE_SIZE (int_innermode))
- return gen_rtx_fmt_e (GET_CODE (x), int_mode, XEXP (x, 0));
- }
- else if (GET_CODE (x) == SUBREG || REG_P (x)
- || GET_CODE (x) == CONCAT || GET_CODE (x) == CONST_VECTOR
- || CONST_DOUBLE_AS_FLOAT_P (x) || CONST_SCALAR_INT_P (x)
- || CONST_POLY_INT_P (x))
- return lowpart_subreg (mode, x, innermode);
-
- /* Otherwise, we can't do this. */
- return 0;
-}
-
-rtx
-gen_highpart (machine_mode mode, rtx x)
-{
- poly_uint64 msize = GET_MODE_SIZE (mode);
- rtx result;
-
- /* This case loses if X is a subreg. To catch bugs early,
- complain if an invalid MODE is used even in other cases. */
- gcc_assert (known_le (msize, (unsigned int) UNITS_PER_WORD)
- || known_eq (msize, GET_MODE_UNIT_SIZE (GET_MODE (x))));
-
- /* gen_lowpart_common handles a lot of special cases due to needing to handle
- paradoxical subregs; it only calls simplify_gen_subreg when certain that
- it will produce something meaningful. The only case we need to handle
- specially here is MEM. */
- if (MEM_P (x))
- {
- poly_int64 offset = subreg_highpart_offset (mode, GET_MODE (x));
- return adjust_address (x, mode, offset);
- }
-
- result = simplify_gen_subreg (mode, x, GET_MODE (x),
- subreg_highpart_offset (mode, GET_MODE (x)));
- /* Since we handle MEM directly above, we should never get a MEM back
- from simplify_gen_subreg. */
- gcc_assert (result && !MEM_P (result));
-
- return result;
-}
-
-/* Like gen_highpart, but accept mode of EXP operand in case EXP can
- be VOIDmode constant. */
-rtx
-gen_highpart_mode (machine_mode outermode, machine_mode innermode, rtx exp)
-{
- if (GET_MODE (exp) != VOIDmode)
- {
- gcc_assert (GET_MODE (exp) == innermode);
- return gen_highpart (outermode, exp);
- }
- return simplify_gen_subreg (outermode, exp, innermode,
- subreg_highpart_offset (outermode, innermode));
-}
-
-/* Return the SUBREG_BYTE for a lowpart subreg whose outer mode has
- OUTER_BYTES bytes and whose inner mode has INNER_BYTES bytes. */
-
-poly_uint64
-subreg_size_lowpart_offset (poly_uint64 outer_bytes, poly_uint64 inner_bytes)
-{
- gcc_checking_assert (ordered_p (outer_bytes, inner_bytes));
- if (maybe_gt (outer_bytes, inner_bytes))
- /* Paradoxical subregs always have a SUBREG_BYTE of 0. */
- return 0;
-
- if (BYTES_BIG_ENDIAN && WORDS_BIG_ENDIAN)
- return inner_bytes - outer_bytes;
- else if (!BYTES_BIG_ENDIAN && !WORDS_BIG_ENDIAN)
- return 0;
- else
- return subreg_size_offset_from_lsb (outer_bytes, inner_bytes, 0);
-}
-
-/* Return the SUBREG_BYTE for a highpart subreg whose outer mode has
- OUTER_BYTES bytes and whose inner mode has INNER_BYTES bytes. */
-
-poly_uint64
-subreg_size_highpart_offset (poly_uint64 outer_bytes, poly_uint64 inner_bytes)
-{
- gcc_assert (known_ge (inner_bytes, outer_bytes));
-
- if (BYTES_BIG_ENDIAN && WORDS_BIG_ENDIAN)
- return 0;
- else if (!BYTES_BIG_ENDIAN && !WORDS_BIG_ENDIAN)
- return inner_bytes - outer_bytes;
- else
- return subreg_size_offset_from_lsb (outer_bytes, inner_bytes,
- (inner_bytes - outer_bytes)
- * BITS_PER_UNIT);
-}
-
-/* Return 1 iff X, assumed to be a SUBREG,
- refers to the least significant part of its containing reg.
- If X is not a SUBREG, always return 1 (it is its own low part!). */
-
-int
-subreg_lowpart_p (const_rtx x)
-{
- if (GET_CODE (x) != SUBREG)
- return 1;
- else if (GET_MODE (SUBREG_REG (x)) == VOIDmode)
- return 0;
-
- return known_eq (subreg_lowpart_offset (GET_MODE (x),
- GET_MODE (SUBREG_REG (x))),
- SUBREG_BYTE (x));
-}
-
-/* Return subword OFFSET of operand OP.
- The word number, OFFSET, is interpreted as the word number starting
- at the low-order address. OFFSET 0 is the low-order word if not
- WORDS_BIG_ENDIAN, otherwise it is the high-order word.
-
- If we cannot extract the required word, we return zero. Otherwise,
- an rtx corresponding to the requested word will be returned.
-
- VALIDATE_ADDRESS is nonzero if the address should be validated. Before
- reload has completed, a valid address will always be returned. After
- reload, if a valid address cannot be returned, we return zero.
-
- If VALIDATE_ADDRESS is zero, we simply form the required address; validating
- it is the responsibility of the caller.
-
- MODE is the mode of OP in case it is a CONST_INT.
-
- ??? This is still rather broken for some cases. The problem for the
- moment is that all callers of this thing provide no 'goal mode' to
- tell us to work with. This exists because all callers were written
- in a word based SUBREG world.
- Now use of this function can be deprecated by simplify_subreg in most
- cases.
- */
-
-rtx
-operand_subword (rtx op, poly_uint64 offset, int validate_address,
- machine_mode mode)
-{
- if (mode == VOIDmode)
- mode = GET_MODE (op);
-
- gcc_assert (mode != VOIDmode);
-
- /* If OP is narrower than a word, fail. */
- if (mode != BLKmode
- && maybe_lt (GET_MODE_SIZE (mode), UNITS_PER_WORD))
- return 0;
-
- /* If we want a word outside OP, return zero. */
- if (mode != BLKmode
- && maybe_gt ((offset + 1) * UNITS_PER_WORD, GET_MODE_SIZE (mode)))
- return const0_rtx;
-
- /* Form a new MEM at the requested address. */
- if (MEM_P (op))
- {
- rtx new_rtx = adjust_address_nv (op, word_mode, offset * UNITS_PER_WORD);
-
- if (! validate_address)
- return new_rtx;
-
- else if (reload_completed)
- {
- if (! strict_memory_address_addr_space_p (word_mode,
- XEXP (new_rtx, 0),
- MEM_ADDR_SPACE (op)))
- return 0;
- }
- else
- return replace_equiv_address (new_rtx, XEXP (new_rtx, 0));
- }
-
- /* Rest can be handled by simplify_subreg. */
- return simplify_gen_subreg (word_mode, op, mode, (offset * UNITS_PER_WORD));
-}
-
-/* Similar to `operand_subword', but never return 0. If we can't
- extract the required subword, put OP into a register and try again.
- The second attempt must succeed. We always validate the address in
- this case.
-
- MODE is the mode of OP, in case it is CONST_INT. */
-
-rtx
-operand_subword_force (rtx op, poly_uint64 offset, machine_mode mode)
-{
- rtx result = operand_subword (op, offset, 1, mode);
-
- if (result)
- return result;
-
- if (mode != BLKmode && mode != VOIDmode)
- {
- /* If this is a register which cannot be accessed by words, copy it
- to a pseudo register. */
- if (REG_P (op))
- op = copy_to_reg (op);
- else
- op = force_reg (mode, op);
- }
-
- result = operand_subword (op, offset, 1, mode);
- gcc_assert (result);
-
- return result;
-}
-
-mem_attrs::mem_attrs ()
- : expr (NULL_TREE),
- offset (0),
- size (0),
- alias (0),
- align (0),
- addrspace (ADDR_SPACE_GENERIC),
- offset_known_p (false),
- size_known_p (false)
-{}
-
-/* Returns 1 if both MEM_EXPR can be considered equal
- and 0 otherwise. */
-
-int
-mem_expr_equal_p (const_tree expr1, const_tree expr2)
-{
- if (expr1 == expr2)
- return 1;
-
- if (! expr1 || ! expr2)
- return 0;
-
- if (TREE_CODE (expr1) != TREE_CODE (expr2))
- return 0;
-
- return operand_equal_p (expr1, expr2, 0);
-}
-
-/* Return OFFSET if XEXP (MEM, 0) - OFFSET is known to be ALIGN
- bits aligned for 0 <= OFFSET < ALIGN / BITS_PER_UNIT, or
- -1 if not known. */
-
-int
-get_mem_align_offset (rtx mem, unsigned int align)
-{
- tree expr;
- poly_uint64 offset;
-
- /* This function can't use
- if (!MEM_EXPR (mem) || !MEM_OFFSET_KNOWN_P (mem)
- || (MAX (MEM_ALIGN (mem),
- MAX (align, get_object_alignment (MEM_EXPR (mem))))
- < align))
- return -1;
- else
- return (- MEM_OFFSET (mem)) & (align / BITS_PER_UNIT - 1);
- for two reasons:
- - COMPONENT_REFs in MEM_EXPR can have NULL first operand,
- for <variable>. get_inner_reference doesn't handle it and
- even if it did, the alignment in that case needs to be determined
- from DECL_FIELD_CONTEXT's TYPE_ALIGN.
- - it would do suboptimal job for COMPONENT_REFs, even if MEM_EXPR
- isn't sufficiently aligned, the object it is in might be. */
- gcc_assert (MEM_P (mem));
- expr = MEM_EXPR (mem);
- if (expr == NULL_TREE || !MEM_OFFSET_KNOWN_P (mem))
- return -1;
-
- offset = MEM_OFFSET (mem);
- if (DECL_P (expr))
- {
- if (DECL_ALIGN (expr) < align)
- return -1;
- }
- else if (INDIRECT_REF_P (expr))
- {
- if (TYPE_ALIGN (TREE_TYPE (expr)) < (unsigned int) align)
- return -1;
- }
- else if (TREE_CODE (expr) == COMPONENT_REF)
- {
- while (1)
- {
- tree inner = TREE_OPERAND (expr, 0);
- tree field = TREE_OPERAND (expr, 1);
- tree byte_offset = component_ref_field_offset (expr);
- tree bit_offset = DECL_FIELD_BIT_OFFSET (field);
-
- poly_uint64 suboffset;
- if (!byte_offset
- || !poly_int_tree_p (byte_offset, &suboffset)
- || !tree_fits_uhwi_p (bit_offset))
- return -1;
-
- offset += suboffset;
- offset += tree_to_uhwi (bit_offset) / BITS_PER_UNIT;
-
- if (inner == NULL_TREE)
- {
- if (TYPE_ALIGN (DECL_FIELD_CONTEXT (field))
- < (unsigned int) align)
- return -1;
- break;
- }
- else if (DECL_P (inner))
- {
- if (DECL_ALIGN (inner) < align)
- return -1;
- break;
- }
- else if (TREE_CODE (inner) != COMPONENT_REF)
- return -1;
- expr = inner;
- }
- }
- else
- return -1;
-
- HOST_WIDE_INT misalign;
- if (!known_misalignment (offset, align / BITS_PER_UNIT, &misalign))
- return -1;
- return misalign;
-}
-
-/* Given REF (a MEM) and T, either the type of X or the expression
- corresponding to REF, set the memory attributes. OBJECTP is nonzero
- if we are making a new object of this type. BITPOS is nonzero if
- there is an offset outstanding on T that will be applied later. */
-
-void
-set_mem_attributes_minus_bitpos (rtx ref, tree t, int objectp,
- poly_int64 bitpos)
-{
- poly_int64 apply_bitpos = 0;
- tree type;
- class mem_attrs attrs, *defattrs, *refattrs;
- addr_space_t as;
-
- /* It can happen that type_for_mode was given a mode for which there
- is no language-level type. In which case it returns NULL, which
- we can see here. */
- if (t == NULL_TREE)
- return;
-
- type = TYPE_P (t) ? t : TREE_TYPE (t);
- if (type == error_mark_node)
- return;
-
- /* If we have already set DECL_RTL = ref, get_alias_set will get the
- wrong answer, as it assumes that DECL_RTL already has the right alias
- info. Callers should not set DECL_RTL until after the call to
- set_mem_attributes. */
- gcc_assert (!DECL_P (t) || ref != DECL_RTL_IF_SET (t));
-
- /* Get the alias set from the expression or type (perhaps using a
- front-end routine) and use it. */
- attrs.alias = get_alias_set (t);
-
- MEM_VOLATILE_P (ref) |= TYPE_VOLATILE (type);
- MEM_POINTER (ref) = POINTER_TYPE_P (type);
-
- /* Default values from pre-existing memory attributes if present. */
- refattrs = MEM_ATTRS (ref);
- if (refattrs)
- {
- /* ??? Can this ever happen? Calling this routine on a MEM that
- already carries memory attributes should probably be invalid. */
- attrs.expr = refattrs->expr;
- attrs.offset_known_p = refattrs->offset_known_p;
- attrs.offset = refattrs->offset;
- attrs.size_known_p = refattrs->size_known_p;
- attrs.size = refattrs->size;
- attrs.align = refattrs->align;
- }
-
- /* Otherwise, default values from the mode of the MEM reference. */
- else
- {
- defattrs = mode_mem_attrs[(int) GET_MODE (ref)];
- gcc_assert (!defattrs->expr);
- gcc_assert (!defattrs->offset_known_p);
-
- /* Respect mode size. */
- attrs.size_known_p = defattrs->size_known_p;
- attrs.size = defattrs->size;
- /* ??? Is this really necessary? We probably should always get
- the size from the type below. */
-
- /* Respect mode alignment for STRICT_ALIGNMENT targets if T is a type;
- if T is an object, always compute the object alignment below. */
- if (TYPE_P (t))
- attrs.align = defattrs->align;
- else
- attrs.align = BITS_PER_UNIT;
- /* ??? If T is a type, respecting mode alignment may *also* be wrong
- e.g. if the type carries an alignment attribute. Should we be
- able to simply always use TYPE_ALIGN? */
- }
-
- /* We can set the alignment from the type if we are making an object or if
- this is an INDIRECT_REF. */
- if (objectp || TREE_CODE (t) == INDIRECT_REF)
- attrs.align = MAX (attrs.align, TYPE_ALIGN (type));
-
- /* If the size is known, we can set that. */
- tree new_size = TYPE_SIZE_UNIT (type);
-
- /* The address-space is that of the type. */
- as = TYPE_ADDR_SPACE (type);
-
- /* If T is not a type, we may be able to deduce some more information about
- the expression. */
- if (! TYPE_P (t))
- {
- tree base;
-
- if (TREE_THIS_VOLATILE (t))
- MEM_VOLATILE_P (ref) = 1;
-
- /* Now remove any conversions: they don't change what the underlying
- object is. Likewise for SAVE_EXPR. */
- while (CONVERT_EXPR_P (t)
- || TREE_CODE (t) == VIEW_CONVERT_EXPR
- || TREE_CODE (t) == SAVE_EXPR)
- t = TREE_OPERAND (t, 0);
-
- /* Note whether this expression can trap. */
- MEM_NOTRAP_P (ref) = !tree_could_trap_p (t);
-
- base = get_base_address (t);
- if (base)
- {
- if (DECL_P (base)
- && TREE_READONLY (base)
- && (TREE_STATIC (base) || DECL_EXTERNAL (base))
- && !TREE_THIS_VOLATILE (base))
- MEM_READONLY_P (ref) = 1;
-
- /* Mark static const strings readonly as well. */
- if (TREE_CODE (base) == STRING_CST
- && TREE_READONLY (base)
- && TREE_STATIC (base))
- MEM_READONLY_P (ref) = 1;
-
- /* Address-space information is on the base object. */
- if (TREE_CODE (base) == MEM_REF
- || TREE_CODE (base) == TARGET_MEM_REF)
- as = TYPE_ADDR_SPACE (TREE_TYPE (TREE_TYPE (TREE_OPERAND (base,
- 0))));
- else
- as = TYPE_ADDR_SPACE (TREE_TYPE (base));
- }
-
- /* If this expression uses it's parent's alias set, mark it such
- that we won't change it. */
- if (component_uses_parent_alias_set_from (t) != NULL_TREE)
- MEM_KEEP_ALIAS_SET_P (ref) = 1;
-
- /* If this is a decl, set the attributes of the MEM from it. */
- if (DECL_P (t))
- {
- attrs.expr = t;
- attrs.offset_known_p = true;
- attrs.offset = 0;
- apply_bitpos = bitpos;
- new_size = DECL_SIZE_UNIT (t);
- }
-
- /* ??? If we end up with a constant or a descriptor do not
- record a MEM_EXPR. */
- else if (CONSTANT_CLASS_P (t)
- || TREE_CODE (t) == CONSTRUCTOR)
- ;
-
- /* If this is a field reference, record it. */
- else if (TREE_CODE (t) == COMPONENT_REF)
- {
- attrs.expr = t;
- attrs.offset_known_p = true;
- attrs.offset = 0;
- apply_bitpos = bitpos;
- if (DECL_BIT_FIELD (TREE_OPERAND (t, 1)))
- new_size = DECL_SIZE_UNIT (TREE_OPERAND (t, 1));
- }
-
- /* Else record it. */
- else
- {
- gcc_assert (handled_component_p (t)
- || TREE_CODE (t) == MEM_REF
- || TREE_CODE (t) == TARGET_MEM_REF);
- attrs.expr = t;
- attrs.offset_known_p = true;
- attrs.offset = 0;
- apply_bitpos = bitpos;
- }
-
- /* If this is a reference based on a partitioned decl replace the
- base with a MEM_REF of the pointer representative we created
- during stack slot partitioning. */
- if (attrs.expr
- && VAR_P (base)
- && ! is_global_var (base)
- && cfun->gimple_df->decls_to_pointers != NULL)
- {
- tree *namep = cfun->gimple_df->decls_to_pointers->get (base);
- if (namep)
- {
- attrs.expr = unshare_expr (attrs.expr);
- tree *orig_base = &attrs.expr;
- while (handled_component_p (*orig_base))
- orig_base = &TREE_OPERAND (*orig_base, 0);
- tree aptrt = reference_alias_ptr_type (*orig_base);
- *orig_base = build2 (MEM_REF, TREE_TYPE (*orig_base), *namep,
- build_int_cst (aptrt, 0));
- }
- }
-
- /* Compute the alignment. */
- unsigned int obj_align;
- unsigned HOST_WIDE_INT obj_bitpos;
- get_object_alignment_1 (t, &obj_align, &obj_bitpos);
- unsigned int diff_align = known_alignment (obj_bitpos - bitpos);
- if (diff_align != 0)
- obj_align = MIN (obj_align, diff_align);
- attrs.align = MAX (attrs.align, obj_align);
- }
-
- poly_uint64 const_size;
- if (poly_int_tree_p (new_size, &const_size))
- {
- attrs.size_known_p = true;
- attrs.size = const_size;
- }
-
- /* If we modified OFFSET based on T, then subtract the outstanding
- bit position offset. Similarly, increase the size of the accessed
- object to contain the negative offset. */
- if (maybe_ne (apply_bitpos, 0))
- {
- gcc_assert (attrs.offset_known_p);
- poly_int64 bytepos = bits_to_bytes_round_down (apply_bitpos);
- attrs.offset -= bytepos;
- if (attrs.size_known_p)
- attrs.size += bytepos;
- }
-
- /* Now set the attributes we computed above. */
- attrs.addrspace = as;
- set_mem_attrs (ref, &attrs);
-}
-
-void
-set_mem_attributes (rtx ref, tree t, int objectp)
-{
- set_mem_attributes_minus_bitpos (ref, t, objectp, 0);
-}
-
-/* Set the alias set of MEM to SET. */
-
-void
-set_mem_alias_set (rtx mem, alias_set_type set)
-{
- /* If the new and old alias sets don't conflict, something is wrong. */
- gcc_checking_assert (alias_sets_conflict_p (set, MEM_ALIAS_SET (mem)));
- mem_attrs attrs (*get_mem_attrs (mem));
- attrs.alias = set;
- set_mem_attrs (mem, &attrs);
-}
-
-/* Set the address space of MEM to ADDRSPACE (target-defined). */
-
-void
-set_mem_addr_space (rtx mem, addr_space_t addrspace)
-{
- mem_attrs attrs (*get_mem_attrs (mem));
- attrs.addrspace = addrspace;
- set_mem_attrs (mem, &attrs);
-}
-
-/* Set the alignment of MEM to ALIGN bits. */
-
-void
-set_mem_align (rtx mem, unsigned int align)
-{
- mem_attrs attrs (*get_mem_attrs (mem));
- attrs.align = align;
- set_mem_attrs (mem, &attrs);
-}
-
-/* Set the expr for MEM to EXPR. */
-
-void
-set_mem_expr (rtx mem, tree expr)
-{
- mem_attrs attrs (*get_mem_attrs (mem));
- attrs.expr = expr;
- set_mem_attrs (mem, &attrs);
-}
-
-/* Set the offset of MEM to OFFSET. */
-
-void
-set_mem_offset (rtx mem, poly_int64 offset)
-{
- mem_attrs attrs (*get_mem_attrs (mem));
- attrs.offset_known_p = true;
- attrs.offset = offset;
- set_mem_attrs (mem, &attrs);
-}
-
-/* Clear the offset of MEM. */
-
-void
-clear_mem_offset (rtx mem)
-{
- mem_attrs attrs (*get_mem_attrs (mem));
- attrs.offset_known_p = false;
- set_mem_attrs (mem, &attrs);
-}
-
-/* Set the size of MEM to SIZE. */
-
-void
-set_mem_size (rtx mem, poly_int64 size)
-{
- mem_attrs attrs (*get_mem_attrs (mem));
- attrs.size_known_p = true;
- attrs.size = size;
- set_mem_attrs (mem, &attrs);
-}
-
-/* Clear the size of MEM. */
-
-void
-clear_mem_size (rtx mem)
-{
- mem_attrs attrs (*get_mem_attrs (mem));
- attrs.size_known_p = false;
- set_mem_attrs (mem, &attrs);
-}
-
-/* Return a memory reference like MEMREF, but with its mode changed to MODE
- and its address changed to ADDR. (VOIDmode means don't change the mode.
- NULL for ADDR means don't change the address.) VALIDATE is nonzero if the
- returned memory location is required to be valid. INPLACE is true if any
- changes can be made directly to MEMREF or false if MEMREF must be treated
- as immutable.
-
- The memory attributes are not changed. */
-
-static rtx
-change_address_1 (rtx memref, machine_mode mode, rtx addr, int validate,
- bool inplace)
-{
- addr_space_t as;
- rtx new_rtx;
-
- gcc_assert (MEM_P (memref));
- as = MEM_ADDR_SPACE (memref);
- if (mode == VOIDmode)
- mode = GET_MODE (memref);
- if (addr == 0)
- addr = XEXP (memref, 0);
- if (mode == GET_MODE (memref) && addr == XEXP (memref, 0)
- && (!validate || memory_address_addr_space_p (mode, addr, as)))
- return memref;
-
- /* Don't validate address for LRA. LRA can make the address valid
- by itself in most efficient way. */
- if (validate && !lra_in_progress)
- {
- if (reload_in_progress || reload_completed)
- gcc_assert (memory_address_addr_space_p (mode, addr, as));
- else
- addr = memory_address_addr_space (mode, addr, as);
- }
-
- if (rtx_equal_p (addr, XEXP (memref, 0)) && mode == GET_MODE (memref))
- return memref;
-
- if (inplace)
- {
- XEXP (memref, 0) = addr;
- return memref;
- }
-
- new_rtx = gen_rtx_MEM (mode, addr);
- MEM_COPY_ATTRIBUTES (new_rtx, memref);
- return new_rtx;
-}
-
-/* Like change_address_1 with VALIDATE nonzero, but we are not saying in what
- way we are changing MEMREF, so we only preserve the alias set. */
-
-rtx
-change_address (rtx memref, machine_mode mode, rtx addr)
-{
- rtx new_rtx = change_address_1 (memref, mode, addr, 1, false);
- machine_mode mmode = GET_MODE (new_rtx);
- class mem_attrs *defattrs;
-
- mem_attrs attrs (*get_mem_attrs (memref));
- defattrs = mode_mem_attrs[(int) mmode];
- attrs.expr = NULL_TREE;
- attrs.offset_known_p = false;
- attrs.size_known_p = defattrs->size_known_p;
- attrs.size = defattrs->size;
- attrs.align = defattrs->align;
-
- /* If there are no changes, just return the original memory reference. */
- if (new_rtx == memref)
- {
- if (mem_attrs_eq_p (get_mem_attrs (memref), &attrs))
- return new_rtx;
-
- new_rtx = gen_rtx_MEM (mmode, XEXP (memref, 0));
- MEM_COPY_ATTRIBUTES (new_rtx, memref);
- }
-
- set_mem_attrs (new_rtx, &attrs);
- return new_rtx;
-}
-
-/* Return a memory reference like MEMREF, but with its mode changed
- to MODE and its address offset by OFFSET bytes. If VALIDATE is
- nonzero, the memory address is forced to be valid.
- If ADJUST_ADDRESS is zero, OFFSET is only used to update MEM_ATTRS
- and the caller is responsible for adjusting MEMREF base register.
- If ADJUST_OBJECT is zero, the underlying object associated with the
- memory reference is left unchanged and the caller is responsible for
- dealing with it. Otherwise, if the new memory reference is outside
- the underlying object, even partially, then the object is dropped.
- SIZE, if nonzero, is the size of an access in cases where MODE
- has no inherent size. */
-
-rtx
-adjust_address_1 (rtx memref, machine_mode mode, poly_int64 offset,
- int validate, int adjust_address, int adjust_object,
- poly_int64 size)
-{
- rtx addr = XEXP (memref, 0);
- rtx new_rtx;
- scalar_int_mode address_mode;
- class mem_attrs attrs (*get_mem_attrs (memref)), *defattrs;
- unsigned HOST_WIDE_INT max_align;
-#ifdef POINTERS_EXTEND_UNSIGNED
- scalar_int_mode pointer_mode
- = targetm.addr_space.pointer_mode (attrs.addrspace);
-#endif
-
- /* VOIDmode means no mode change for change_address_1. */
- if (mode == VOIDmode)
- mode = GET_MODE (memref);
-
- /* Take the size of non-BLKmode accesses from the mode. */
- defattrs = mode_mem_attrs[(int) mode];
- if (defattrs->size_known_p)
- size = defattrs->size;
-
- /* If there are no changes, just return the original memory reference. */
- if (mode == GET_MODE (memref)
- && known_eq (offset, 0)
- && (known_eq (size, 0)
- || (attrs.size_known_p && known_eq (attrs.size, size)))
- && (!validate || memory_address_addr_space_p (mode, addr,
- attrs.addrspace)))
- return memref;
-
- /* ??? Prefer to create garbage instead of creating shared rtl.
- This may happen even if offset is nonzero -- consider
- (plus (plus reg reg) const_int) -- so do this always. */
- addr = copy_rtx (addr);
-
- /* Convert a possibly large offset to a signed value within the
- range of the target address space. */
- address_mode = get_address_mode (memref);
- offset = trunc_int_for_mode (offset, address_mode);
-
- if (adjust_address)
- {
- /* If MEMREF is a LO_SUM and the offset is within the alignment of the
- object, we can merge it into the LO_SUM. */
- if (GET_MODE (memref) != BLKmode
- && GET_CODE (addr) == LO_SUM
- && known_in_range_p (offset,
- 0, (GET_MODE_ALIGNMENT (GET_MODE (memref))
- / BITS_PER_UNIT)))
- addr = gen_rtx_LO_SUM (address_mode, XEXP (addr, 0),
- plus_constant (address_mode,
- XEXP (addr, 1), offset));
-#ifdef POINTERS_EXTEND_UNSIGNED
- /* If MEMREF is a ZERO_EXTEND from pointer_mode and the offset is valid
- in that mode, we merge it into the ZERO_EXTEND. We take advantage of
- the fact that pointers are not allowed to overflow. */
- else if (POINTERS_EXTEND_UNSIGNED > 0
- && GET_CODE (addr) == ZERO_EXTEND
- && GET_MODE (XEXP (addr, 0)) == pointer_mode
- && known_eq (trunc_int_for_mode (offset, pointer_mode), offset))
- addr = gen_rtx_ZERO_EXTEND (address_mode,
- plus_constant (pointer_mode,
- XEXP (addr, 0), offset));
-#endif
- else
- addr = plus_constant (address_mode, addr, offset);
- }
-
- new_rtx = change_address_1 (memref, mode, addr, validate, false);
-
- /* If the address is a REG, change_address_1 rightfully returns memref,
- but this would destroy memref's MEM_ATTRS. */
- if (new_rtx == memref && maybe_ne (offset, 0))
- new_rtx = copy_rtx (new_rtx);
-
- /* Conservatively drop the object if we don't know where we start from. */
- if (adjust_object && (!attrs.offset_known_p || !attrs.size_known_p))
- {
- attrs.expr = NULL_TREE;
- attrs.alias = 0;
- }
-
- /* Compute the new values of the memory attributes due to this adjustment.
- We add the offsets and update the alignment. */
- if (attrs.offset_known_p)
- {
- attrs.offset += offset;
-
- /* Drop the object if the new left end is not within its bounds. */
- if (adjust_object && maybe_lt (attrs.offset, 0))
- {
- attrs.expr = NULL_TREE;
- attrs.alias = 0;
- }
- }
-
- /* Compute the new alignment by taking the MIN of the alignment and the
- lowest-order set bit in OFFSET, but don't change the alignment if OFFSET
- if zero. */
- if (maybe_ne (offset, 0))
- {
- max_align = known_alignment (offset) * BITS_PER_UNIT;
- attrs.align = MIN (attrs.align, max_align);
- }
-
- if (maybe_ne (size, 0))
- {
- /* Drop the object if the new right end is not within its bounds. */
- if (adjust_object && maybe_gt (offset + size, attrs.size))
- {
- attrs.expr = NULL_TREE;
- attrs.alias = 0;
- }
- attrs.size_known_p = true;
- attrs.size = size;
- }
- else if (attrs.size_known_p)
- {
- gcc_assert (!adjust_object);
- attrs.size -= offset;
- /* ??? The store_by_pieces machinery generates negative sizes,
- so don't assert for that here. */
- }
-
- set_mem_attrs (new_rtx, &attrs);
-
- return new_rtx;
-}
-
-/* Return a memory reference like MEMREF, but with its mode changed
- to MODE and its address changed to ADDR, which is assumed to be
- MEMREF offset by OFFSET bytes. If VALIDATE is
- nonzero, the memory address is forced to be valid. */
-
-rtx
-adjust_automodify_address_1 (rtx memref, machine_mode mode, rtx addr,
- poly_int64 offset, int validate)
-{
- memref = change_address_1 (memref, VOIDmode, addr, validate, false);
- return adjust_address_1 (memref, mode, offset, validate, 0, 0, 0);
-}
-
-/* Return a memory reference like MEMREF, but whose address is changed by
- adding OFFSET, an RTX, to it. POW2 is the highest power of two factor
- known to be in OFFSET (possibly 1). */
-
-rtx
-offset_address (rtx memref, rtx offset, unsigned HOST_WIDE_INT pow2)
-{
- rtx new_rtx, addr = XEXP (memref, 0);
- machine_mode address_mode;
- class mem_attrs *defattrs;
-
- mem_attrs attrs (*get_mem_attrs (memref));
- address_mode = get_address_mode (memref);
- new_rtx = simplify_gen_binary (PLUS, address_mode, addr, offset);
-
- /* At this point we don't know _why_ the address is invalid. It
- could have secondary memory references, multiplies or anything.
-
- However, if we did go and rearrange things, we can wind up not
- being able to recognize the magic around pic_offset_table_rtx.
- This stuff is fragile, and is yet another example of why it is
- bad to expose PIC machinery too early. */
- if (! memory_address_addr_space_p (GET_MODE (memref), new_rtx,
- attrs.addrspace)
- && GET_CODE (addr) == PLUS
- && XEXP (addr, 0) == pic_offset_table_rtx)
- {
- addr = force_reg (GET_MODE (addr), addr);
- new_rtx = simplify_gen_binary (PLUS, address_mode, addr, offset);
- }
-
- update_temp_slot_address (XEXP (memref, 0), new_rtx);
- new_rtx = change_address_1 (memref, VOIDmode, new_rtx, 1, false);
-
- /* If there are no changes, just return the original memory reference. */
- if (new_rtx == memref)
- return new_rtx;
-
- /* Update the alignment to reflect the offset. Reset the offset, which
- we don't know. */
- defattrs = mode_mem_attrs[(int) GET_MODE (new_rtx)];
- attrs.offset_known_p = false;
- attrs.size_known_p = defattrs->size_known_p;
- attrs.size = defattrs->size;
- attrs.align = MIN (attrs.align, pow2 * BITS_PER_UNIT);
- set_mem_attrs (new_rtx, &attrs);
- return new_rtx;
-}
-
-/* Return a memory reference like MEMREF, but with its address changed to
- ADDR. The caller is asserting that the actual piece of memory pointed
- to is the same, just the form of the address is being changed, such as
- by putting something into a register. INPLACE is true if any changes
- can be made directly to MEMREF or false if MEMREF must be treated as
- immutable. */
-
-rtx
-replace_equiv_address (rtx memref, rtx addr, bool inplace)
-{
- /* change_address_1 copies the memory attribute structure without change
- and that's exactly what we want here. */
- update_temp_slot_address (XEXP (memref, 0), addr);
- return change_address_1 (memref, VOIDmode, addr, 1, inplace);
-}
-
-/* Likewise, but the reference is not required to be valid. */
-
-rtx
-replace_equiv_address_nv (rtx memref, rtx addr, bool inplace)
-{
- return change_address_1 (memref, VOIDmode, addr, 0, inplace);
-}
-
-/* Return a memory reference like MEMREF, but with its mode widened to
- MODE and offset by OFFSET. This would be used by targets that e.g.
- cannot issue QImode memory operations and have to use SImode memory
- operations plus masking logic. */
-
-rtx
-widen_memory_access (rtx memref, machine_mode mode, poly_int64 offset)
-{
- rtx new_rtx = adjust_address_1 (memref, mode, offset, 1, 1, 0, 0);
- poly_uint64 size = GET_MODE_SIZE (mode);
-
- /* If there are no changes, just return the original memory reference. */
- if (new_rtx == memref)
- return new_rtx;
-
- mem_attrs attrs (*get_mem_attrs (new_rtx));
-
- /* If we don't know what offset we were at within the expression, then
- we can't know if we've overstepped the bounds. */
- if (! attrs.offset_known_p)
- attrs.expr = NULL_TREE;
-
- while (attrs.expr)
- {
- if (TREE_CODE (attrs.expr) == COMPONENT_REF)
- {
- tree field = TREE_OPERAND (attrs.expr, 1);
- tree offset = component_ref_field_offset (attrs.expr);
-
- if (! DECL_SIZE_UNIT (field))
- {
- attrs.expr = NULL_TREE;
- break;
- }
-
- /* Is the field at least as large as the access? If so, ok,
- otherwise strip back to the containing structure. */
- if (poly_int_tree_p (DECL_SIZE_UNIT (field))
- && known_ge (wi::to_poly_offset (DECL_SIZE_UNIT (field)), size)
- && known_ge (attrs.offset, 0))
- break;
-
- poly_uint64 suboffset;
- if (!poly_int_tree_p (offset, &suboffset))
- {
- attrs.expr = NULL_TREE;
- break;
- }
-
- attrs.expr = TREE_OPERAND (attrs.expr, 0);
- attrs.offset += suboffset;
- attrs.offset += (tree_to_uhwi (DECL_FIELD_BIT_OFFSET (field))
- / BITS_PER_UNIT);
- }
- /* Similarly for the decl. */
- else if (DECL_P (attrs.expr)
- && DECL_SIZE_UNIT (attrs.expr)
- && poly_int_tree_p (DECL_SIZE_UNIT (attrs.expr))
- && known_ge (wi::to_poly_offset (DECL_SIZE_UNIT (attrs.expr)),
- size)
- && known_ge (attrs.offset, 0))
- break;
- else
- {
- /* The widened memory access overflows the expression, which means
- that it could alias another expression. Zap it. */
- attrs.expr = NULL_TREE;
- break;
- }
- }
-
- if (! attrs.expr)
- attrs.offset_known_p = false;
-
- /* The widened memory may alias other stuff, so zap the alias set. */
- /* ??? Maybe use get_alias_set on any remaining expression. */
- attrs.alias = 0;
- attrs.size_known_p = true;
- attrs.size = size;
- set_mem_attrs (new_rtx, &attrs);
- return new_rtx;
-}
-
-/* A fake decl that is used as the MEM_EXPR of spill slots. */
-static GTY(()) tree spill_slot_decl;
-
-tree
-get_spill_slot_decl (bool force_build_p)
-{
- tree d = spill_slot_decl;
- rtx rd;
-
- if (d || !force_build_p)
- return d;
-
- d = build_decl (DECL_SOURCE_LOCATION (current_function_decl),
- VAR_DECL, get_identifier ("%sfp"), void_type_node);
- DECL_ARTIFICIAL (d) = 1;
- DECL_IGNORED_P (d) = 1;
- TREE_USED (d) = 1;
- spill_slot_decl = d;
-
- rd = gen_rtx_MEM (BLKmode, frame_pointer_rtx);
- MEM_NOTRAP_P (rd) = 1;
- mem_attrs attrs (*mode_mem_attrs[(int) BLKmode]);
- attrs.alias = new_alias_set ();
- attrs.expr = d;
- set_mem_attrs (rd, &attrs);
- SET_DECL_RTL (d, rd);
-
- return d;
-}
-
-/* Given MEM, a result from assign_stack_local, fill in the memory
- attributes as appropriate for a register allocator spill slot.
- These slots are not aliasable by other memory. We arrange for
- them all to use a single MEM_EXPR, so that the aliasing code can
- work properly in the case of shared spill slots. */
-
-void
-set_mem_attrs_for_spill (rtx mem)
-{
- rtx addr;
-
- mem_attrs attrs (*get_mem_attrs (mem));
- attrs.expr = get_spill_slot_decl (true);
- attrs.alias = MEM_ALIAS_SET (DECL_RTL (attrs.expr));
- attrs.addrspace = ADDR_SPACE_GENERIC;
-
- /* We expect the incoming memory to be of the form:
- (mem:MODE (plus (reg sfp) (const_int offset)))
- with perhaps the plus missing for offset = 0. */
- addr = XEXP (mem, 0);
- attrs.offset_known_p = true;
- strip_offset (addr, &attrs.offset);
-
- set_mem_attrs (mem, &attrs);
- MEM_NOTRAP_P (mem) = 1;
-}
-
-/* Return a newly created CODE_LABEL rtx with a unique label number. */
-
-rtx_code_label *
-gen_label_rtx (void)
-{
- return as_a <rtx_code_label *> (
- gen_rtx_CODE_LABEL (VOIDmode, NULL_RTX, NULL_RTX,
- NULL, label_num++, NULL));
-}
-
-/* For procedure integration. */
-
-/* Install new pointers to the first and last insns in the chain.
- Also, set cur_insn_uid to one higher than the last in use.
- Used for an inline-procedure after copying the insn chain. */
-
-void
-set_new_first_and_last_insn (rtx_insn *first, rtx_insn *last)
-{
- rtx_insn *insn;
-
- set_first_insn (first);
- set_last_insn (last);
- cur_insn_uid = 0;
-
- if (param_min_nondebug_insn_uid || MAY_HAVE_DEBUG_INSNS)
- {
- int debug_count = 0;
-
- cur_insn_uid = param_min_nondebug_insn_uid - 1;
- cur_debug_insn_uid = 0;
-
- for (insn = first; insn; insn = NEXT_INSN (insn))
- if (INSN_UID (insn) < param_min_nondebug_insn_uid)
- cur_debug_insn_uid = MAX (cur_debug_insn_uid, INSN_UID (insn));
- else
- {
- cur_insn_uid = MAX (cur_insn_uid, INSN_UID (insn));
- if (DEBUG_INSN_P (insn))
- debug_count++;
- }
-
- if (debug_count)
- cur_debug_insn_uid = param_min_nondebug_insn_uid + debug_count;
- else
- cur_debug_insn_uid++;
- }
- else
- for (insn = first; insn; insn = NEXT_INSN (insn))
- cur_insn_uid = MAX (cur_insn_uid, INSN_UID (insn));
-
- cur_insn_uid++;
-}
-
-/* Go through all the RTL insn bodies and copy any invalid shared
- structure. This routine should only be called once. */
-
-static void
-unshare_all_rtl_1 (rtx_insn *insn)
-{
- /* Unshare just about everything else. */
- unshare_all_rtl_in_chain (insn);
-
- /* Make sure the addresses of stack slots found outside the insn chain
- (such as, in DECL_RTL of a variable) are not shared
- with the insn chain.
-
- This special care is necessary when the stack slot MEM does not
- actually appear in the insn chain. If it does appear, its address
- is unshared from all else at that point. */
- unsigned int i;
- rtx temp;
- FOR_EACH_VEC_SAFE_ELT (stack_slot_list, i, temp)
- (*stack_slot_list)[i] = copy_rtx_if_shared (temp);
-}
-
-/* Go through all the RTL insn bodies and copy any invalid shared
- structure, again. This is a fairly expensive thing to do so it
- should be done sparingly. */
-
-void
-unshare_all_rtl_again (rtx_insn *insn)
-{
- rtx_insn *p;
- tree decl;
-
- for (p = insn; p; p = NEXT_INSN (p))
- if (INSN_P (p))
- {
- reset_used_flags (PATTERN (p));
- reset_used_flags (REG_NOTES (p));
- if (CALL_P (p))
- reset_used_flags (CALL_INSN_FUNCTION_USAGE (p));
- }
-
- /* Make sure that virtual stack slots are not shared. */
- set_used_decls (DECL_INITIAL (cfun->decl));
-
- /* Make sure that virtual parameters are not shared. */
- for (decl = DECL_ARGUMENTS (cfun->decl); decl; decl = DECL_CHAIN (decl))
- set_used_flags (DECL_RTL (decl));
-
- rtx temp;
- unsigned int i;
- FOR_EACH_VEC_SAFE_ELT (stack_slot_list, i, temp)
- reset_used_flags (temp);
-
- unshare_all_rtl_1 (insn);
-}
-
-unsigned int
-unshare_all_rtl (void)
-{
- unshare_all_rtl_1 (get_insns ());
-
- for (tree decl = DECL_ARGUMENTS (cfun->decl); decl; decl = DECL_CHAIN (decl))
- {
- if (DECL_RTL_SET_P (decl))
- SET_DECL_RTL (decl, copy_rtx_if_shared (DECL_RTL (decl)));
- DECL_INCOMING_RTL (decl) = copy_rtx_if_shared (DECL_INCOMING_RTL (decl));
- }
-
- return 0;
-}
-
-
-/* Check that ORIG is not marked when it should not be and mark ORIG as in use,
- Recursively does the same for subexpressions. */
-
-static void
-verify_rtx_sharing (rtx orig, rtx insn)
-{
- rtx x = orig;
- int i;
- enum rtx_code code;
- const char *format_ptr;
-
- if (x == 0)
- return;
-
- code = GET_CODE (x);
-
- /* These types may be freely shared. */
-
- switch (code)
- {
- case REG:
- case DEBUG_EXPR:
- case VALUE:
- CASE_CONST_ANY:
- case SYMBOL_REF:
- case LABEL_REF:
- case CODE_LABEL:
- case PC:
- case RETURN:
- case SIMPLE_RETURN:
- case SCRATCH:
- /* SCRATCH must be shared because they represent distinct values. */
- return;
- case CLOBBER:
- /* Share clobbers of hard registers, but do not share pseudo reg
- clobbers or clobbers of hard registers that originated as pseudos.
- This is needed to allow safe register renaming. */
- if (REG_P (XEXP (x, 0))
- && HARD_REGISTER_NUM_P (REGNO (XEXP (x, 0)))
- && HARD_REGISTER_NUM_P (ORIGINAL_REGNO (XEXP (x, 0))))
- return;
- break;
-
- case CONST:
- if (shared_const_p (orig))
- return;
- break;
-
- case MEM:
- /* A MEM is allowed to be shared if its address is constant. */
- if (CONSTANT_ADDRESS_P (XEXP (x, 0))
- || reload_completed || reload_in_progress)
- return;
-
- break;
-
- default:
- break;
- }
-
- /* This rtx may not be shared. If it has already been seen,
- replace it with a copy of itself. */
- if (flag_checking && RTX_FLAG (x, used))
- {
- error ("invalid rtl sharing found in the insn");
- debug_rtx (insn);
- error ("shared rtx");
- debug_rtx (x);
- internal_error ("internal consistency failure");
- }
- gcc_assert (!RTX_FLAG (x, used));
-
- RTX_FLAG (x, used) = 1;
-
- /* Now scan the subexpressions recursively. */
-
- format_ptr = GET_RTX_FORMAT (code);
-
- for (i = 0; i < GET_RTX_LENGTH (code); i++)
- {
- switch (*format_ptr++)
- {
- case 'e':
- verify_rtx_sharing (XEXP (x, i), insn);
- break;
-
- case 'E':
- if (XVEC (x, i) != NULL)
- {
- int j;
- int len = XVECLEN (x, i);
-
- for (j = 0; j < len; j++)
- {
- /* We allow sharing of ASM_OPERANDS inside single
- instruction. */
- if (j && GET_CODE (XVECEXP (x, i, j)) == SET
- && (GET_CODE (SET_SRC (XVECEXP (x, i, j)))
- == ASM_OPERANDS))
- verify_rtx_sharing (SET_DEST (XVECEXP (x, i, j)), insn);
- else
- verify_rtx_sharing (XVECEXP (x, i, j), insn);
- }
- }
- break;
- }
- }
- return;
-}
-
-/* Reset used-flags for INSN. */
-
-static void
-reset_insn_used_flags (rtx insn)
-{
- gcc_assert (INSN_P (insn));
- reset_used_flags (PATTERN (insn));
- reset_used_flags (REG_NOTES (insn));
- if (CALL_P (insn))
- reset_used_flags (CALL_INSN_FUNCTION_USAGE (insn));
-}
-
-/* Go through all the RTL insn bodies and clear all the USED bits. */
-
-static void
-reset_all_used_flags (void)
-{
- rtx_insn *p;
-
- for (p = get_insns (); p; p = NEXT_INSN (p))
- if (INSN_P (p))
- {
- rtx pat = PATTERN (p);
- if (GET_CODE (pat) != SEQUENCE)
- reset_insn_used_flags (p);
- else
- {
- gcc_assert (REG_NOTES (p) == NULL);
- for (int i = 0; i < XVECLEN (pat, 0); i++)
- {
- rtx insn = XVECEXP (pat, 0, i);
- if (INSN_P (insn))
- reset_insn_used_flags (insn);
- }
- }
- }
-}
-
-/* Verify sharing in INSN. */
-
-static void
-verify_insn_sharing (rtx insn)
-{
- gcc_assert (INSN_P (insn));
- verify_rtx_sharing (PATTERN (insn), insn);
- verify_rtx_sharing (REG_NOTES (insn), insn);
- if (CALL_P (insn))
- verify_rtx_sharing (CALL_INSN_FUNCTION_USAGE (insn), insn);
-}
-
-/* Go through all the RTL insn bodies and check that there is no unexpected
- sharing in between the subexpressions. */
-
-DEBUG_FUNCTION void
-verify_rtl_sharing (void)
-{
- rtx_insn *p;
-
- timevar_push (TV_VERIFY_RTL_SHARING);
-
- reset_all_used_flags ();
-
- for (p = get_insns (); p; p = NEXT_INSN (p))
- if (INSN_P (p))
- {
- rtx pat = PATTERN (p);
- if (GET_CODE (pat) != SEQUENCE)
- verify_insn_sharing (p);
- else
- for (int i = 0; i < XVECLEN (pat, 0); i++)
- {
- rtx insn = XVECEXP (pat, 0, i);
- if (INSN_P (insn))
- verify_insn_sharing (insn);
- }
- }
-
- reset_all_used_flags ();
-
- timevar_pop (TV_VERIFY_RTL_SHARING);
-}
-
-/* Go through all the RTL insn bodies and copy any invalid shared structure.
- Assumes the mark bits are cleared at entry. */
-
-void
-unshare_all_rtl_in_chain (rtx_insn *insn)
-{
- for (; insn; insn = NEXT_INSN (insn))
- if (INSN_P (insn))
- {
- PATTERN (insn) = copy_rtx_if_shared (PATTERN (insn));
- REG_NOTES (insn) = copy_rtx_if_shared (REG_NOTES (insn));
- if (CALL_P (insn))
- CALL_INSN_FUNCTION_USAGE (insn)
- = copy_rtx_if_shared (CALL_INSN_FUNCTION_USAGE (insn));
- }
-}
-
-/* Go through all virtual stack slots of a function and mark them as
- shared. We never replace the DECL_RTLs themselves with a copy,
- but expressions mentioned into a DECL_RTL cannot be shared with
- expressions in the instruction stream.
-
- Note that reload may convert pseudo registers into memories in-place.
- Pseudo registers are always shared, but MEMs never are. Thus if we
- reset the used flags on MEMs in the instruction stream, we must set
- them again on MEMs that appear in DECL_RTLs. */
-
-static void
-set_used_decls (tree blk)
-{
- tree t;
-
- /* Mark decls. */
- for (t = BLOCK_VARS (blk); t; t = DECL_CHAIN (t))
- if (DECL_RTL_SET_P (t))
- set_used_flags (DECL_RTL (t));
-
- /* Now process sub-blocks. */
- for (t = BLOCK_SUBBLOCKS (blk); t; t = BLOCK_CHAIN (t))
- set_used_decls (t);
-}
-
-/* Mark ORIG as in use, and return a copy of it if it was already in use.
- Recursively does the same for subexpressions. Uses
- copy_rtx_if_shared_1 to reduce stack space. */
-
-rtx
-copy_rtx_if_shared (rtx orig)
-{
- copy_rtx_if_shared_1 (&orig);
- return orig;
-}
-
-/* Mark *ORIG1 as in use, and set it to a copy of it if it was already in
- use. Recursively does the same for subexpressions. */
-
-static void
-copy_rtx_if_shared_1 (rtx *orig1)
-{
- rtx x;
- int i;
- enum rtx_code code;
- rtx *last_ptr;
- const char *format_ptr;
- int copied = 0;
- int length;
-
- /* Repeat is used to turn tail-recursion into iteration. */
-repeat:
- x = *orig1;
-
- if (x == 0)
- return;
-
- code = GET_CODE (x);
-
- /* These types may be freely shared. */
-
- switch (code)
- {
- case REG:
- case DEBUG_EXPR:
- case VALUE:
- CASE_CONST_ANY:
- case SYMBOL_REF:
- case LABEL_REF:
- case CODE_LABEL:
- case PC:
- case RETURN:
- case SIMPLE_RETURN:
- case SCRATCH:
- /* SCRATCH must be shared because they represent distinct values. */
- return;
- case CLOBBER:
- /* Share clobbers of hard registers, but do not share pseudo reg
- clobbers or clobbers of hard registers that originated as pseudos.
- This is needed to allow safe register renaming. */
- if (REG_P (XEXP (x, 0))
- && HARD_REGISTER_NUM_P (REGNO (XEXP (x, 0)))
- && HARD_REGISTER_NUM_P (ORIGINAL_REGNO (XEXP (x, 0))))
- return;
- break;
-
- case CONST:
- if (shared_const_p (x))
- return;
- break;
-
- case DEBUG_INSN:
- case INSN:
- case JUMP_INSN:
- case CALL_INSN:
- case NOTE:
- case BARRIER:
- /* The chain of insns is not being copied. */
- return;
-
- default:
- break;
- }
-
- /* This rtx may not be shared. If it has already been seen,
- replace it with a copy of itself. */
-
- if (RTX_FLAG (x, used))
- {
- x = shallow_copy_rtx (x);
- copied = 1;
- }
- RTX_FLAG (x, used) = 1;
-
- /* Now scan the subexpressions recursively.
- We can store any replaced subexpressions directly into X
- since we know X is not shared! Any vectors in X
- must be copied if X was copied. */
-
- format_ptr = GET_RTX_FORMAT (code);
- length = GET_RTX_LENGTH (code);
- last_ptr = NULL;
-
- for (i = 0; i < length; i++)
- {
- switch (*format_ptr++)
- {
- case 'e':
- if (last_ptr)
- copy_rtx_if_shared_1 (last_ptr);
- last_ptr = &XEXP (x, i);
- break;
-
- case 'E':
- if (XVEC (x, i) != NULL)
- {
- int j;
- int len = XVECLEN (x, i);
-
- /* Copy the vector iff I copied the rtx and the length
- is nonzero. */
- if (copied && len > 0)
- XVEC (x, i) = gen_rtvec_v (len, XVEC (x, i)->elem);
-
- /* Call recursively on all inside the vector. */
- for (j = 0; j < len; j++)
- {
- if (last_ptr)
- copy_rtx_if_shared_1 (last_ptr);
- last_ptr = &XVECEXP (x, i, j);
- }
- }
- break;
- }
- }
- *orig1 = x;
- if (last_ptr)
- {
- orig1 = last_ptr;
- goto repeat;
- }
- return;
-}
-
-/* Set the USED bit in X and its non-shareable subparts to FLAG. */
-
-static void
-mark_used_flags (rtx x, int flag)
-{
- int i, j;
- enum rtx_code code;
- const char *format_ptr;
- int length;
-
- /* Repeat is used to turn tail-recursion into iteration. */
-repeat:
- if (x == 0)
- return;
-
- code = GET_CODE (x);
-
- /* These types may be freely shared so we needn't do any resetting
- for them. */
-
- switch (code)
- {
- case REG:
- case DEBUG_EXPR:
- case VALUE:
- CASE_CONST_ANY:
- case SYMBOL_REF:
- case CODE_LABEL:
- case PC:
- case RETURN:
- case SIMPLE_RETURN:
- return;
-
- case DEBUG_INSN:
- case INSN:
- case JUMP_INSN:
- case CALL_INSN:
- case NOTE:
- case LABEL_REF:
- case BARRIER:
- /* The chain of insns is not being copied. */
- return;
-
- default:
- break;
- }
-
- RTX_FLAG (x, used) = flag;
-
- format_ptr = GET_RTX_FORMAT (code);
- length = GET_RTX_LENGTH (code);
-
- for (i = 0; i < length; i++)
- {
- switch (*format_ptr++)
- {
- case 'e':
- if (i == length-1)
- {
- x = XEXP (x, i);
- goto repeat;
- }
- mark_used_flags (XEXP (x, i), flag);
- break;
-
- case 'E':
- for (j = 0; j < XVECLEN (x, i); j++)
- mark_used_flags (XVECEXP (x, i, j), flag);
- break;
- }
- }
-}
-
-/* Clear all the USED bits in X to allow copy_rtx_if_shared to be used
- to look for shared sub-parts. */
-
-void
-reset_used_flags (rtx x)
-{
- mark_used_flags (x, 0);
-}
-
-/* Set all the USED bits in X to allow copy_rtx_if_shared to be used
- to look for shared sub-parts. */
-
-void
-set_used_flags (rtx x)
-{
- mark_used_flags (x, 1);
-}
-
-/* Copy X if necessary so that it won't be altered by changes in OTHER.
- Return X or the rtx for the pseudo reg the value of X was copied into.
- OTHER must be valid as a SET_DEST. */
-
-rtx
-make_safe_from (rtx x, rtx other)
-{
- while (1)
- switch (GET_CODE (other))
- {
- case SUBREG:
- other = SUBREG_REG (other);
- break;
- case STRICT_LOW_PART:
- case SIGN_EXTEND:
- case ZERO_EXTEND:
- other = XEXP (other, 0);
- break;
- default:
- goto done;
- }
- done:
- if ((MEM_P (other)
- && ! CONSTANT_P (x)
- && !REG_P (x)
- && GET_CODE (x) != SUBREG)
- || (REG_P (other)
- && (REGNO (other) < FIRST_PSEUDO_REGISTER
- || reg_mentioned_p (other, x))))
- {
- rtx temp = gen_reg_rtx (GET_MODE (x));
- emit_move_insn (temp, x);
- return temp;
- }
- return x;
-}
-
-/* Emission of insns (adding them to the doubly-linked list). */
-
-/* Return the last insn emitted, even if it is in a sequence now pushed. */
-
-rtx_insn *
-get_last_insn_anywhere (void)
-{
- struct sequence_stack *seq;
- for (seq = get_current_sequence (); seq; seq = seq->next)
- if (seq->last != 0)
- return seq->last;
- return 0;
-}
-
-/* Return the first nonnote insn emitted in current sequence or current
- function. This routine looks inside SEQUENCEs. */
-
-rtx_insn *
-get_first_nonnote_insn (void)
-{
- rtx_insn *insn = get_insns ();
-
- if (insn)
- {
- if (NOTE_P (insn))
- for (insn = next_insn (insn);
- insn && NOTE_P (insn);
- insn = next_insn (insn))
- continue;
- else
- {
- if (NONJUMP_INSN_P (insn)
- && GET_CODE (PATTERN (insn)) == SEQUENCE)
- insn = as_a <rtx_sequence *> (PATTERN (insn))->insn (0);
- }
- }
-
- return insn;
-}
-
-/* Return the last nonnote insn emitted in current sequence or current
- function. This routine looks inside SEQUENCEs. */
-
-rtx_insn *
-get_last_nonnote_insn (void)
-{
- rtx_insn *insn = get_last_insn ();
-
- if (insn)
- {
- if (NOTE_P (insn))
- for (insn = previous_insn (insn);
- insn && NOTE_P (insn);
- insn = previous_insn (insn))
- continue;
- else
- {
- if (NONJUMP_INSN_P (insn))
- if (rtx_sequence *seq = dyn_cast <rtx_sequence *> (PATTERN (insn)))
- insn = seq->insn (seq->len () - 1);
- }
- }
-
- return insn;
-}
-
-/* Return the number of actual (non-debug) insns emitted in this
- function. */
-
-int
-get_max_insn_count (void)
-{
- int n = cur_insn_uid;
-
- /* The table size must be stable across -g, to avoid codegen
- differences due to debug insns, and not be affected by
- -fmin-insn-uid, to avoid excessive table size and to simplify
- debugging of -fcompare-debug failures. */
- if (cur_debug_insn_uid > param_min_nondebug_insn_uid)
- n -= cur_debug_insn_uid;
- else
- n -= param_min_nondebug_insn_uid;
-
- return n;
-}
-
-
-/* Return the next insn. If it is a SEQUENCE, return the first insn
- of the sequence. */
-
-rtx_insn *
-next_insn (rtx_insn *insn)
-{
- if (insn)
- {
- insn = NEXT_INSN (insn);
- if (insn && NONJUMP_INSN_P (insn)
- && GET_CODE (PATTERN (insn)) == SEQUENCE)
- insn = as_a <rtx_sequence *> (PATTERN (insn))->insn (0);
- }
-
- return insn;
-}
-
-/* Return the previous insn. If it is a SEQUENCE, return the last insn
- of the sequence. */
-
-rtx_insn *
-previous_insn (rtx_insn *insn)
-{
- if (insn)
- {
- insn = PREV_INSN (insn);
- if (insn && NONJUMP_INSN_P (insn))
- if (rtx_sequence *seq = dyn_cast <rtx_sequence *> (PATTERN (insn)))
- insn = seq->insn (seq->len () - 1);
- }
-
- return insn;
-}
-
-/* Return the next insn after INSN that is not a NOTE. This routine does not
- look inside SEQUENCEs. */
-
-rtx_insn *
-next_nonnote_insn (rtx_insn *insn)
-{
- while (insn)
- {
- insn = NEXT_INSN (insn);
- if (insn == 0 || !NOTE_P (insn))
- break;
- }
-
- return insn;
-}
-
-/* Return the next insn after INSN that is not a DEBUG_INSN. This
- routine does not look inside SEQUENCEs. */
-
-rtx_insn *
-next_nondebug_insn (rtx_insn *insn)
-{
- while (insn)
- {
- insn = NEXT_INSN (insn);
- if (insn == 0 || !DEBUG_INSN_P (insn))
- break;
- }
-
- return insn;
-}
-
-/* Return the previous insn before INSN that is not a NOTE. This routine does
- not look inside SEQUENCEs. */
-
-rtx_insn *
-prev_nonnote_insn (rtx_insn *insn)
-{
- while (insn)
- {
- insn = PREV_INSN (insn);
- if (insn == 0 || !NOTE_P (insn))
- break;
- }
-
- return insn;
-}
-
-/* Return the previous insn before INSN that is not a DEBUG_INSN.
- This routine does not look inside SEQUENCEs. */
-
-rtx_insn *
-prev_nondebug_insn (rtx_insn *insn)
-{
- while (insn)
- {
- insn = PREV_INSN (insn);
- if (insn == 0 || !DEBUG_INSN_P (insn))
- break;
- }
-
- return insn;
-}
-
-/* Return the next insn after INSN that is not a NOTE nor DEBUG_INSN.
- This routine does not look inside SEQUENCEs. */
-
-rtx_insn *
-next_nonnote_nondebug_insn (rtx_insn *insn)
-{
- while (insn)
- {
- insn = NEXT_INSN (insn);
- if (insn == 0 || (!NOTE_P (insn) && !DEBUG_INSN_P (insn)))
- break;
- }
-
- return insn;
-}
-
-/* Return the next insn after INSN that is not a NOTE nor DEBUG_INSN,
- but stop the search before we enter another basic block. This
- routine does not look inside SEQUENCEs. */
-
-rtx_insn *
-next_nonnote_nondebug_insn_bb (rtx_insn *insn)
-{
- while (insn)
- {
- insn = NEXT_INSN (insn);
- if (insn == 0)
- break;
- if (DEBUG_INSN_P (insn))
- continue;
- if (!NOTE_P (insn))
- break;
- if (NOTE_INSN_BASIC_BLOCK_P (insn))
- return NULL;
- }
-
- return insn;
-}
-
-/* Return the previous insn before INSN that is not a NOTE nor DEBUG_INSN.
- This routine does not look inside SEQUENCEs. */
-
-rtx_insn *
-prev_nonnote_nondebug_insn (rtx_insn *insn)
-{
- while (insn)
- {
- insn = PREV_INSN (insn);
- if (insn == 0 || (!NOTE_P (insn) && !DEBUG_INSN_P (insn)))
- break;
- }
-
- return insn;
-}
-
-/* Return the previous insn before INSN that is not a NOTE nor
- DEBUG_INSN, but stop the search before we enter another basic
- block. This routine does not look inside SEQUENCEs. */
-
-rtx_insn *
-prev_nonnote_nondebug_insn_bb (rtx_insn *insn)
-{
- while (insn)
- {
- insn = PREV_INSN (insn);
- if (insn == 0)
- break;
- if (DEBUG_INSN_P (insn))
- continue;
- if (!NOTE_P (insn))
- break;
- if (NOTE_INSN_BASIC_BLOCK_P (insn))
- return NULL;
- }
-
- return insn;
-}
-
-/* Return the next INSN, CALL_INSN, JUMP_INSN or DEBUG_INSN after INSN;
- or 0, if there is none. This routine does not look inside
- SEQUENCEs. */
-
-rtx_insn *
-next_real_insn (rtx_insn *insn)
-{
- while (insn)
- {
- insn = NEXT_INSN (insn);
- if (insn == 0 || INSN_P (insn))
- break;
- }
-
- return insn;
-}
-
-/* Return the last INSN, CALL_INSN, JUMP_INSN or DEBUG_INSN before INSN;
- or 0, if there is none. This routine does not look inside
- SEQUENCEs. */
-
-rtx_insn *
-prev_real_insn (rtx_insn *insn)
-{
- while (insn)
- {
- insn = PREV_INSN (insn);
- if (insn == 0 || INSN_P (insn))
- break;
- }
-
- return insn;
-}
-
-/* Return the next INSN, CALL_INSN or JUMP_INSN after INSN;
- or 0, if there is none. This routine does not look inside
- SEQUENCEs. */
-
-rtx_insn *
-next_real_nondebug_insn (rtx uncast_insn)
-{
- rtx_insn *insn = safe_as_a <rtx_insn *> (uncast_insn);
-
- while (insn)
- {
- insn = NEXT_INSN (insn);
- if (insn == 0 || NONDEBUG_INSN_P (insn))
- break;
- }
-
- return insn;
-}
-
-/* Return the last INSN, CALL_INSN or JUMP_INSN before INSN;
- or 0, if there is none. This routine does not look inside
- SEQUENCEs. */
-
-rtx_insn *
-prev_real_nondebug_insn (rtx_insn *insn)
-{
- while (insn)
- {
- insn = PREV_INSN (insn);
- if (insn == 0 || NONDEBUG_INSN_P (insn))
- break;
- }
-
- return insn;
-}
-
-/* Return the last CALL_INSN in the current list, or 0 if there is none.
- This routine does not look inside SEQUENCEs. */
-
-rtx_call_insn *
-last_call_insn (void)
-{
- rtx_insn *insn;
-
- for (insn = get_last_insn ();
- insn && !CALL_P (insn);
- insn = PREV_INSN (insn))
- ;
-
- return safe_as_a <rtx_call_insn *> (insn);
-}
-
-/* Find the next insn after INSN that really does something. This routine
- does not look inside SEQUENCEs. After reload this also skips over
- standalone USE and CLOBBER insn. */
-
-int
-active_insn_p (const rtx_insn *insn)
-{
- return (CALL_P (insn) || JUMP_P (insn)
- || JUMP_TABLE_DATA_P (insn) /* FIXME */
- || (NONJUMP_INSN_P (insn)
- && (! reload_completed
- || (GET_CODE (PATTERN (insn)) != USE
- && GET_CODE (PATTERN (insn)) != CLOBBER))));
-}
-
-rtx_insn *
-next_active_insn (rtx_insn *insn)
-{
- while (insn)
- {
- insn = NEXT_INSN (insn);
- if (insn == 0 || active_insn_p (insn))
- break;
- }
-
- return insn;
-}
-
-/* Find the last insn before INSN that really does something. This routine
- does not look inside SEQUENCEs. After reload this also skips over
- standalone USE and CLOBBER insn. */
-
-rtx_insn *
-prev_active_insn (rtx_insn *insn)
-{
- while (insn)
- {
- insn = PREV_INSN (insn);
- if (insn == 0 || active_insn_p (insn))
- break;
- }
-
- return insn;
-}
-
-/* Find a RTX_AUTOINC class rtx which matches DATA. */
-
-static int
-find_auto_inc (const_rtx x, const_rtx reg)
-{
- subrtx_iterator::array_type array;
- FOR_EACH_SUBRTX (iter, array, x, NONCONST)
- {
- const_rtx x = *iter;
- if (GET_RTX_CLASS (GET_CODE (x)) == RTX_AUTOINC
- && rtx_equal_p (reg, XEXP (x, 0)))
- return true;
- }
- return false;
-}
-
-/* Increment the label uses for all labels present in rtx. */
-
-static void
-mark_label_nuses (rtx x)
-{
- enum rtx_code code;
- int i, j;
- const char *fmt;
-
- code = GET_CODE (x);
- if (code == LABEL_REF && LABEL_P (label_ref_label (x)))
- LABEL_NUSES (label_ref_label (x))++;
-
- fmt = GET_RTX_FORMAT (code);
- for (i = GET_RTX_LENGTH (code) - 1; i >= 0; i--)
- {
- if (fmt[i] == 'e')
- mark_label_nuses (XEXP (x, i));
- else if (fmt[i] == 'E')
- for (j = XVECLEN (x, i) - 1; j >= 0; j--)
- mark_label_nuses (XVECEXP (x, i, j));
- }
-}
-
-
-/* Try splitting insns that can be split for better scheduling.
- PAT is the pattern which might split.
- TRIAL is the insn providing PAT.
- LAST is nonzero if we should return the last insn of the sequence produced.
-
- If this routine succeeds in splitting, it returns the first or last
- replacement insn depending on the value of LAST. Otherwise, it
- returns TRIAL. If the insn to be returned can be split, it will be. */
-
-rtx_insn *
-try_split (rtx pat, rtx_insn *trial, int last)
-{
- rtx_insn *before, *after;
- rtx note;
- rtx_insn *seq, *tem;
- profile_probability probability;
- rtx_insn *insn_last, *insn;
- int njumps = 0;
- rtx_insn *call_insn = NULL;
-
- if (any_condjump_p (trial)
- && (note = find_reg_note (trial, REG_BR_PROB, 0)))
- split_branch_probability
- = profile_probability::from_reg_br_prob_note (XINT (note, 0));
- else
- split_branch_probability = profile_probability::uninitialized ();
-
- probability = split_branch_probability;
-
- seq = split_insns (pat, trial);
-
- split_branch_probability = profile_probability::uninitialized ();
-
- if (!seq)
- return trial;
-
- int split_insn_count = 0;
- /* Avoid infinite loop if any insn of the result matches
- the original pattern. */
- insn_last = seq;
- while (1)
- {
- if (INSN_P (insn_last)
- && rtx_equal_p (PATTERN (insn_last), pat))
- return trial;
- split_insn_count++;
- if (!NEXT_INSN (insn_last))
- break;
- insn_last = NEXT_INSN (insn_last);
- }
-
- /* We're not good at redistributing frame information if
- the split occurs before reload or if it results in more
- than one insn. */
- if (RTX_FRAME_RELATED_P (trial))
- {
- if (!reload_completed || split_insn_count != 1)
- return trial;
-
- rtx_insn *new_insn = seq;
- rtx_insn *old_insn = trial;
- copy_frame_info_to_split_insn (old_insn, new_insn);
- }
-
- /* We will be adding the new sequence to the function. The splitters
- may have introduced invalid RTL sharing, so unshare the sequence now. */
- unshare_all_rtl_in_chain (seq);
-
- /* Mark labels and copy flags. */
- for (insn = insn_last; insn ; insn = PREV_INSN (insn))
- {
- if (JUMP_P (insn))
- {
- if (JUMP_P (trial))
- CROSSING_JUMP_P (insn) = CROSSING_JUMP_P (trial);
- mark_jump_label (PATTERN (insn), insn, 0);
- njumps++;
- if (probability.initialized_p ()
- && any_condjump_p (insn)
- && !find_reg_note (insn, REG_BR_PROB, 0))
- {
- /* We can preserve the REG_BR_PROB notes only if exactly
- one jump is created, otherwise the machine description
- is responsible for this step using
- split_branch_probability variable. */
- gcc_assert (njumps == 1);
- add_reg_br_prob_note (insn, probability);
- }
- }
- }
-
- /* If we are splitting a CALL_INSN, look for the CALL_INSN
- in SEQ and copy any additional information across. */
- if (CALL_P (trial))
- {
- for (insn = insn_last; insn ; insn = PREV_INSN (insn))
- if (CALL_P (insn))
- {
- gcc_assert (call_insn == NULL_RTX);
- call_insn = insn;
-
- /* Add the old CALL_INSN_FUNCTION_USAGE to whatever the
- target may have explicitly specified. */
- rtx *p = &CALL_INSN_FUNCTION_USAGE (insn);
- while (*p)
- p = &XEXP (*p, 1);
- *p = CALL_INSN_FUNCTION_USAGE (trial);
-
- /* If the old call was a sibling call, the new one must
- be too. */
- SIBLING_CALL_P (insn) = SIBLING_CALL_P (trial);
- }
- }
-
- /* Copy notes, particularly those related to the CFG. */
- for (note = REG_NOTES (trial); note; note = XEXP (note, 1))
- {
- switch (REG_NOTE_KIND (note))
- {
- case REG_EH_REGION:
- copy_reg_eh_region_note_backward (note, insn_last, NULL);
- break;
-
- case REG_NORETURN:
- case REG_SETJMP:
- case REG_TM:
- case REG_CALL_NOCF_CHECK:
- case REG_CALL_ARG_LOCATION:
- for (insn = insn_last; insn != NULL_RTX; insn = PREV_INSN (insn))
- {
- if (CALL_P (insn))
- add_reg_note (insn, REG_NOTE_KIND (note), XEXP (note, 0));
- }
- break;
-
- case REG_NON_LOCAL_GOTO:
- case REG_LABEL_TARGET:
- for (insn = insn_last; insn != NULL_RTX; insn = PREV_INSN (insn))
- {
- if (JUMP_P (insn))
- add_reg_note (insn, REG_NOTE_KIND (note), XEXP (note, 0));
- }
- break;
-
- case REG_INC:
- if (!AUTO_INC_DEC)
- break;
-
- for (insn = insn_last; insn != NULL_RTX; insn = PREV_INSN (insn))
- {
- rtx reg = XEXP (note, 0);
- if (!FIND_REG_INC_NOTE (insn, reg)
- && find_auto_inc (PATTERN (insn), reg))
- add_reg_note (insn, REG_INC, reg);
- }
- break;
-
- case REG_ARGS_SIZE:
- fixup_args_size_notes (NULL, insn_last, get_args_size (note));
- break;
-
- case REG_CALL_DECL:
- case REG_UNTYPED_CALL:
- gcc_assert (call_insn != NULL_RTX);
- add_reg_note (call_insn, REG_NOTE_KIND (note), XEXP (note, 0));
- break;
-
- default:
- break;
- }
- }
-
- /* If there are LABELS inside the split insns increment the
- usage count so we don't delete the label. */
- if (INSN_P (trial))
- {
- insn = insn_last;
- while (insn != NULL_RTX)
- {
- /* JUMP_P insns have already been "marked" above. */
- if (NONJUMP_INSN_P (insn))
- mark_label_nuses (PATTERN (insn));
-
- insn = PREV_INSN (insn);
- }
- }
-
- before = PREV_INSN (trial);
- after = NEXT_INSN (trial);
-
- emit_insn_after_setloc (seq, trial, INSN_LOCATION (trial));
-
- delete_insn (trial);
-
- /* Recursively call try_split for each new insn created; by the
- time control returns here that insn will be fully split, so
- set LAST and continue from the insn after the one returned.
- We can't use next_active_insn here since AFTER may be a note.
- Ignore deleted insns, which can be occur if not optimizing. */
- for (tem = NEXT_INSN (before); tem != after; tem = NEXT_INSN (tem))
- if (! tem->deleted () && INSN_P (tem))
- tem = try_split (PATTERN (tem), tem, 1);
-
- /* Return either the first or the last insn, depending on which was
- requested. */
- return last
- ? (after ? PREV_INSN (after) : get_last_insn ())
- : NEXT_INSN (before);
-}
-
-/* Make and return an INSN rtx, initializing all its slots.
- Store PATTERN in the pattern slots. */
-
-rtx_insn *
-make_insn_raw (rtx pattern)
-{
- rtx_insn *insn;
-
- insn = as_a <rtx_insn *> (rtx_alloc (INSN));
-
- INSN_UID (insn) = cur_insn_uid++;
- PATTERN (insn) = pattern;
- INSN_CODE (insn) = -1;
- REG_NOTES (insn) = NULL;
- INSN_LOCATION (insn) = curr_insn_location ();
- BLOCK_FOR_INSN (insn) = NULL;
-
-#ifdef ENABLE_RTL_CHECKING
- if (insn
- && INSN_P (insn)
- && (returnjump_p (insn)
- || (GET_CODE (insn) == SET
- && SET_DEST (insn) == pc_rtx)))
- {
- warning (0, "ICE: emit_insn used where emit_jump_insn needed:\n");
- debug_rtx (insn);
- }
-#endif
-
- return insn;
-}
-
-/* Like `make_insn_raw' but make a DEBUG_INSN instead of an insn. */
-
-static rtx_insn *
-make_debug_insn_raw (rtx pattern)
-{
- rtx_debug_insn *insn;
-
- insn = as_a <rtx_debug_insn *> (rtx_alloc (DEBUG_INSN));
- INSN_UID (insn) = cur_debug_insn_uid++;
- if (cur_debug_insn_uid > param_min_nondebug_insn_uid)
- INSN_UID (insn) = cur_insn_uid++;
-
- PATTERN (insn) = pattern;
- INSN_CODE (insn) = -1;
- REG_NOTES (insn) = NULL;
- INSN_LOCATION (insn) = curr_insn_location ();
- BLOCK_FOR_INSN (insn) = NULL;
-
- return insn;
-}
-
-/* Like `make_insn_raw' but make a JUMP_INSN instead of an insn. */
-
-static rtx_insn *
-make_jump_insn_raw (rtx pattern)
-{
- rtx_jump_insn *insn;
-
- insn = as_a <rtx_jump_insn *> (rtx_alloc (JUMP_INSN));
- INSN_UID (insn) = cur_insn_uid++;
-
- PATTERN (insn) = pattern;
- INSN_CODE (insn) = -1;
- REG_NOTES (insn) = NULL;
- JUMP_LABEL (insn) = NULL;
- INSN_LOCATION (insn) = curr_insn_location ();
- BLOCK_FOR_INSN (insn) = NULL;
-
- return insn;
-}
-
-/* Like `make_insn_raw' but make a CALL_INSN instead of an insn. */
-
-static rtx_insn *
-make_call_insn_raw (rtx pattern)
-{
- rtx_call_insn *insn;
-
- insn = as_a <rtx_call_insn *> (rtx_alloc (CALL_INSN));
- INSN_UID (insn) = cur_insn_uid++;
-
- PATTERN (insn) = pattern;
- INSN_CODE (insn) = -1;
- REG_NOTES (insn) = NULL;
- CALL_INSN_FUNCTION_USAGE (insn) = NULL;
- INSN_LOCATION (insn) = curr_insn_location ();
- BLOCK_FOR_INSN (insn) = NULL;
-
- return insn;
-}
-
-/* Like `make_insn_raw' but make a NOTE instead of an insn. */
-
-static rtx_note *
-make_note_raw (enum insn_note subtype)
-{
- /* Some notes are never created this way at all. These notes are
- only created by patching out insns. */
- gcc_assert (subtype != NOTE_INSN_DELETED_LABEL
- && subtype != NOTE_INSN_DELETED_DEBUG_LABEL);
-
- rtx_note *note = as_a <rtx_note *> (rtx_alloc (NOTE));
- INSN_UID (note) = cur_insn_uid++;
- NOTE_KIND (note) = subtype;
- BLOCK_FOR_INSN (note) = NULL;
- memset (&NOTE_DATA (note), 0, sizeof (NOTE_DATA (note)));
- return note;
-}
-
-/* Add INSN to the end of the doubly-linked list, between PREV and NEXT.
- INSN may be any object that can appear in the chain: INSN_P and NOTE_P objects,
- but also BARRIERs and JUMP_TABLE_DATAs. PREV and NEXT may be NULL. */
-
-static inline void
-link_insn_into_chain (rtx_insn *insn, rtx_insn *prev, rtx_insn *next)
-{
- SET_PREV_INSN (insn) = prev;
- SET_NEXT_INSN (insn) = next;
- if (prev != NULL)
- {
- SET_NEXT_INSN (prev) = insn;
- if (NONJUMP_INSN_P (prev) && GET_CODE (PATTERN (prev)) == SEQUENCE)
- {
- rtx_sequence *sequence = as_a <rtx_sequence *> (PATTERN (prev));
- SET_NEXT_INSN (sequence->insn (sequence->len () - 1)) = insn;
- }
- }
- if (next != NULL)
- {
- SET_PREV_INSN (next) = insn;
- if (NONJUMP_INSN_P (next) && GET_CODE (PATTERN (next)) == SEQUENCE)
- {
- rtx_sequence *sequence = as_a <rtx_sequence *> (PATTERN (next));
- SET_PREV_INSN (sequence->insn (0)) = insn;
- }
- }
-
- if (NONJUMP_INSN_P (insn) && GET_CODE (PATTERN (insn)) == SEQUENCE)
- {
- rtx_sequence *sequence = as_a <rtx_sequence *> (PATTERN (insn));
- SET_PREV_INSN (sequence->insn (0)) = prev;
- SET_NEXT_INSN (sequence->insn (sequence->len () - 1)) = next;
- }
-}
-
-/* Add INSN to the end of the doubly-linked list.
- INSN may be an INSN, JUMP_INSN, CALL_INSN, CODE_LABEL, BARRIER or NOTE. */
-
-void
-add_insn (rtx_insn *insn)
-{
- rtx_insn *prev = get_last_insn ();
- link_insn_into_chain (insn, prev, NULL);
- if (get_insns () == NULL)
- set_first_insn (insn);
- set_last_insn (insn);
-}
-
-/* Add INSN into the doubly-linked list after insn AFTER. */
-
-static void
-add_insn_after_nobb (rtx_insn *insn, rtx_insn *after)
-{
- rtx_insn *next = NEXT_INSN (after);
-
- gcc_assert (!optimize || !after->deleted ());
-
- link_insn_into_chain (insn, after, next);
-
- if (next == NULL)
- {
- struct sequence_stack *seq;
-
- for (seq = get_current_sequence (); seq; seq = seq->next)
- if (after == seq->last)
- {
- seq->last = insn;
- break;
- }
- }
-}
-
-/* Add INSN into the doubly-linked list before insn BEFORE. */
-
-static void
-add_insn_before_nobb (rtx_insn *insn, rtx_insn *before)
-{
- rtx_insn *prev = PREV_INSN (before);
-
- gcc_assert (!optimize || !before->deleted ());
-
- link_insn_into_chain (insn, prev, before);
-
- if (prev == NULL)
- {
- struct sequence_stack *seq;
-
- for (seq = get_current_sequence (); seq; seq = seq->next)
- if (before == seq->first)
- {
- seq->first = insn;
- break;
- }
-
- gcc_assert (seq);
- }
-}
-
-/* Like add_insn_after_nobb, but try to set BLOCK_FOR_INSN.
- If BB is NULL, an attempt is made to infer the bb from before.
-
- This and the next function should be the only functions called
- to insert an insn once delay slots have been filled since only
- they know how to update a SEQUENCE. */
-
-void
-add_insn_after (rtx_insn *insn, rtx_insn *after, basic_block bb)
-{
- add_insn_after_nobb (insn, after);
- if (!BARRIER_P (after)
- && !BARRIER_P (insn)
- && (bb = BLOCK_FOR_INSN (after)))
- {
- set_block_for_insn (insn, bb);
- if (INSN_P (insn))
- df_insn_rescan (insn);
- /* Should not happen as first in the BB is always
- either NOTE or LABEL. */
- if (BB_END (bb) == after
- /* Avoid clobbering of structure when creating new BB. */
- && !BARRIER_P (insn)
- && !NOTE_INSN_BASIC_BLOCK_P (insn))
- BB_END (bb) = insn;
- }
-}
-
-/* Like add_insn_before_nobb, but try to set BLOCK_FOR_INSN.
- If BB is NULL, an attempt is made to infer the bb from before.
-
- This and the previous function should be the only functions called
- to insert an insn once delay slots have been filled since only
- they know how to update a SEQUENCE. */
-
-void
-add_insn_before (rtx_insn *insn, rtx_insn *before, basic_block bb)
-{
- add_insn_before_nobb (insn, before);
-
- if (!bb
- && !BARRIER_P (before)
- && !BARRIER_P (insn))
- bb = BLOCK_FOR_INSN (before);
-
- if (bb)
- {
- set_block_for_insn (insn, bb);
- if (INSN_P (insn))
- df_insn_rescan (insn);
- /* Should not happen as first in the BB is always either NOTE or
- LABEL. */
- gcc_assert (BB_HEAD (bb) != insn
- /* Avoid clobbering of structure when creating new BB. */
- || BARRIER_P (insn)
- || NOTE_INSN_BASIC_BLOCK_P (insn));
- }
-}
-
-/* Replace insn with an deleted instruction note. */
-
-void
-set_insn_deleted (rtx_insn *insn)
-{
- if (INSN_P (insn))
- df_insn_delete (insn);
- PUT_CODE (insn, NOTE);
- NOTE_KIND (insn) = NOTE_INSN_DELETED;
-}
-
-
-/* Unlink INSN from the insn chain.
-
- This function knows how to handle sequences.
-
- This function does not invalidate data flow information associated with
- INSN (i.e. does not call df_insn_delete). That makes this function
- usable for only disconnecting an insn from the chain, and re-emit it
- elsewhere later.
-
- To later insert INSN elsewhere in the insn chain via add_insn and
- similar functions, PREV_INSN and NEXT_INSN must be nullified by
- the caller. Nullifying them here breaks many insn chain walks.
-
- To really delete an insn and related DF information, use delete_insn. */
-
-void
-remove_insn (rtx_insn *insn)
-{
- rtx_insn *next = NEXT_INSN (insn);
- rtx_insn *prev = PREV_INSN (insn);
- basic_block bb;
-
- if (prev)
- {
- SET_NEXT_INSN (prev) = next;
- if (NONJUMP_INSN_P (prev) && GET_CODE (PATTERN (prev)) == SEQUENCE)
- {
- rtx_sequence *sequence = as_a <rtx_sequence *> (PATTERN (prev));
- SET_NEXT_INSN (sequence->insn (sequence->len () - 1)) = next;
- }
- }
- else
- {
- struct sequence_stack *seq;
-
- for (seq = get_current_sequence (); seq; seq = seq->next)
- if (insn == seq->first)
- {
- seq->first = next;
- break;
- }
-
- gcc_assert (seq);
- }
-
- if (next)
- {
- SET_PREV_INSN (next) = prev;
- if (NONJUMP_INSN_P (next) && GET_CODE (PATTERN (next)) == SEQUENCE)
- {
- rtx_sequence *sequence = as_a <rtx_sequence *> (PATTERN (next));
- SET_PREV_INSN (sequence->insn (0)) = prev;
- }
- }
- else
- {
- struct sequence_stack *seq;
-
- for (seq = get_current_sequence (); seq; seq = seq->next)
- if (insn == seq->last)
- {
- seq->last = prev;
- break;
- }
-
- gcc_assert (seq);
- }
-
- /* Fix up basic block boundaries, if necessary. */
- if (!BARRIER_P (insn)
- && (bb = BLOCK_FOR_INSN (insn)))
- {
- if (BB_HEAD (bb) == insn)
- {
- /* Never ever delete the basic block note without deleting whole
- basic block. */
- gcc_assert (!NOTE_P (insn));
- BB_HEAD (bb) = next;
- }
- if (BB_END (bb) == insn)
- BB_END (bb) = prev;
- }
-}
-
-/* Append CALL_FUSAGE to the CALL_INSN_FUNCTION_USAGE for CALL_INSN. */
-
-void
-add_function_usage_to (rtx call_insn, rtx call_fusage)
-{
- gcc_assert (call_insn && CALL_P (call_insn));
-
- /* Put the register usage information on the CALL. If there is already
- some usage information, put ours at the end. */
- if (CALL_INSN_FUNCTION_USAGE (call_insn))
- {
- rtx link;
-
- for (link = CALL_INSN_FUNCTION_USAGE (call_insn); XEXP (link, 1) != 0;
- link = XEXP (link, 1))
- ;
-
- XEXP (link, 1) = call_fusage;
- }
- else
- CALL_INSN_FUNCTION_USAGE (call_insn) = call_fusage;
-}
-
-/* Delete all insns made since FROM.
- FROM becomes the new last instruction. */
-
-void
-delete_insns_since (rtx_insn *from)
-{
- if (from == 0)
- set_first_insn (0);
- else
- SET_NEXT_INSN (from) = 0;
- set_last_insn (from);
-}
-
-/* This function is deprecated, please use sequences instead.
-
- Move a consecutive bunch of insns to a different place in the chain.
- The insns to be moved are those between FROM and TO.
- They are moved to a new position after the insn AFTER.
- AFTER must not be FROM or TO or any insn in between.
-
- This function does not know about SEQUENCEs and hence should not be
- called after delay-slot filling has been done. */
-
-void
-reorder_insns_nobb (rtx_insn *from, rtx_insn *to, rtx_insn *after)
-{
- if (flag_checking)
- {
- for (rtx_insn *x = from; x != to; x = NEXT_INSN (x))
- gcc_assert (after != x);
- gcc_assert (after != to);
- }
-
- /* Splice this bunch out of where it is now. */
- if (PREV_INSN (from))
- SET_NEXT_INSN (PREV_INSN (from)) = NEXT_INSN (to);
- if (NEXT_INSN (to))
- SET_PREV_INSN (NEXT_INSN (to)) = PREV_INSN (from);
- if (get_last_insn () == to)
- set_last_insn (PREV_INSN (from));
- if (get_insns () == from)
- set_first_insn (NEXT_INSN (to));
-
- /* Make the new neighbors point to it and it to them. */
- if (NEXT_INSN (after))
- SET_PREV_INSN (NEXT_INSN (after)) = to;
-
- SET_NEXT_INSN (to) = NEXT_INSN (after);
- SET_PREV_INSN (from) = after;
- SET_NEXT_INSN (after) = from;
- if (after == get_last_insn ())
- set_last_insn (to);
-}
-
-/* Same as function above, but take care to update BB boundaries. */
-void
-reorder_insns (rtx_insn *from, rtx_insn *to, rtx_insn *after)
-{
- rtx_insn *prev = PREV_INSN (from);
- basic_block bb, bb2;
-
- reorder_insns_nobb (from, to, after);
-
- if (!BARRIER_P (after)
- && (bb = BLOCK_FOR_INSN (after)))
- {
- rtx_insn *x;
- df_set_bb_dirty (bb);
-
- if (!BARRIER_P (from)
- && (bb2 = BLOCK_FOR_INSN (from)))
- {
- if (BB_END (bb2) == to)
- BB_END (bb2) = prev;
- df_set_bb_dirty (bb2);
- }
-
- if (BB_END (bb) == after)
- BB_END (bb) = to;
-
- for (x = from; x != NEXT_INSN (to); x = NEXT_INSN (x))
- if (!BARRIER_P (x))
- df_insn_change_bb (x, bb);
- }
-}
-
-
-/* Emit insn(s) of given code and pattern
- at a specified place within the doubly-linked list.
-
- All of the emit_foo global entry points accept an object
- X which is either an insn list or a PATTERN of a single
- instruction.
-
- There are thus a few canonical ways to generate code and
- emit it at a specific place in the instruction stream. For
- example, consider the instruction named SPOT and the fact that
- we would like to emit some instructions before SPOT. We might
- do it like this:
-
- start_sequence ();
- ... emit the new instructions ...
- insns_head = get_insns ();
- end_sequence ();
-
- emit_insn_before (insns_head, SPOT);
-
- It used to be common to generate SEQUENCE rtl instead, but that
- is a relic of the past which no longer occurs. The reason is that
- SEQUENCE rtl results in much fragmented RTL memory since the SEQUENCE
- generated would almost certainly die right after it was created. */
-
-static rtx_insn *
-emit_pattern_before_noloc (rtx x, rtx_insn *before, rtx_insn *last,
- basic_block bb,
- rtx_insn *(*make_raw) (rtx))
-{
- rtx_insn *insn;
-
- gcc_assert (before);
-
- if (x == NULL_RTX)
- return last;
-
- switch (GET_CODE (x))
- {
- case DEBUG_INSN:
- case INSN:
- case JUMP_INSN:
- case CALL_INSN:
- case CODE_LABEL:
- case BARRIER:
- case NOTE:
- insn = as_a <rtx_insn *> (x);
- while (insn)
- {
- rtx_insn *next = NEXT_INSN (insn);
- add_insn_before (insn, before, bb);
- last = insn;
- insn = next;
- }
- break;
-
-#ifdef ENABLE_RTL_CHECKING
- case SEQUENCE:
- gcc_unreachable ();
- break;
-#endif
-
- default:
- last = (*make_raw) (x);
- add_insn_before (last, before, bb);
- break;
- }
-
- return last;
-}
-
-/* Make X be output before the instruction BEFORE. */
-
-rtx_insn *
-emit_insn_before_noloc (rtx x, rtx_insn *before, basic_block bb)
-{
- return emit_pattern_before_noloc (x, before, before, bb, make_insn_raw);
-}
-
-/* Make an instruction with body X and code JUMP_INSN
- and output it before the instruction BEFORE. */
-
-rtx_jump_insn *
-emit_jump_insn_before_noloc (rtx x, rtx_insn *before)
-{
- return as_a <rtx_jump_insn *> (
- emit_pattern_before_noloc (x, before, NULL, NULL,
- make_jump_insn_raw));
-}
-
-/* Make an instruction with body X and code CALL_INSN
- and output it before the instruction BEFORE. */
-
-rtx_insn *
-emit_call_insn_before_noloc (rtx x, rtx_insn *before)
-{
- return emit_pattern_before_noloc (x, before, NULL, NULL,
- make_call_insn_raw);
-}
-
-/* Make an instruction with body X and code DEBUG_INSN
- and output it before the instruction BEFORE. */
-
-rtx_insn *
-emit_debug_insn_before_noloc (rtx x, rtx_insn *before)
-{
- return emit_pattern_before_noloc (x, before, NULL, NULL,
- make_debug_insn_raw);
-}
-
-/* Make an insn of code BARRIER
- and output it before the insn BEFORE. */
-
-rtx_barrier *
-emit_barrier_before (rtx_insn *before)
-{
- rtx_barrier *insn = as_a <rtx_barrier *> (rtx_alloc (BARRIER));
-
- INSN_UID (insn) = cur_insn_uid++;
-
- add_insn_before (insn, before, NULL);
- return insn;
-}
-
-/* Emit the label LABEL before the insn BEFORE. */
-
-rtx_code_label *
-emit_label_before (rtx_code_label *label, rtx_insn *before)
-{
- gcc_checking_assert (INSN_UID (label) == 0);
- INSN_UID (label) = cur_insn_uid++;
- add_insn_before (label, before, NULL);
- return label;
-}
-
-/* Helper for emit_insn_after, handles lists of instructions
- efficiently. */
-
-static rtx_insn *
-emit_insn_after_1 (rtx_insn *first, rtx_insn *after, basic_block bb)
-{
- rtx_insn *last;
- rtx_insn *after_after;
- if (!bb && !BARRIER_P (after))
- bb = BLOCK_FOR_INSN (after);
-
- if (bb)
- {
- df_set_bb_dirty (bb);
- for (last = first; NEXT_INSN (last); last = NEXT_INSN (last))
- if (!BARRIER_P (last))
- {
- set_block_for_insn (last, bb);
- df_insn_rescan (last);
- }
- if (!BARRIER_P (last))
- {
- set_block_for_insn (last, bb);
- df_insn_rescan (last);
- }
- if (BB_END (bb) == after)
- BB_END (bb) = last;
- }
- else
- for (last = first; NEXT_INSN (last); last = NEXT_INSN (last))
- continue;
-
- after_after = NEXT_INSN (after);
-
- SET_NEXT_INSN (after) = first;
- SET_PREV_INSN (first) = after;
- SET_NEXT_INSN (last) = after_after;
- if (after_after)
- SET_PREV_INSN (after_after) = last;
-
- if (after == get_last_insn ())
- set_last_insn (last);
-
- return last;
-}
-
-static rtx_insn *
-emit_pattern_after_noloc (rtx x, rtx_insn *after, basic_block bb,
- rtx_insn *(*make_raw)(rtx))
-{
- rtx_insn *last = after;
-
- gcc_assert (after);
-
- if (x == NULL_RTX)
- return last;
-
- switch (GET_CODE (x))
- {
- case DEBUG_INSN:
- case INSN:
- case JUMP_INSN:
- case CALL_INSN:
- case CODE_LABEL:
- case BARRIER:
- case NOTE:
- last = emit_insn_after_1 (as_a <rtx_insn *> (x), after, bb);
- break;
-
-#ifdef ENABLE_RTL_CHECKING
- case SEQUENCE:
- gcc_unreachable ();
- break;
-#endif
-
- default:
- last = (*make_raw) (x);
- add_insn_after (last, after, bb);
- break;
- }
-
- return last;
-}
-
-/* Make X be output after the insn AFTER and set the BB of insn. If
- BB is NULL, an attempt is made to infer the BB from AFTER. */
-
-rtx_insn *
-emit_insn_after_noloc (rtx x, rtx_insn *after, basic_block bb)
-{
- return emit_pattern_after_noloc (x, after, bb, make_insn_raw);
-}
-
-
-/* Make an insn of code JUMP_INSN with body X
- and output it after the insn AFTER. */
-
-rtx_jump_insn *
-emit_jump_insn_after_noloc (rtx x, rtx_insn *after)
-{
- return as_a <rtx_jump_insn *> (
- emit_pattern_after_noloc (x, after, NULL, make_jump_insn_raw));
-}
-
-/* Make an instruction with body X and code CALL_INSN
- and output it after the instruction AFTER. */
-
-rtx_insn *
-emit_call_insn_after_noloc (rtx x, rtx_insn *after)
-{
- return emit_pattern_after_noloc (x, after, NULL, make_call_insn_raw);
-}
-
-/* Make an instruction with body X and code CALL_INSN
- and output it after the instruction AFTER. */
-
-rtx_insn *
-emit_debug_insn_after_noloc (rtx x, rtx_insn *after)
-{
- return emit_pattern_after_noloc (x, after, NULL, make_debug_insn_raw);
-}
-
-/* Make an insn of code BARRIER
- and output it after the insn AFTER. */
-
-rtx_barrier *
-emit_barrier_after (rtx_insn *after)
-{
- rtx_barrier *insn = as_a <rtx_barrier *> (rtx_alloc (BARRIER));
-
- INSN_UID (insn) = cur_insn_uid++;
-
- add_insn_after (insn, after, NULL);
- return insn;
-}
-
-/* Emit the label LABEL after the insn AFTER. */
-
-rtx_insn *
-emit_label_after (rtx_insn *label, rtx_insn *after)
-{
- gcc_checking_assert (INSN_UID (label) == 0);
- INSN_UID (label) = cur_insn_uid++;
- add_insn_after (label, after, NULL);
- return label;
-}
-
-/* Notes require a bit of special handling: Some notes need to have their
- BLOCK_FOR_INSN set, others should never have it set, and some should
- have it set or clear depending on the context. */
-
-/* Return true iff a note of kind SUBTYPE should be emitted with routines
- that never set BLOCK_FOR_INSN on NOTE. BB_BOUNDARY is true if the
- caller is asked to emit a note before BB_HEAD, or after BB_END. */
-
-static bool
-note_outside_basic_block_p (enum insn_note subtype, bool on_bb_boundary_p)
-{
- switch (subtype)
- {
- /* NOTE_INSN_SWITCH_TEXT_SECTIONS only appears between basic blocks. */
- case NOTE_INSN_SWITCH_TEXT_SECTIONS:
- return true;
-
- /* Notes for var tracking and EH region markers can appear between or
- inside basic blocks. If the caller is emitting on the basic block
- boundary, do not set BLOCK_FOR_INSN on the new note. */
- case NOTE_INSN_VAR_LOCATION:
- case NOTE_INSN_EH_REGION_BEG:
- case NOTE_INSN_EH_REGION_END:
- return on_bb_boundary_p;
-
- /* Otherwise, BLOCK_FOR_INSN must be set. */
- default:
- return false;
- }
-}
-
-/* Emit a note of subtype SUBTYPE after the insn AFTER. */
-
-rtx_note *
-emit_note_after (enum insn_note subtype, rtx_insn *after)
-{
- rtx_note *note = make_note_raw (subtype);
- basic_block bb = BARRIER_P (after) ? NULL : BLOCK_FOR_INSN (after);
- bool on_bb_boundary_p = (bb != NULL && BB_END (bb) == after);
-
- if (note_outside_basic_block_p (subtype, on_bb_boundary_p))
- add_insn_after_nobb (note, after);
- else
- add_insn_after (note, after, bb);
- return note;
-}
-
-/* Emit a note of subtype SUBTYPE before the insn BEFORE. */
-
-rtx_note *
-emit_note_before (enum insn_note subtype, rtx_insn *before)
-{
- rtx_note *note = make_note_raw (subtype);
- basic_block bb = BARRIER_P (before) ? NULL : BLOCK_FOR_INSN (before);
- bool on_bb_boundary_p = (bb != NULL && BB_HEAD (bb) == before);
-
- if (note_outside_basic_block_p (subtype, on_bb_boundary_p))
- add_insn_before_nobb (note, before);
- else
- add_insn_before (note, before, bb);
- return note;
-}
-
-/* Insert PATTERN after AFTER, setting its INSN_LOCATION to LOC.
- MAKE_RAW indicates how to turn PATTERN into a real insn. */
-
-static rtx_insn *
-emit_pattern_after_setloc (rtx pattern, rtx_insn *after, location_t loc,
- rtx_insn *(*make_raw) (rtx))
-{
- rtx_insn *last = emit_pattern_after_noloc (pattern, after, NULL, make_raw);
-
- if (pattern == NULL_RTX || !loc)
- return last;
-
- after = NEXT_INSN (after);
- while (1)
- {
- if (active_insn_p (after)
- && !JUMP_TABLE_DATA_P (after) /* FIXME */
- && !INSN_LOCATION (after))
- INSN_LOCATION (after) = loc;
- if (after == last)
- break;
- after = NEXT_INSN (after);
- }
- return last;
-}
-
-/* Insert PATTERN after AFTER. MAKE_RAW indicates how to turn PATTERN
- into a real insn. SKIP_DEBUG_INSNS indicates whether to insert after
- any DEBUG_INSNs. */
-
-static rtx_insn *
-emit_pattern_after (rtx pattern, rtx_insn *after, bool skip_debug_insns,
- rtx_insn *(*make_raw) (rtx))
-{
- rtx_insn *prev = after;
-
- if (skip_debug_insns)
- while (DEBUG_INSN_P (prev))
- prev = PREV_INSN (prev);
-
- if (INSN_P (prev))
- return emit_pattern_after_setloc (pattern, after, INSN_LOCATION (prev),
- make_raw);
- else
- return emit_pattern_after_noloc (pattern, after, NULL, make_raw);
-}
-
-/* Like emit_insn_after_noloc, but set INSN_LOCATION according to LOC. */
-rtx_insn *
-emit_insn_after_setloc (rtx pattern, rtx_insn *after, location_t loc)
-{
- return emit_pattern_after_setloc (pattern, after, loc, make_insn_raw);
-}
-
-/* Like emit_insn_after_noloc, but set INSN_LOCATION according to AFTER. */
-rtx_insn *
-emit_insn_after (rtx pattern, rtx_insn *after)
-{
- return emit_pattern_after (pattern, after, true, make_insn_raw);
-}
-
-/* Like emit_jump_insn_after_noloc, but set INSN_LOCATION according to LOC. */
-rtx_jump_insn *
-emit_jump_insn_after_setloc (rtx pattern, rtx_insn *after, location_t loc)
-{
- return as_a <rtx_jump_insn *> (
- emit_pattern_after_setloc (pattern, after, loc, make_jump_insn_raw));
-}
-
-/* Like emit_jump_insn_after_noloc, but set INSN_LOCATION according to AFTER. */
-rtx_jump_insn *
-emit_jump_insn_after (rtx pattern, rtx_insn *after)
-{
- return as_a <rtx_jump_insn *> (
- emit_pattern_after (pattern, after, true, make_jump_insn_raw));
-}
-
-/* Like emit_call_insn_after_noloc, but set INSN_LOCATION according to LOC. */
-rtx_insn *
-emit_call_insn_after_setloc (rtx pattern, rtx_insn *after, location_t loc)
-{
- return emit_pattern_after_setloc (pattern, after, loc, make_call_insn_raw);
-}
-
-/* Like emit_call_insn_after_noloc, but set INSN_LOCATION according to AFTER. */
-rtx_insn *
-emit_call_insn_after (rtx pattern, rtx_insn *after)
-{
- return emit_pattern_after (pattern, after, true, make_call_insn_raw);
-}
-
-/* Like emit_debug_insn_after_noloc, but set INSN_LOCATION according to LOC. */
-rtx_insn *
-emit_debug_insn_after_setloc (rtx pattern, rtx_insn *after, location_t loc)
-{
- return emit_pattern_after_setloc (pattern, after, loc, make_debug_insn_raw);
-}
-
-/* Like emit_debug_insn_after_noloc, but set INSN_LOCATION according to AFTER. */
-rtx_insn *
-emit_debug_insn_after (rtx pattern, rtx_insn *after)
-{
- return emit_pattern_after (pattern, after, false, make_debug_insn_raw);
-}
-
-/* Insert PATTERN before BEFORE, setting its INSN_LOCATION to LOC.
- MAKE_RAW indicates how to turn PATTERN into a real insn. INSNP
- indicates if PATTERN is meant for an INSN as opposed to a JUMP_INSN,
- CALL_INSN, etc. */
-
-static rtx_insn *
-emit_pattern_before_setloc (rtx pattern, rtx_insn *before, location_t loc,
- bool insnp, rtx_insn *(*make_raw) (rtx))
-{
- rtx_insn *first = PREV_INSN (before);
- rtx_insn *last = emit_pattern_before_noloc (pattern, before,
- insnp ? before : NULL,
- NULL, make_raw);
-
- if (pattern == NULL_RTX || !loc)
- return last;
-
- if (!first)
- first = get_insns ();
- else
- first = NEXT_INSN (first);
- while (1)
- {
- if (active_insn_p (first)
- && !JUMP_TABLE_DATA_P (first) /* FIXME */
- && !INSN_LOCATION (first))
- INSN_LOCATION (first) = loc;
- if (first == last)
- break;
- first = NEXT_INSN (first);
- }
- return last;
-}
-
-/* Insert PATTERN before BEFORE. MAKE_RAW indicates how to turn PATTERN
- into a real insn. SKIP_DEBUG_INSNS indicates whether to insert
- before any DEBUG_INSNs. INSNP indicates if PATTERN is meant for an
- INSN as opposed to a JUMP_INSN, CALL_INSN, etc. */
-
-static rtx_insn *
-emit_pattern_before (rtx pattern, rtx_insn *before, bool skip_debug_insns,
- bool insnp, rtx_insn *(*make_raw) (rtx))
-{
- rtx_insn *next = before;
-
- if (skip_debug_insns)
- while (DEBUG_INSN_P (next))
- next = PREV_INSN (next);
-
- if (INSN_P (next))
- return emit_pattern_before_setloc (pattern, before, INSN_LOCATION (next),
- insnp, make_raw);
- else
- return emit_pattern_before_noloc (pattern, before,
- insnp ? before : NULL,
- NULL, make_raw);
-}
-
-/* Like emit_insn_before_noloc, but set INSN_LOCATION according to LOC. */
-rtx_insn *
-emit_insn_before_setloc (rtx pattern, rtx_insn *before, location_t loc)
-{
- return emit_pattern_before_setloc (pattern, before, loc, true,
- make_insn_raw);
-}
-
-/* Like emit_insn_before_noloc, but set INSN_LOCATION according to BEFORE. */
-rtx_insn *
-emit_insn_before (rtx pattern, rtx_insn *before)
-{
- return emit_pattern_before (pattern, before, true, true, make_insn_raw);
-}
-
-/* like emit_insn_before_noloc, but set INSN_LOCATION according to LOC. */
-rtx_jump_insn *
-emit_jump_insn_before_setloc (rtx pattern, rtx_insn *before, location_t loc)
-{
- return as_a <rtx_jump_insn *> (
- emit_pattern_before_setloc (pattern, before, loc, false,
- make_jump_insn_raw));
-}
-
-/* Like emit_jump_insn_before_noloc, but set INSN_LOCATION according to BEFORE. */
-rtx_jump_insn *
-emit_jump_insn_before (rtx pattern, rtx_insn *before)
-{
- return as_a <rtx_jump_insn *> (
- emit_pattern_before (pattern, before, true, false,
- make_jump_insn_raw));
-}
-
-/* Like emit_insn_before_noloc, but set INSN_LOCATION according to LOC. */
-rtx_insn *
-emit_call_insn_before_setloc (rtx pattern, rtx_insn *before, location_t loc)
-{
- return emit_pattern_before_setloc (pattern, before, loc, false,
- make_call_insn_raw);
-}
-
-/* Like emit_call_insn_before_noloc,
- but set insn_location according to BEFORE. */
-rtx_insn *
-emit_call_insn_before (rtx pattern, rtx_insn *before)
-{
- return emit_pattern_before (pattern, before, true, false,
- make_call_insn_raw);
-}
-
-/* Like emit_insn_before_noloc, but set INSN_LOCATION according to LOC. */
-rtx_insn *
-emit_debug_insn_before_setloc (rtx pattern, rtx_insn *before, location_t loc)
-{
- return emit_pattern_before_setloc (pattern, before, loc, false,
- make_debug_insn_raw);
-}
-
-/* Like emit_debug_insn_before_noloc,
- but set insn_location according to BEFORE. */
-rtx_insn *
-emit_debug_insn_before (rtx pattern, rtx_insn *before)
-{
- return emit_pattern_before (pattern, before, false, false,
- make_debug_insn_raw);
-}
-
-/* Take X and emit it at the end of the doubly-linked
- INSN list.
-
- Returns the last insn emitted. */
-
-rtx_insn *
-emit_insn (rtx x)
-{
- rtx_insn *last = get_last_insn ();
- rtx_insn *insn;
-
- if (x == NULL_RTX)
- return last;
-
- switch (GET_CODE (x))
- {
- case DEBUG_INSN:
- case INSN:
- case JUMP_INSN:
- case CALL_INSN:
- case CODE_LABEL:
- case BARRIER:
- case NOTE:
- insn = as_a <rtx_insn *> (x);
- while (insn)
- {
- rtx_insn *next = NEXT_INSN (insn);
- add_insn (insn);
- last = insn;
- insn = next;
- }
- break;
-
-#ifdef ENABLE_RTL_CHECKING
- case JUMP_TABLE_DATA:
- case SEQUENCE:
- gcc_unreachable ();
- break;
-#endif
-
- default:
- last = make_insn_raw (x);
- add_insn (last);
- break;
- }
-
- return last;
-}
-
-/* Make an insn of code DEBUG_INSN with pattern X
- and add it to the end of the doubly-linked list. */
-
-rtx_insn *
-emit_debug_insn (rtx x)
-{
- rtx_insn *last = get_last_insn ();
- rtx_insn *insn;
-
- if (x == NULL_RTX)
- return last;
-
- switch (GET_CODE (x))
- {
- case DEBUG_INSN:
- case INSN:
- case JUMP_INSN:
- case CALL_INSN:
- case CODE_LABEL:
- case BARRIER:
- case NOTE:
- insn = as_a <rtx_insn *> (x);
- while (insn)
- {
- rtx_insn *next = NEXT_INSN (insn);
- add_insn (insn);
- last = insn;
- insn = next;
- }
- break;
-
-#ifdef ENABLE_RTL_CHECKING
- case JUMP_TABLE_DATA:
- case SEQUENCE:
- gcc_unreachable ();
- break;
-#endif
-
- default:
- last = make_debug_insn_raw (x);
- add_insn (last);
- break;
- }
-
- return last;
-}
-
-/* Make an insn of code JUMP_INSN with pattern X
- and add it to the end of the doubly-linked list. */
-
-rtx_insn *
-emit_jump_insn (rtx x)
-{
- rtx_insn *last = NULL;
- rtx_insn *insn;
-
- switch (GET_CODE (x))
- {
- case DEBUG_INSN:
- case INSN:
- case JUMP_INSN:
- case CALL_INSN:
- case CODE_LABEL:
- case BARRIER:
- case NOTE:
- insn = as_a <rtx_insn *> (x);
- while (insn)
- {
- rtx_insn *next = NEXT_INSN (insn);
- add_insn (insn);
- last = insn;
- insn = next;
- }
- break;
-
-#ifdef ENABLE_RTL_CHECKING
- case JUMP_TABLE_DATA:
- case SEQUENCE:
- gcc_unreachable ();
- break;
-#endif
-
- default:
- last = make_jump_insn_raw (x);
- add_insn (last);
- break;
- }
-
- return last;
-}
-
-/* Make an insn of code CALL_INSN with pattern X
- and add it to the end of the doubly-linked list. */
-
-rtx_insn *
-emit_call_insn (rtx x)
-{
- rtx_insn *insn;
-
- switch (GET_CODE (x))
- {
- case DEBUG_INSN:
- case INSN:
- case JUMP_INSN:
- case CALL_INSN:
- case CODE_LABEL:
- case BARRIER:
- case NOTE:
- insn = emit_insn (x);
- break;
-
-#ifdef ENABLE_RTL_CHECKING
- case SEQUENCE:
- case JUMP_TABLE_DATA:
- gcc_unreachable ();
- break;
-#endif
-
- default:
- insn = make_call_insn_raw (x);
- add_insn (insn);
- break;
- }
-
- return insn;
-}
-
-/* Add the label LABEL to the end of the doubly-linked list. */
-
-rtx_code_label *
-emit_label (rtx uncast_label)
-{
- rtx_code_label *label = as_a <rtx_code_label *> (uncast_label);
-
- gcc_checking_assert (INSN_UID (label) == 0);
- INSN_UID (label) = cur_insn_uid++;
- add_insn (label);
- return label;
-}
-
-/* Make an insn of code JUMP_TABLE_DATA
- and add it to the end of the doubly-linked list. */
-
-rtx_jump_table_data *
-emit_jump_table_data (rtx table)
-{
- rtx_jump_table_data *jump_table_data =
- as_a <rtx_jump_table_data *> (rtx_alloc (JUMP_TABLE_DATA));
- INSN_UID (jump_table_data) = cur_insn_uid++;
- PATTERN (jump_table_data) = table;
- BLOCK_FOR_INSN (jump_table_data) = NULL;
- add_insn (jump_table_data);
- return jump_table_data;
-}
-
-/* Make an insn of code BARRIER
- and add it to the end of the doubly-linked list. */
-
-rtx_barrier *
-emit_barrier (void)
-{
- rtx_barrier *barrier = as_a <rtx_barrier *> (rtx_alloc (BARRIER));
- INSN_UID (barrier) = cur_insn_uid++;
- add_insn (barrier);
- return barrier;
-}
-
-/* Emit a copy of note ORIG. */
-
-rtx_note *
-emit_note_copy (rtx_note *orig)
-{
- enum insn_note kind = (enum insn_note) NOTE_KIND (orig);
- rtx_note *note = make_note_raw (kind);
- NOTE_DATA (note) = NOTE_DATA (orig);
- add_insn (note);
- return note;
-}
-
-/* Make an insn of code NOTE or type NOTE_NO
- and add it to the end of the doubly-linked list. */
-
-rtx_note *
-emit_note (enum insn_note kind)
-{
- rtx_note *note = make_note_raw (kind);
- add_insn (note);
- return note;
-}
-
-/* Emit a clobber of lvalue X. */
-
-rtx_insn *
-emit_clobber (rtx x)
-{
- /* CONCATs should not appear in the insn stream. */
- if (GET_CODE (x) == CONCAT)
- {
- emit_clobber (XEXP (x, 0));
- return emit_clobber (XEXP (x, 1));
- }
- return emit_insn (gen_rtx_CLOBBER (VOIDmode, x));
-}
-
-/* Return a sequence of insns to clobber lvalue X. */
-
-rtx_insn *
-gen_clobber (rtx x)
-{
- rtx_insn *seq;
-
- start_sequence ();
- emit_clobber (x);
- seq = get_insns ();
- end_sequence ();
- return seq;
-}
-
-/* Emit a use of rvalue X. */
-
-rtx_insn *
-emit_use (rtx x)
-{
- /* CONCATs should not appear in the insn stream. */
- if (GET_CODE (x) == CONCAT)
- {
- emit_use (XEXP (x, 0));
- return emit_use (XEXP (x, 1));
- }
- return emit_insn (gen_rtx_USE (VOIDmode, x));
-}
-
-/* Return a sequence of insns to use rvalue X. */
-
-rtx_insn *
-gen_use (rtx x)
-{
- rtx_insn *seq;
-
- start_sequence ();
- emit_use (x);
- seq = get_insns ();
- end_sequence ();
- return seq;
-}
-
-/* Notes like REG_EQUAL and REG_EQUIV refer to a set in an instruction.
- Return the set in INSN that such notes describe, or NULL if the notes
- have no meaning for INSN. */
-
-rtx
-set_for_reg_notes (rtx insn)
-{
- rtx pat, reg;
-
- if (!INSN_P (insn))
- return NULL_RTX;
-
- pat = PATTERN (insn);
- if (GET_CODE (pat) == PARALLEL)
- {
- /* We do not use single_set because that ignores SETs of unused
- registers. REG_EQUAL and REG_EQUIV notes really do require the
- PARALLEL to have a single SET. */
- if (multiple_sets (insn))
- return NULL_RTX;
- pat = XVECEXP (pat, 0, 0);
- }
-
- if (GET_CODE (pat) != SET)
- return NULL_RTX;
-
- reg = SET_DEST (pat);
-
- /* Notes apply to the contents of a STRICT_LOW_PART. */
- if (GET_CODE (reg) == STRICT_LOW_PART
- || GET_CODE (reg) == ZERO_EXTRACT)
- reg = XEXP (reg, 0);
-
- /* Check that we have a register. */
- if (!(REG_P (reg) || GET_CODE (reg) == SUBREG))
- return NULL_RTX;
-
- return pat;
-}
-
-/* Place a note of KIND on insn INSN with DATUM as the datum. If a
- note of this type already exists, remove it first. */
-
-rtx
-set_unique_reg_note (rtx insn, enum reg_note kind, rtx datum)
-{
- rtx note = find_reg_note (insn, kind, NULL_RTX);
-
- switch (kind)
- {
- case REG_EQUAL:
- case REG_EQUIV:
- /* We need to support the REG_EQUAL on USE trick of find_reloads. */
- if (!set_for_reg_notes (insn) && GET_CODE (PATTERN (insn)) != USE)
- return NULL_RTX;
-
- /* Don't add ASM_OPERAND REG_EQUAL/REG_EQUIV notes.
- It serves no useful purpose and breaks eliminate_regs. */
- if (GET_CODE (datum) == ASM_OPERANDS)
- return NULL_RTX;
-
- /* Notes with side effects are dangerous. Even if the side-effect
- initially mirrors one in PATTERN (INSN), later optimizations
- might alter the way that the final register value is calculated
- and so move or alter the side-effect in some way. The note would
- then no longer be a valid substitution for SET_SRC. */
- if (side_effects_p (datum))
- return NULL_RTX;
- break;
-
- default:
- break;
- }
-
- if (note)
- XEXP (note, 0) = datum;
- else
- {
- add_reg_note (insn, kind, datum);
- note = REG_NOTES (insn);
- }
-
- switch (kind)
- {
- case REG_EQUAL:
- case REG_EQUIV:
- df_notes_rescan (as_a <rtx_insn *> (insn));
- break;
- default:
- break;
- }
-
- return note;
-}
-
-/* Like set_unique_reg_note, but don't do anything unless INSN sets DST. */
-rtx
-set_dst_reg_note (rtx insn, enum reg_note kind, rtx datum, rtx dst)
-{
- rtx set = set_for_reg_notes (insn);
-
- if (set && SET_DEST (set) == dst)
- return set_unique_reg_note (insn, kind, datum);
- return NULL_RTX;
-}
-
-/* Emit the rtl pattern X as an appropriate kind of insn. Also emit a
- following barrier if the instruction needs one and if ALLOW_BARRIER_P
- is true.
-
- If X is a label, it is simply added into the insn chain. */
-
-rtx_insn *
-emit (rtx x, bool allow_barrier_p)
-{
- enum rtx_code code = classify_insn (x);
-
- switch (code)
- {
- case CODE_LABEL:
- return emit_label (x);
- case INSN:
- return emit_insn (x);
- case JUMP_INSN:
- {
- rtx_insn *insn = emit_jump_insn (x);
- if (allow_barrier_p
- && (any_uncondjump_p (insn) || GET_CODE (x) == RETURN))
- return emit_barrier ();
- return insn;
- }
- case CALL_INSN:
- return emit_call_insn (x);
- case DEBUG_INSN:
- return emit_debug_insn (x);
- default:
- gcc_unreachable ();
- }
-}
-
-/* Space for free sequence stack entries. */
-static GTY ((deletable)) struct sequence_stack *free_sequence_stack;
-
-/* Begin emitting insns to a sequence. If this sequence will contain
- something that might cause the compiler to pop arguments to function
- calls (because those pops have previously been deferred; see
- INHIBIT_DEFER_POP for more details), use do_pending_stack_adjust
- before calling this function. That will ensure that the deferred
- pops are not accidentally emitted in the middle of this sequence. */
-
-void
-start_sequence (void)
-{
- struct sequence_stack *tem;
-
- if (free_sequence_stack != NULL)
- {
- tem = free_sequence_stack;
- free_sequence_stack = tem->next;
- }
- else
- tem = ggc_alloc<sequence_stack> ();
-
- tem->next = get_current_sequence ()->next;
- tem->first = get_insns ();
- tem->last = get_last_insn ();
- get_current_sequence ()->next = tem;
-
- set_first_insn (0);
- set_last_insn (0);
-}
-
-/* Set up the insn chain starting with FIRST as the current sequence,
- saving the previously current one. See the documentation for
- start_sequence for more information about how to use this function. */
-
-void
-push_to_sequence (rtx_insn *first)
-{
- rtx_insn *last;
-
- start_sequence ();
-
- for (last = first; last && NEXT_INSN (last); last = NEXT_INSN (last))
- ;
-
- set_first_insn (first);
- set_last_insn (last);
-}
-
-/* Like push_to_sequence, but take the last insn as an argument to avoid
- looping through the list. */
-
-void
-push_to_sequence2 (rtx_insn *first, rtx_insn *last)
-{
- start_sequence ();
-
- set_first_insn (first);
- set_last_insn (last);
-}
-
-/* Set up the outer-level insn chain
- as the current sequence, saving the previously current one. */
-
-void
-push_topmost_sequence (void)
-{
- struct sequence_stack *top;
-
- start_sequence ();
-
- top = get_topmost_sequence ();
- set_first_insn (top->first);
- set_last_insn (top->last);
-}
-
-/* After emitting to the outer-level insn chain, update the outer-level
- insn chain, and restore the previous saved state. */
-
-void
-pop_topmost_sequence (void)
-{
- struct sequence_stack *top;
-
- top = get_topmost_sequence ();
- top->first = get_insns ();
- top->last = get_last_insn ();
-
- end_sequence ();
-}
-
-/* After emitting to a sequence, restore previous saved state.
-
- To get the contents of the sequence just made, you must call
- `get_insns' *before* calling here.
-
- If the compiler might have deferred popping arguments while
- generating this sequence, and this sequence will not be immediately
- inserted into the instruction stream, use do_pending_stack_adjust
- before calling get_insns. That will ensure that the deferred
- pops are inserted into this sequence, and not into some random
- location in the instruction stream. See INHIBIT_DEFER_POP for more
- information about deferred popping of arguments. */
-
-void
-end_sequence (void)
-{
- struct sequence_stack *tem = get_current_sequence ()->next;
-
- set_first_insn (tem->first);
- set_last_insn (tem->last);
- get_current_sequence ()->next = tem->next;
-
- memset (tem, 0, sizeof (*tem));
- tem->next = free_sequence_stack;
- free_sequence_stack = tem;
-}
-
-/* Return 1 if currently emitting into a sequence. */
-
-int
-in_sequence_p (void)
-{
- return get_current_sequence ()->next != 0;
-}
-
-/* Put the various virtual registers into REGNO_REG_RTX. */
-
-static void
-init_virtual_regs (void)
-{
- regno_reg_rtx[VIRTUAL_INCOMING_ARGS_REGNUM] = virtual_incoming_args_rtx;
- regno_reg_rtx[VIRTUAL_STACK_VARS_REGNUM] = virtual_stack_vars_rtx;
- regno_reg_rtx[VIRTUAL_STACK_DYNAMIC_REGNUM] = virtual_stack_dynamic_rtx;
- regno_reg_rtx[VIRTUAL_OUTGOING_ARGS_REGNUM] = virtual_outgoing_args_rtx;
- regno_reg_rtx[VIRTUAL_CFA_REGNUM] = virtual_cfa_rtx;
- regno_reg_rtx[VIRTUAL_PREFERRED_STACK_BOUNDARY_REGNUM]
- = virtual_preferred_stack_boundary_rtx;
-}
-
-
-/* Used by copy_insn_1 to avoid copying SCRATCHes more than once. */
-static rtx copy_insn_scratch_in[MAX_RECOG_OPERANDS];
-static rtx copy_insn_scratch_out[MAX_RECOG_OPERANDS];
-static int copy_insn_n_scratches;
-
-/* When an insn is being copied by copy_insn_1, this is nonzero if we have
- copied an ASM_OPERANDS.
- In that case, it is the original input-operand vector. */
-static rtvec orig_asm_operands_vector;
-
-/* When an insn is being copied by copy_insn_1, this is nonzero if we have
- copied an ASM_OPERANDS.
- In that case, it is the copied input-operand vector. */
-static rtvec copy_asm_operands_vector;
-
-/* Likewise for the constraints vector. */
-static rtvec orig_asm_constraints_vector;
-static rtvec copy_asm_constraints_vector;
-
-/* Recursively create a new copy of an rtx for copy_insn.
- This function differs from copy_rtx in that it handles SCRATCHes and
- ASM_OPERANDs properly.
- Normally, this function is not used directly; use copy_insn as front end.
- However, you could first copy an insn pattern with copy_insn and then use
- this function afterwards to properly copy any REG_NOTEs containing
- SCRATCHes. */
-
-rtx
-copy_insn_1 (rtx orig)
-{
- rtx copy;
- int i, j;
- RTX_CODE code;
- const char *format_ptr;
-
- if (orig == NULL)
- return NULL;
-
- code = GET_CODE (orig);
-
- switch (code)
- {
- case REG:
- case DEBUG_EXPR:
- CASE_CONST_ANY:
- case SYMBOL_REF:
- case CODE_LABEL:
- case PC:
- case RETURN:
- case SIMPLE_RETURN:
- return orig;
- case CLOBBER:
- /* Share clobbers of hard registers, but do not share pseudo reg
- clobbers or clobbers of hard registers that originated as pseudos.
- This is needed to allow safe register renaming. */
- if (REG_P (XEXP (orig, 0))
- && HARD_REGISTER_NUM_P (REGNO (XEXP (orig, 0)))
- && HARD_REGISTER_NUM_P (ORIGINAL_REGNO (XEXP (orig, 0))))
- return orig;
- break;
-
- case SCRATCH:
- for (i = 0; i < copy_insn_n_scratches; i++)
- if (copy_insn_scratch_in[i] == orig)
- return copy_insn_scratch_out[i];
- break;
-
- case CONST:
- if (shared_const_p (orig))
- return orig;
- break;
-
- /* A MEM with a constant address is not sharable. The problem is that
- the constant address may need to be reloaded. If the mem is shared,
- then reloading one copy of this mem will cause all copies to appear
- to have been reloaded. */
-
- default:
- break;
- }
-
- /* Copy the various flags, fields, and other information. We assume
- that all fields need copying, and then clear the fields that should
- not be copied. That is the sensible default behavior, and forces
- us to explicitly document why we are *not* copying a flag. */
- copy = shallow_copy_rtx (orig);
-
- /* We do not copy JUMP, CALL, or FRAME_RELATED for INSNs. */
- if (INSN_P (orig))
- {
- RTX_FLAG (copy, jump) = 0;
- RTX_FLAG (copy, call) = 0;
- RTX_FLAG (copy, frame_related) = 0;
- }
-
- format_ptr = GET_RTX_FORMAT (GET_CODE (copy));
-
- for (i = 0; i < GET_RTX_LENGTH (GET_CODE (copy)); i++)
- switch (*format_ptr++)
- {
- case 'e':
- if (XEXP (orig, i) != NULL)
- XEXP (copy, i) = copy_insn_1 (XEXP (orig, i));
- break;
-
- case 'E':
- case 'V':
- if (XVEC (orig, i) == orig_asm_constraints_vector)
- XVEC (copy, i) = copy_asm_constraints_vector;
- else if (XVEC (orig, i) == orig_asm_operands_vector)
- XVEC (copy, i) = copy_asm_operands_vector;
- else if (XVEC (orig, i) != NULL)
- {
- XVEC (copy, i) = rtvec_alloc (XVECLEN (orig, i));
- for (j = 0; j < XVECLEN (copy, i); j++)
- XVECEXP (copy, i, j) = copy_insn_1 (XVECEXP (orig, i, j));
- }
- break;
-
- case 't':
- case 'w':
- case 'i':
- case 'p':
- case 's':
- case 'S':
- case 'u':
- case '0':
- /* These are left unchanged. */
- break;
-
- default:
- gcc_unreachable ();
- }
-
- if (code == SCRATCH)
- {
- i = copy_insn_n_scratches++;
- gcc_assert (i < MAX_RECOG_OPERANDS);
- copy_insn_scratch_in[i] = orig;
- copy_insn_scratch_out[i] = copy;
- }
- else if (code == ASM_OPERANDS)
- {
- orig_asm_operands_vector = ASM_OPERANDS_INPUT_VEC (orig);
- copy_asm_operands_vector = ASM_OPERANDS_INPUT_VEC (copy);
- orig_asm_constraints_vector = ASM_OPERANDS_INPUT_CONSTRAINT_VEC (orig);
- copy_asm_constraints_vector = ASM_OPERANDS_INPUT_CONSTRAINT_VEC (copy);
- }
-
- return copy;
-}
-
-/* Create a new copy of an rtx.
- This function differs from copy_rtx in that it handles SCRATCHes and
- ASM_OPERANDs properly.
- INSN doesn't really have to be a full INSN; it could be just the
- pattern. */
-rtx
-copy_insn (rtx insn)
-{
- copy_insn_n_scratches = 0;
- orig_asm_operands_vector = 0;
- orig_asm_constraints_vector = 0;
- copy_asm_operands_vector = 0;
- copy_asm_constraints_vector = 0;
- return copy_insn_1 (insn);
-}
-
-/* Return a copy of INSN that can be used in a SEQUENCE delay slot,
- on that assumption that INSN itself remains in its original place. */
-
-rtx_insn *
-copy_delay_slot_insn (rtx_insn *insn)
-{
- /* Copy INSN with its rtx_code, all its notes, location etc. */
- insn = as_a <rtx_insn *> (copy_rtx (insn));
- INSN_UID (insn) = cur_insn_uid++;
- return insn;
-}
-
-/* Initialize data structures and variables in this file
- before generating rtl for each function. */
-
-void
-init_emit (void)
-{
- set_first_insn (NULL);
- set_last_insn (NULL);
- if (param_min_nondebug_insn_uid)
- cur_insn_uid = param_min_nondebug_insn_uid;
- else
- cur_insn_uid = 1;
- cur_debug_insn_uid = 1;
- reg_rtx_no = LAST_VIRTUAL_REGISTER + 1;
- first_label_num = label_num;
- get_current_sequence ()->next = NULL;
-
- /* Init the tables that describe all the pseudo regs. */
-
- crtl->emit.regno_pointer_align_length = LAST_VIRTUAL_REGISTER + 101;
-
- crtl->emit.regno_pointer_align
- = XCNEWVEC (unsigned char, crtl->emit.regno_pointer_align_length);
-
- regno_reg_rtx
- = ggc_cleared_vec_alloc<rtx> (crtl->emit.regno_pointer_align_length);
-
- /* Put copies of all the hard registers into regno_reg_rtx. */
- memcpy (regno_reg_rtx,
- initial_regno_reg_rtx,
- FIRST_PSEUDO_REGISTER * sizeof (rtx));
-
- /* Put copies of all the virtual register rtx into regno_reg_rtx. */
- init_virtual_regs ();
-
- /* Indicate that the virtual registers and stack locations are
- all pointers. */
- REG_POINTER (stack_pointer_rtx) = 1;
- REG_POINTER (frame_pointer_rtx) = 1;
- REG_POINTER (hard_frame_pointer_rtx) = 1;
- REG_POINTER (arg_pointer_rtx) = 1;
-
- REG_POINTER (virtual_incoming_args_rtx) = 1;
- REG_POINTER (virtual_stack_vars_rtx) = 1;
- REG_POINTER (virtual_stack_dynamic_rtx) = 1;
- REG_POINTER (virtual_outgoing_args_rtx) = 1;
- REG_POINTER (virtual_cfa_rtx) = 1;
-
-#ifdef STACK_BOUNDARY
- REGNO_POINTER_ALIGN (STACK_POINTER_REGNUM) = STACK_BOUNDARY;
- REGNO_POINTER_ALIGN (FRAME_POINTER_REGNUM) = STACK_BOUNDARY;
- REGNO_POINTER_ALIGN (HARD_FRAME_POINTER_REGNUM) = STACK_BOUNDARY;
- REGNO_POINTER_ALIGN (ARG_POINTER_REGNUM) = STACK_BOUNDARY;
-
- REGNO_POINTER_ALIGN (VIRTUAL_INCOMING_ARGS_REGNUM) = STACK_BOUNDARY;
- REGNO_POINTER_ALIGN (VIRTUAL_STACK_VARS_REGNUM) = STACK_BOUNDARY;
- REGNO_POINTER_ALIGN (VIRTUAL_STACK_DYNAMIC_REGNUM) = STACK_BOUNDARY;
- REGNO_POINTER_ALIGN (VIRTUAL_OUTGOING_ARGS_REGNUM) = STACK_BOUNDARY;
-
- REGNO_POINTER_ALIGN (VIRTUAL_CFA_REGNUM) = BITS_PER_WORD;
-#endif
-
-#ifdef INIT_EXPANDERS
- INIT_EXPANDERS;
-#endif
-}
-
-/* Return the value of element I of CONST_VECTOR X as a wide_int. */
-
-wide_int
-const_vector_int_elt (const_rtx x, unsigned int i)
-{
- /* First handle elements that are directly encoded. */
- machine_mode elt_mode = GET_MODE_INNER (GET_MODE (x));
- if (i < (unsigned int) XVECLEN (x, 0))
- return rtx_mode_t (CONST_VECTOR_ENCODED_ELT (x, i), elt_mode);
-
- /* Identify the pattern that contains element I and work out the index of
- the last encoded element for that pattern. */
- unsigned int encoded_nelts = const_vector_encoded_nelts (x);
- unsigned int npatterns = CONST_VECTOR_NPATTERNS (x);
- unsigned int count = i / npatterns;
- unsigned int pattern = i % npatterns;
- unsigned int final_i = encoded_nelts - npatterns + pattern;
-
- /* If there are no steps, the final encoded value is the right one. */
- if (!CONST_VECTOR_STEPPED_P (x))
- return rtx_mode_t (CONST_VECTOR_ENCODED_ELT (x, final_i), elt_mode);
-
- /* Otherwise work out the value from the last two encoded elements. */
- rtx v1 = CONST_VECTOR_ENCODED_ELT (x, final_i - npatterns);
- rtx v2 = CONST_VECTOR_ENCODED_ELT (x, final_i);
- wide_int diff = wi::sub (rtx_mode_t (v2, elt_mode),
- rtx_mode_t (v1, elt_mode));
- return wi::add (rtx_mode_t (v2, elt_mode), (count - 2) * diff);
-}
-
-/* Return the value of element I of CONST_VECTOR X. */
-
-rtx
-const_vector_elt (const_rtx x, unsigned int i)
-{
- /* First handle elements that are directly encoded. */
- if (i < (unsigned int) XVECLEN (x, 0))
- return CONST_VECTOR_ENCODED_ELT (x, i);
-
- /* If there are no steps, the final encoded value is the right one. */
- if (!CONST_VECTOR_STEPPED_P (x))
- {
- /* Identify the pattern that contains element I and work out the index of
- the last encoded element for that pattern. */
- unsigned int encoded_nelts = const_vector_encoded_nelts (x);
- unsigned int npatterns = CONST_VECTOR_NPATTERNS (x);
- unsigned int pattern = i % npatterns;
- unsigned int final_i = encoded_nelts - npatterns + pattern;
- return CONST_VECTOR_ENCODED_ELT (x, final_i);
- }
-
- /* Otherwise work out the value from the last two encoded elements. */
- return immed_wide_int_const (const_vector_int_elt (x, i),
- GET_MODE_INNER (GET_MODE (x)));
-}
-
-/* Return true if X is a valid element for a CONST_VECTOR of the given
- mode. */
-
-bool
-valid_for_const_vector_p (machine_mode, rtx x)
-{
- return (CONST_SCALAR_INT_P (x)
- || CONST_POLY_INT_P (x)
- || CONST_DOUBLE_AS_FLOAT_P (x)
- || CONST_FIXED_P (x));
-}
-
-/* Generate a vector constant of mode MODE in which every element has
- value ELT. */
-
-rtx
-gen_const_vec_duplicate (machine_mode mode, rtx elt)
-{
- rtx_vector_builder builder (mode, 1, 1);
- builder.quick_push (elt);
- return builder.build ();
-}
-
-/* Return a vector rtx of mode MODE in which every element has value X.
- The result will be a constant if X is constant. */
-
-rtx
-gen_vec_duplicate (machine_mode mode, rtx x)
-{
- if (valid_for_const_vector_p (mode, x))
- return gen_const_vec_duplicate (mode, x);
- return gen_rtx_VEC_DUPLICATE (mode, x);
-}
-
-/* A subroutine of const_vec_series_p that handles the case in which:
-
- (GET_CODE (X) == CONST_VECTOR
- && CONST_VECTOR_NPATTERNS (X) == 1
- && !CONST_VECTOR_DUPLICATE_P (X))
-
- is known to hold. */
-
-bool
-const_vec_series_p_1 (const_rtx x, rtx *base_out, rtx *step_out)
-{
- /* Stepped sequences are only defined for integers, to avoid specifying
- rounding behavior. */
- if (GET_MODE_CLASS (GET_MODE (x)) != MODE_VECTOR_INT)
- return false;
-
- /* A non-duplicated vector with two elements can always be seen as a
- series with a nonzero step. Longer vectors must have a stepped
- encoding. */
- if (maybe_ne (CONST_VECTOR_NUNITS (x), 2)
- && !CONST_VECTOR_STEPPED_P (x))
- return false;
-
- /* Calculate the step between the first and second elements. */
- scalar_mode inner = GET_MODE_INNER (GET_MODE (x));
- rtx base = CONST_VECTOR_ELT (x, 0);
- rtx step = simplify_binary_operation (MINUS, inner,
- CONST_VECTOR_ENCODED_ELT (x, 1), base);
- if (rtx_equal_p (step, CONST0_RTX (inner)))
- return false;
-
- /* If we have a stepped encoding, check that the step between the
- second and third elements is the same as STEP. */
- if (CONST_VECTOR_STEPPED_P (x))
- {
- rtx diff = simplify_binary_operation (MINUS, inner,
- CONST_VECTOR_ENCODED_ELT (x, 2),
- CONST_VECTOR_ENCODED_ELT (x, 1));
- if (!rtx_equal_p (step, diff))
- return false;
- }
-
- *base_out = base;
- *step_out = step;
- return true;
-}
-
-/* Generate a vector constant of mode MODE in which element I has
- the value BASE + I * STEP. */
-
-rtx
-gen_const_vec_series (machine_mode mode, rtx base, rtx step)
-{
- gcc_assert (valid_for_const_vector_p (mode, base)
- && valid_for_const_vector_p (mode, step));
-
- rtx_vector_builder builder (mode, 1, 3);
- builder.quick_push (base);
- for (int i = 1; i < 3; ++i)
- builder.quick_push (simplify_gen_binary (PLUS, GET_MODE_INNER (mode),
- builder[i - 1], step));
- return builder.build ();
-}
-
-/* Generate a vector of mode MODE in which element I has the value
- BASE + I * STEP. The result will be a constant if BASE and STEP
- are both constants. */
-
-rtx
-gen_vec_series (machine_mode mode, rtx base, rtx step)
-{
- if (step == const0_rtx)
- return gen_vec_duplicate (mode, base);
- if (valid_for_const_vector_p (mode, base)
- && valid_for_const_vector_p (mode, step))
- return gen_const_vec_series (mode, base, step);
- return gen_rtx_VEC_SERIES (mode, base, step);
-}
-
-/* Generate a new vector constant for mode MODE and constant value
- CONSTANT. */
-
-static rtx
-gen_const_vector (machine_mode mode, int constant)
-{
- machine_mode inner = GET_MODE_INNER (mode);
-
- gcc_assert (!DECIMAL_FLOAT_MODE_P (inner));
-
- rtx el = const_tiny_rtx[constant][(int) inner];
- gcc_assert (el);
-
- return gen_const_vec_duplicate (mode, el);
-}
-
-/* Generate a vector like gen_rtx_raw_CONST_VEC, but use the zero vector when
- all elements are zero, and the one vector when all elements are one. */
-rtx
-gen_rtx_CONST_VECTOR (machine_mode mode, rtvec v)
-{
- gcc_assert (known_eq (GET_MODE_NUNITS (mode), GET_NUM_ELEM (v)));
-
- /* If the values are all the same, check to see if we can use one of the
- standard constant vectors. */
- if (rtvec_all_equal_p (v))
- return gen_const_vec_duplicate (mode, RTVEC_ELT (v, 0));
-
- unsigned int nunits = GET_NUM_ELEM (v);
- rtx_vector_builder builder (mode, nunits, 1);
- for (unsigned int i = 0; i < nunits; ++i)
- builder.quick_push (RTVEC_ELT (v, i));
- return builder.build (v);
-}
-
-/* Initialise global register information required by all functions. */
-
-void
-init_emit_regs (void)
-{
- int i;
- machine_mode mode;
- mem_attrs *attrs;
-
- /* Reset register attributes */
- reg_attrs_htab->empty ();
-
- /* We need reg_raw_mode, so initialize the modes now. */
- init_reg_modes_target ();
-
- /* Assign register numbers to the globally defined register rtx. */
- stack_pointer_rtx = gen_raw_REG (Pmode, STACK_POINTER_REGNUM);
- frame_pointer_rtx = gen_raw_REG (Pmode, FRAME_POINTER_REGNUM);
- hard_frame_pointer_rtx = gen_raw_REG (Pmode, HARD_FRAME_POINTER_REGNUM);
- arg_pointer_rtx = gen_raw_REG (Pmode, ARG_POINTER_REGNUM);
- virtual_incoming_args_rtx =
- gen_raw_REG (Pmode, VIRTUAL_INCOMING_ARGS_REGNUM);
- virtual_stack_vars_rtx =
- gen_raw_REG (Pmode, VIRTUAL_STACK_VARS_REGNUM);
- virtual_stack_dynamic_rtx =
- gen_raw_REG (Pmode, VIRTUAL_STACK_DYNAMIC_REGNUM);
- virtual_outgoing_args_rtx =
- gen_raw_REG (Pmode, VIRTUAL_OUTGOING_ARGS_REGNUM);
- virtual_cfa_rtx = gen_raw_REG (Pmode, VIRTUAL_CFA_REGNUM);
- virtual_preferred_stack_boundary_rtx =
- gen_raw_REG (Pmode, VIRTUAL_PREFERRED_STACK_BOUNDARY_REGNUM);
-
- /* Initialize RTL for commonly used hard registers. These are
- copied into regno_reg_rtx as we begin to compile each function. */
- for (i = 0; i < FIRST_PSEUDO_REGISTER; i++)
- initial_regno_reg_rtx[i] = gen_raw_REG (reg_raw_mode[i], i);
-
-#ifdef RETURN_ADDRESS_POINTER_REGNUM
- return_address_pointer_rtx
- = gen_raw_REG (Pmode, RETURN_ADDRESS_POINTER_REGNUM);
-#endif
-
- pic_offset_table_rtx = NULL_RTX;
- if ((unsigned) PIC_OFFSET_TABLE_REGNUM != INVALID_REGNUM)
- pic_offset_table_rtx = gen_raw_REG (Pmode, PIC_OFFSET_TABLE_REGNUM);
-
- for (i = 0; i < (int) MAX_MACHINE_MODE; i++)
- {
- mode = (machine_mode) i;
- attrs = ggc_cleared_alloc<mem_attrs> ();
- attrs->align = BITS_PER_UNIT;
- attrs->addrspace = ADDR_SPACE_GENERIC;
- if (mode != BLKmode && mode != VOIDmode)
- {
- attrs->size_known_p = true;
- attrs->size = GET_MODE_SIZE (mode);
- if (STRICT_ALIGNMENT)
- attrs->align = GET_MODE_ALIGNMENT (mode);
- }
- mode_mem_attrs[i] = attrs;
- }
-
- split_branch_probability = profile_probability::uninitialized ();
-}
-
-/* Initialize global machine_mode variables. */
-
-void
-init_derived_machine_modes (void)
-{
- opt_scalar_int_mode mode_iter, opt_byte_mode, opt_word_mode;
- FOR_EACH_MODE_IN_CLASS (mode_iter, MODE_INT)
- {
- scalar_int_mode mode = mode_iter.require ();
-
- if (GET_MODE_BITSIZE (mode) == BITS_PER_UNIT
- && !opt_byte_mode.exists ())
- opt_byte_mode = mode;
-
- if (GET_MODE_BITSIZE (mode) == BITS_PER_WORD
- && !opt_word_mode.exists ())
- opt_word_mode = mode;
- }
-
- byte_mode = opt_byte_mode.require ();
- word_mode = opt_word_mode.require ();
- ptr_mode = as_a <scalar_int_mode>
- (mode_for_size (POINTER_SIZE, GET_MODE_CLASS (Pmode), 0).require ());
-}
-
-/* Create some permanent unique rtl objects shared between all functions. */
-
-void
-init_emit_once (void)
-{
- int i;
- machine_mode mode;
- scalar_float_mode double_mode;
- opt_scalar_mode smode_iter;
-
- /* Initialize the CONST_INT, CONST_WIDE_INT, CONST_DOUBLE,
- CONST_FIXED, and memory attribute hash tables. */
- const_int_htab = hash_table<const_int_hasher>::create_ggc (37);
-
-#if TARGET_SUPPORTS_WIDE_INT
- const_wide_int_htab = hash_table<const_wide_int_hasher>::create_ggc (37);
-#endif
- const_double_htab = hash_table<const_double_hasher>::create_ggc (37);
-
- if (NUM_POLY_INT_COEFFS > 1)
- const_poly_int_htab = hash_table<const_poly_int_hasher>::create_ggc (37);
-
- const_fixed_htab = hash_table<const_fixed_hasher>::create_ggc (37);
-
- reg_attrs_htab = hash_table<reg_attr_hasher>::create_ggc (37);
-
-#ifdef INIT_EXPANDERS
- /* This is to initialize {init|mark|free}_machine_status before the first
- call to push_function_context_to. This is needed by the Chill front
- end which calls push_function_context_to before the first call to
- init_function_start. */
- INIT_EXPANDERS;
-#endif
-
- /* Create the unique rtx's for certain rtx codes and operand values. */
-
- /* Process stack-limiting command-line options. */
- if (opt_fstack_limit_symbol_arg != NULL)
- stack_limit_rtx
- = gen_rtx_SYMBOL_REF (Pmode, ggc_strdup (opt_fstack_limit_symbol_arg));
- if (opt_fstack_limit_register_no >= 0)
- stack_limit_rtx = gen_rtx_REG (Pmode, opt_fstack_limit_register_no);
-
- /* Don't use gen_rtx_CONST_INT here since gen_rtx_CONST_INT in this case
- tries to use these variables. */
- for (i = - MAX_SAVED_CONST_INT; i <= MAX_SAVED_CONST_INT; i++)
- const_int_rtx[i + MAX_SAVED_CONST_INT] =
- gen_rtx_raw_CONST_INT (VOIDmode, (HOST_WIDE_INT) i);
-
- if (STORE_FLAG_VALUE >= - MAX_SAVED_CONST_INT
- && STORE_FLAG_VALUE <= MAX_SAVED_CONST_INT)
- const_true_rtx = const_int_rtx[STORE_FLAG_VALUE + MAX_SAVED_CONST_INT];
- else
- const_true_rtx = gen_rtx_CONST_INT (VOIDmode, STORE_FLAG_VALUE);
-
- double_mode = float_mode_for_size (DOUBLE_TYPE_SIZE).require ();
-
- real_from_integer (&dconst0, double_mode, 0, SIGNED);
- real_from_integer (&dconst1, double_mode, 1, SIGNED);
- real_from_integer (&dconst2, double_mode, 2, SIGNED);
-
- dconstm1 = dconst1;
- dconstm1.sign = 1;
-
- dconsthalf = dconst1;
- SET_REAL_EXP (&dconsthalf, REAL_EXP (&dconsthalf) - 1);
-
- for (i = 0; i < 3; i++)
- {
- const REAL_VALUE_TYPE *const r =
- (i == 0 ? &dconst0 : i == 1 ? &dconst1 : &dconst2);
-
- FOR_EACH_MODE_IN_CLASS (mode, MODE_FLOAT)
- const_tiny_rtx[i][(int) mode] =
- const_double_from_real_value (*r, mode);
-
- FOR_EACH_MODE_IN_CLASS (mode, MODE_DECIMAL_FLOAT)
- const_tiny_rtx[i][(int) mode] =
- const_double_from_real_value (*r, mode);
-
- const_tiny_rtx[i][(int) VOIDmode] = GEN_INT (i);
-
- FOR_EACH_MODE_IN_CLASS (mode, MODE_INT)
- const_tiny_rtx[i][(int) mode] = GEN_INT (i);
-
- for (mode = MIN_MODE_PARTIAL_INT;
- mode <= MAX_MODE_PARTIAL_INT;
- mode = (machine_mode)((int)(mode) + 1))
- const_tiny_rtx[i][(int) mode] = GEN_INT (i);
- }
-
- const_tiny_rtx[3][(int) VOIDmode] = constm1_rtx;
-
- FOR_EACH_MODE_IN_CLASS (mode, MODE_INT)
- const_tiny_rtx[3][(int) mode] = constm1_rtx;
-
- /* For BImode, 1 and -1 are unsigned and signed interpretations
- of the same value. */
- const_tiny_rtx[0][(int) BImode] = const0_rtx;
- const_tiny_rtx[1][(int) BImode] = const_true_rtx;
- const_tiny_rtx[3][(int) BImode] = const_true_rtx;
-
- for (mode = MIN_MODE_PARTIAL_INT;
- mode <= MAX_MODE_PARTIAL_INT;
- mode = (machine_mode)((int)(mode) + 1))
- const_tiny_rtx[3][(int) mode] = constm1_rtx;
-
- FOR_EACH_MODE_IN_CLASS (mode, MODE_COMPLEX_INT)
- {
- rtx inner = const_tiny_rtx[0][(int)GET_MODE_INNER (mode)];
- const_tiny_rtx[0][(int) mode] = gen_rtx_CONCAT (mode, inner, inner);
- }
-
- FOR_EACH_MODE_IN_CLASS (mode, MODE_COMPLEX_FLOAT)
- {
- rtx inner = const_tiny_rtx[0][(int)GET_MODE_INNER (mode)];
- const_tiny_rtx[0][(int) mode] = gen_rtx_CONCAT (mode, inner, inner);
- }
-
- /* As for BImode, "all 1" and "all -1" are unsigned and signed
- interpretations of the same value. */
- FOR_EACH_MODE_IN_CLASS (mode, MODE_VECTOR_BOOL)
- {
- const_tiny_rtx[0][(int) mode] = gen_const_vector (mode, 0);
- const_tiny_rtx[3][(int) mode] = gen_const_vector (mode, 3);
- const_tiny_rtx[1][(int) mode] = const_tiny_rtx[3][(int) mode];
- }
-
- FOR_EACH_MODE_IN_CLASS (mode, MODE_VECTOR_INT)
- {
- const_tiny_rtx[0][(int) mode] = gen_const_vector (mode, 0);
- const_tiny_rtx[1][(int) mode] = gen_const_vector (mode, 1);
- const_tiny_rtx[3][(int) mode] = gen_const_vector (mode, 3);
- }
-
- FOR_EACH_MODE_IN_CLASS (mode, MODE_VECTOR_FLOAT)
- {
- const_tiny_rtx[0][(int) mode] = gen_const_vector (mode, 0);
- const_tiny_rtx[1][(int) mode] = gen_const_vector (mode, 1);
- }
-
- FOR_EACH_MODE_IN_CLASS (smode_iter, MODE_FRACT)
- {
- scalar_mode smode = smode_iter.require ();
- FCONST0 (smode).data.high = 0;
- FCONST0 (smode).data.low = 0;
- FCONST0 (smode).mode = smode;
- const_tiny_rtx[0][(int) smode]
- = CONST_FIXED_FROM_FIXED_VALUE (FCONST0 (smode), smode);
- }
-
- FOR_EACH_MODE_IN_CLASS (smode_iter, MODE_UFRACT)
- {
- scalar_mode smode = smode_iter.require ();
- FCONST0 (smode).data.high = 0;
- FCONST0 (smode).data.low = 0;
- FCONST0 (smode).mode = smode;
- const_tiny_rtx[0][(int) smode]
- = CONST_FIXED_FROM_FIXED_VALUE (FCONST0 (smode), smode);
- }
-
- FOR_EACH_MODE_IN_CLASS (smode_iter, MODE_ACCUM)
- {
- scalar_mode smode = smode_iter.require ();
- FCONST0 (smode).data.high = 0;
- FCONST0 (smode).data.low = 0;
- FCONST0 (smode).mode = smode;
- const_tiny_rtx[0][(int) smode]
- = CONST_FIXED_FROM_FIXED_VALUE (FCONST0 (smode), smode);
-
- /* We store the value 1. */
- FCONST1 (smode).data.high = 0;
- FCONST1 (smode).data.low = 0;
- FCONST1 (smode).mode = smode;
- FCONST1 (smode).data
- = double_int_one.lshift (GET_MODE_FBIT (smode),
- HOST_BITS_PER_DOUBLE_INT,
- SIGNED_FIXED_POINT_MODE_P (smode));
- const_tiny_rtx[1][(int) smode]
- = CONST_FIXED_FROM_FIXED_VALUE (FCONST1 (smode), smode);
- }
-
- FOR_EACH_MODE_IN_CLASS (smode_iter, MODE_UACCUM)
- {
- scalar_mode smode = smode_iter.require ();
- FCONST0 (smode).data.high = 0;
- FCONST0 (smode).data.low = 0;
- FCONST0 (smode).mode = smode;
- const_tiny_rtx[0][(int) smode]
- = CONST_FIXED_FROM_FIXED_VALUE (FCONST0 (smode), smode);
-
- /* We store the value 1. */
- FCONST1 (smode).data.high = 0;
- FCONST1 (smode).data.low = 0;
- FCONST1 (smode).mode = smode;
- FCONST1 (smode).data
- = double_int_one.lshift (GET_MODE_FBIT (smode),
- HOST_BITS_PER_DOUBLE_INT,
- SIGNED_FIXED_POINT_MODE_P (smode));
- const_tiny_rtx[1][(int) smode]
- = CONST_FIXED_FROM_FIXED_VALUE (FCONST1 (smode), smode);
- }
-
- FOR_EACH_MODE_IN_CLASS (mode, MODE_VECTOR_FRACT)
- {
- const_tiny_rtx[0][(int) mode] = gen_const_vector (mode, 0);
- }
-
- FOR_EACH_MODE_IN_CLASS (mode, MODE_VECTOR_UFRACT)
- {
- const_tiny_rtx[0][(int) mode] = gen_const_vector (mode, 0);
- }
-
- FOR_EACH_MODE_IN_CLASS (mode, MODE_VECTOR_ACCUM)
- {
- const_tiny_rtx[0][(int) mode] = gen_const_vector (mode, 0);
- const_tiny_rtx[1][(int) mode] = gen_const_vector (mode, 1);
- }
-
- FOR_EACH_MODE_IN_CLASS (mode, MODE_VECTOR_UACCUM)
- {
- const_tiny_rtx[0][(int) mode] = gen_const_vector (mode, 0);
- const_tiny_rtx[1][(int) mode] = gen_const_vector (mode, 1);
- }
-
- for (i = (int) CCmode; i < (int) MAX_MACHINE_MODE; ++i)
- if (GET_MODE_CLASS ((machine_mode) i) == MODE_CC)
- const_tiny_rtx[0][i] = const0_rtx;
-
- pc_rtx = gen_rtx_fmt_ (PC, VOIDmode);
- ret_rtx = gen_rtx_fmt_ (RETURN, VOIDmode);
- simple_return_rtx = gen_rtx_fmt_ (SIMPLE_RETURN, VOIDmode);
- invalid_insn_rtx = gen_rtx_INSN (VOIDmode,
- /*prev_insn=*/NULL,
- /*next_insn=*/NULL,
- /*bb=*/NULL,
- /*pattern=*/NULL_RTX,
- /*location=*/-1,
- CODE_FOR_nothing,
- /*reg_notes=*/NULL_RTX);
-}
-
-/* Produce exact duplicate of insn INSN after AFTER.
- Care updating of libcall regions if present. */
-
-rtx_insn *
-emit_copy_of_insn_after (rtx_insn *insn, rtx_insn *after)
-{
- rtx_insn *new_rtx;
- rtx link;
-
- switch (GET_CODE (insn))
- {
- case INSN:
- new_rtx = emit_insn_after (copy_insn (PATTERN (insn)), after);
- break;
-
- case JUMP_INSN:
- new_rtx = emit_jump_insn_after (copy_insn (PATTERN (insn)), after);
- CROSSING_JUMP_P (new_rtx) = CROSSING_JUMP_P (insn);
- break;
-
- case DEBUG_INSN:
- new_rtx = emit_debug_insn_after (copy_insn (PATTERN (insn)), after);
- break;
-
- case CALL_INSN:
- new_rtx = emit_call_insn_after (copy_insn (PATTERN (insn)), after);
- if (CALL_INSN_FUNCTION_USAGE (insn))
- CALL_INSN_FUNCTION_USAGE (new_rtx)
- = copy_insn (CALL_INSN_FUNCTION_USAGE (insn));
- SIBLING_CALL_P (new_rtx) = SIBLING_CALL_P (insn);
- RTL_CONST_CALL_P (new_rtx) = RTL_CONST_CALL_P (insn);
- RTL_PURE_CALL_P (new_rtx) = RTL_PURE_CALL_P (insn);
- RTL_LOOPING_CONST_OR_PURE_CALL_P (new_rtx)
- = RTL_LOOPING_CONST_OR_PURE_CALL_P (insn);
- break;
-
- default:
- gcc_unreachable ();
- }
-
- /* Update LABEL_NUSES. */
- mark_jump_label (PATTERN (new_rtx), new_rtx, 0);
-
- INSN_LOCATION (new_rtx) = INSN_LOCATION (insn);
-
- /* If the old insn is frame related, then so is the new one. This is
- primarily needed for IA-64 unwind info which marks epilogue insns,
- which may be duplicated by the basic block reordering code. */
- RTX_FRAME_RELATED_P (new_rtx) = RTX_FRAME_RELATED_P (insn);
-
- /* Locate the end of existing REG_NOTES in NEW_RTX. */
- rtx *ptail = &REG_NOTES (new_rtx);
- while (*ptail != NULL_RTX)
- ptail = &XEXP (*ptail, 1);
-
- /* Copy all REG_NOTES except REG_LABEL_OPERAND since mark_jump_label
- will make them. REG_LABEL_TARGETs are created there too, but are
- supposed to be sticky, so we copy them. */
- for (link = REG_NOTES (insn); link; link = XEXP (link, 1))
- if (REG_NOTE_KIND (link) != REG_LABEL_OPERAND)
- {
- *ptail = duplicate_reg_note (link);
- ptail = &XEXP (*ptail, 1);
- }
-
- INSN_CODE (new_rtx) = INSN_CODE (insn);
- return new_rtx;
-}
-
-static GTY((deletable)) rtx hard_reg_clobbers [NUM_MACHINE_MODES][FIRST_PSEUDO_REGISTER];
-rtx
-gen_hard_reg_clobber (machine_mode mode, unsigned int regno)
-{
- if (hard_reg_clobbers[mode][regno])
- return hard_reg_clobbers[mode][regno];
- else
- return (hard_reg_clobbers[mode][regno] =
- gen_rtx_CLOBBER (VOIDmode, gen_rtx_REG (mode, regno)));
-}
-
-location_t prologue_location;
-location_t epilogue_location;
-
-/* Hold current location information and last location information, so the
- datastructures are built lazily only when some instructions in given
- place are needed. */
-static location_t curr_location;
-
-/* Allocate insn location datastructure. */
-void
-insn_locations_init (void)
-{
- prologue_location = epilogue_location = 0;
- curr_location = UNKNOWN_LOCATION;
-}
-
-/* At the end of emit stage, clear current location. */
-void
-insn_locations_finalize (void)
-{
- epilogue_location = curr_location;
- curr_location = UNKNOWN_LOCATION;
-}
-
-/* Set current location. */
-void
-set_curr_insn_location (location_t location)
-{
- curr_location = location;
-}
-
-/* Get current location. */
-location_t
-curr_insn_location (void)
-{
- return curr_location;
-}
-
-/* Set the location of the insn chain starting at INSN to LOC. */
-void
-set_insn_locations (rtx_insn *insn, location_t loc)
-{
- while (insn)
- {
- if (INSN_P (insn))
- INSN_LOCATION (insn) = loc;
- insn = NEXT_INSN (insn);
- }
-}
-
-/* Return lexical scope block insn belongs to. */
-tree
-insn_scope (const rtx_insn *insn)
-{
- return LOCATION_BLOCK (INSN_LOCATION (insn));
-}
-
-/* Return line number of the statement that produced this insn. */
-int
-insn_line (const rtx_insn *insn)
-{
- return LOCATION_LINE (INSN_LOCATION (insn));
-}
-
-/* Return source file of the statement that produced this insn. */
-const char *
-insn_file (const rtx_insn *insn)
-{
- return LOCATION_FILE (INSN_LOCATION (insn));
-}
-
-/* Return expanded location of the statement that produced this insn. */
-expanded_location
-insn_location (const rtx_insn *insn)
-{
- return expand_location (INSN_LOCATION (insn));
-}
-
-/* Return true if memory model MODEL requires a pre-operation (release-style)
- barrier or a post-operation (acquire-style) barrier. While not universal,
- this function matches behavior of several targets. */
-
-bool
-need_atomic_barrier_p (enum memmodel model, bool pre)
-{
- switch (model & MEMMODEL_BASE_MASK)
- {
- case MEMMODEL_RELAXED:
- case MEMMODEL_CONSUME:
- return false;
- case MEMMODEL_RELEASE:
- return pre;
- case MEMMODEL_ACQUIRE:
- return !pre;
- case MEMMODEL_ACQ_REL:
- case MEMMODEL_SEQ_CST:
- return true;
- default:
- gcc_unreachable ();
- }
-}
-
-/* Return a constant shift amount for shifting a value of mode MODE
- by VALUE bits. */
-
-rtx
-gen_int_shift_amount (machine_mode, poly_int64 value)
-{
- /* Use a 64-bit mode, to avoid any truncation.
-
- ??? Perhaps this should be automatically derived from the .md files
- instead, or perhaps have a target hook. */
- scalar_int_mode shift_mode = (BITS_PER_UNIT == 8
- ? DImode
- : int_mode_for_size (64, 0).require ());
- return gen_int_mode (value, shift_mode);
-}
-
-/* Initialize fields of rtl_data related to stack alignment. */
-
-void
-rtl_data::init_stack_alignment ()
-{
- stack_alignment_needed = STACK_BOUNDARY;
- max_used_stack_slot_alignment = STACK_BOUNDARY;
- stack_alignment_estimated = 0;
- preferred_stack_boundary = STACK_BOUNDARY;
-}
-
-
-#include "gt-emit-rtl.h"
generated by cgit v1.1 at 2025-09-02 11:13:30 +0000