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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/ipa-inline.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: ...here. gcc/ChangeLog: * adjust-alignment.c: Moved to... * adjust-alignment.cc: ...here. * alias.c: Moved to... * alias.cc: ...here. * alloc-pool.c: Moved to... * alloc-pool.cc: ...here. * asan.c: Moved to... * asan.cc: ...here. * attribs.c: Moved to... * attribs.cc: ...here. * auto-inc-dec.c: Moved to... * auto-inc-dec.cc: ...here. * auto-profile.c: Moved to... * auto-profile.cc: ...here. * bb-reorder.c: Moved to... * bb-reorder.cc: ...here. * bitmap.c: Moved to... * bitmap.cc: ...here. * btfout.c: Moved to... * btfout.cc: ...here. * builtins.c: Moved to... * builtins.cc: ...here. * caller-save.c: Moved to... * caller-save.cc: ...here. * calls.c: Moved to... * calls.cc: ...here. * ccmp.c: Moved to... * ccmp.cc: ...here. * cfg.c: Moved to... * cfg.cc: ...here. * cfganal.c: Moved to... * cfganal.cc: ...here. * cfgbuild.c: Moved to... * cfgbuild.cc: ...here. * cfgcleanup.c: Moved to... * cfgcleanup.cc: ...here. * cfgexpand.c: Moved to... * cfgexpand.cc: ...here. * cfghooks.c: Moved 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. * config/nds32/nds32.c: Moved to... * config/nds32/nds32.cc: ...here. * config/netbsd-d.c: Moved to... * config/netbsd-d.cc: ...here. * config/netbsd.c: Moved to... * config/netbsd.cc: ...here. * config/nios2/nios2.c: Moved to... * config/nios2/nios2.cc: ...here. * config/nvptx/mkoffload.c: Moved to... * config/nvptx/mkoffload.cc: ...here. * config/nvptx/nvptx-c.c: Moved to... * config/nvptx/nvptx-c.cc: ...here. * config/nvptx/nvptx.c: Moved to... * config/nvptx/nvptx.cc: ...here. * config/openbsd-d.c: Moved to... * config/openbsd-d.cc: ...here. * config/or1k/or1k.c: Moved to... * config/or1k/or1k.cc: ...here. * config/pa/pa-d.c: Moved to... * config/pa/pa-d.cc: ...here. * config/pa/pa.c: Moved to... * config/pa/pa.cc: ...here. * config/pdp11/pdp11.c: Moved to... * config/pdp11/pdp11.cc: ...here. * config/pru/pru-passes.c: Moved to... * config/pru/pru-passes.cc: ...here. * config/pru/pru-pragma.c: Moved to... * config/pru/pru-pragma.cc: ...here. * config/pru/pru.c: Moved to... * 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... * 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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/ipa-inline.c')
-rw-r--r--gcc/ipa-inline.c3158
1 files changed, 0 insertions, 3158 deletions
diff --git a/gcc/ipa-inline.c b/gcc/ipa-inline.c
deleted file mode 100644
index 9b70daf..0000000
--- a/gcc/ipa-inline.c
+++ /dev/null
@@ -1,3158 +0,0 @@
-/* Inlining decision heuristics.
- Copyright (C) 2003-2022 Free Software Foundation, Inc.
- Contributed by Jan Hubicka
-
-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/>. */
-
-/* Inlining decision heuristics
-
- The implementation of inliner is organized as follows:
-
- inlining heuristics limits
-
- can_inline_edge_p allow to check that particular inlining is allowed
- by the limits specified by user (allowed function growth, growth and so
- on).
-
- Functions are inlined when it is obvious the result is profitable (such
- as functions called once or when inlining reduce code size).
- In addition to that we perform inlining of small functions and recursive
- inlining.
-
- inlining heuristics
-
- The inliner itself is split into two passes:
-
- pass_early_inlining
-
- Simple local inlining pass inlining callees into current function.
- This pass makes no use of whole unit analysis and thus it can do only
- very simple decisions based on local properties.
-
- The strength of the pass is that it is run in topological order
- (reverse postorder) on the callgraph. Functions are converted into SSA
- form just before this pass and optimized subsequently. As a result, the
- callees of the function seen by the early inliner was already optimized
- and results of early inlining adds a lot of optimization opportunities
- for the local optimization.
-
- The pass handle the obvious inlining decisions within the compilation
- unit - inlining auto inline functions, inlining for size and
- flattening.
-
- main strength of the pass is the ability to eliminate abstraction
- penalty in C++ code (via combination of inlining and early
- optimization) and thus improve quality of analysis done by real IPA
- optimizers.
-
- Because of lack of whole unit knowledge, the pass cannot really make
- good code size/performance tradeoffs. It however does very simple
- speculative inlining allowing code size to grow by
- EARLY_INLINING_INSNS when callee is leaf function. In this case the
- optimizations performed later are very likely to eliminate the cost.
-
- pass_ipa_inline
-
- This is the real inliner able to handle inlining with whole program
- knowledge. It performs following steps:
-
- 1) inlining of small functions. This is implemented by greedy
- algorithm ordering all inlinable cgraph edges by their badness and
- inlining them in this order as long as inline limits allows doing so.
-
- This heuristics is not very good on inlining recursive calls. Recursive
- calls can be inlined with results similar to loop unrolling. To do so,
- special purpose recursive inliner is executed on function when
- recursive edge is met as viable candidate.
-
- 2) Unreachable functions are removed from callgraph. Inlining leads
- to devirtualization and other modification of callgraph so functions
- may become unreachable during the process. Also functions declared as
- extern inline or virtual functions are removed, since after inlining
- we no longer need the offline bodies.
-
- 3) Functions called once and not exported from the unit are inlined.
- This should almost always lead to reduction of code size by eliminating
- the need for offline copy of the function. */
-
-#include "config.h"
-#include "system.h"
-#include "coretypes.h"
-#include "backend.h"
-#include "target.h"
-#include "rtl.h"
-#include "tree.h"
-#include "gimple.h"
-#include "alloc-pool.h"
-#include "tree-pass.h"
-#include "gimple-ssa.h"
-#include "cgraph.h"
-#include "lto-streamer.h"
-#include "trans-mem.h"
-#include "calls.h"
-#include "tree-inline.h"
-#include "profile.h"
-#include "symbol-summary.h"
-#include "tree-vrp.h"
-#include "ipa-prop.h"
-#include "ipa-fnsummary.h"
-#include "ipa-inline.h"
-#include "ipa-utils.h"
-#include "sreal.h"
-#include "auto-profile.h"
-#include "builtins.h"
-#include "fibonacci_heap.h"
-#include "stringpool.h"
-#include "attribs.h"
-#include "asan.h"
-
-typedef fibonacci_heap <sreal, cgraph_edge> edge_heap_t;
-typedef fibonacci_node <sreal, cgraph_edge> edge_heap_node_t;
-
-/* Statistics we collect about inlining algorithm. */
-static int overall_size;
-static profile_count max_count;
-static profile_count spec_rem;
-
-/* Return false when inlining edge E would lead to violating
- limits on function unit growth or stack usage growth.
-
- The relative function body growth limit is present generally
- to avoid problems with non-linear behavior of the compiler.
- To allow inlining huge functions into tiny wrapper, the limit
- is always based on the bigger of the two functions considered.
-
- For stack growth limits we always base the growth in stack usage
- of the callers. We want to prevent applications from segfaulting
- on stack overflow when functions with huge stack frames gets
- inlined. */
-
-static bool
-caller_growth_limits (struct cgraph_edge *e)
-{
- struct cgraph_node *to = e->caller;
- struct cgraph_node *what = e->callee->ultimate_alias_target ();
- int newsize;
- int limit = 0;
- HOST_WIDE_INT stack_size_limit = 0, inlined_stack;
- ipa_size_summary *outer_info = ipa_size_summaries->get (to);
-
- /* Look for function e->caller is inlined to. While doing
- so work out the largest function body on the way. As
- described above, we want to base our function growth
- limits based on that. Not on the self size of the
- outer function, not on the self size of inline code
- we immediately inline to. This is the most relaxed
- interpretation of the rule "do not grow large functions
- too much in order to prevent compiler from exploding". */
- while (true)
- {
- ipa_size_summary *size_info = ipa_size_summaries->get (to);
- if (limit < size_info->self_size)
- limit = size_info->self_size;
- if (stack_size_limit < size_info->estimated_self_stack_size)
- stack_size_limit = size_info->estimated_self_stack_size;
- if (to->inlined_to)
- to = to->callers->caller;
- else
- break;
- }
-
- ipa_fn_summary *what_info = ipa_fn_summaries->get (what);
- ipa_size_summary *what_size_info = ipa_size_summaries->get (what);
-
- if (limit < what_size_info->self_size)
- limit = what_size_info->self_size;
-
- limit += limit * opt_for_fn (to->decl, param_large_function_growth) / 100;
-
- /* Check the size after inlining against the function limits. But allow
- the function to shrink if it went over the limits by forced inlining. */
- newsize = estimate_size_after_inlining (to, e);
- if (newsize >= ipa_size_summaries->get (what)->size
- && newsize > opt_for_fn (to->decl, param_large_function_insns)
- && newsize > limit)
- {
- e->inline_failed = CIF_LARGE_FUNCTION_GROWTH_LIMIT;
- return false;
- }
-
- if (!what_info->estimated_stack_size)
- return true;
-
- /* FIXME: Stack size limit often prevents inlining in Fortran programs
- due to large i/o datastructures used by the Fortran front-end.
- We ought to ignore this limit when we know that the edge is executed
- on every invocation of the caller (i.e. its call statement dominates
- exit block). We do not track this information, yet. */
- stack_size_limit += ((gcov_type)stack_size_limit
- * opt_for_fn (to->decl, param_stack_frame_growth)
- / 100);
-
- inlined_stack = (ipa_get_stack_frame_offset (to)
- + outer_info->estimated_self_stack_size
- + what_info->estimated_stack_size);
- /* Check new stack consumption with stack consumption at the place
- stack is used. */
- if (inlined_stack > stack_size_limit
- /* If function already has large stack usage from sibling
- inline call, we can inline, too.
- This bit overoptimistically assume that we are good at stack
- packing. */
- && inlined_stack > ipa_fn_summaries->get (to)->estimated_stack_size
- && inlined_stack > opt_for_fn (to->decl, param_large_stack_frame))
- {
- e->inline_failed = CIF_LARGE_STACK_FRAME_GROWTH_LIMIT;
- return false;
- }
- return true;
-}
-
-/* Dump info about why inlining has failed. */
-
-static void
-report_inline_failed_reason (struct cgraph_edge *e)
-{
- if (dump_enabled_p ())
- {
- dump_printf_loc (MSG_MISSED_OPTIMIZATION, e->call_stmt,
- " not inlinable: %C -> %C, %s\n",
- e->caller, e->callee,
- cgraph_inline_failed_string (e->inline_failed));
- if ((e->inline_failed == CIF_TARGET_OPTION_MISMATCH
- || e->inline_failed == CIF_OPTIMIZATION_MISMATCH)
- && e->caller->lto_file_data
- && e->callee->ultimate_alias_target ()->lto_file_data)
- {
- dump_printf_loc (MSG_MISSED_OPTIMIZATION, e->call_stmt,
- " LTO objects: %s, %s\n",
- e->caller->lto_file_data->file_name,
- e->callee->ultimate_alias_target ()->lto_file_data->file_name);
- }
- if (e->inline_failed == CIF_TARGET_OPTION_MISMATCH)
- if (dump_file)
- cl_target_option_print_diff
- (dump_file, 2, target_opts_for_fn (e->caller->decl),
- target_opts_for_fn (e->callee->ultimate_alias_target ()->decl));
- if (e->inline_failed == CIF_OPTIMIZATION_MISMATCH)
- if (dump_file)
- cl_optimization_print_diff
- (dump_file, 2, opts_for_fn (e->caller->decl),
- opts_for_fn (e->callee->ultimate_alias_target ()->decl));
- }
-}
-
- /* Decide whether sanitizer-related attributes allow inlining. */
-
-static bool
-sanitize_attrs_match_for_inline_p (const_tree caller, const_tree callee)
-{
- if (!caller || !callee)
- return true;
-
- /* Follow clang and allow inlining for always_inline functions. */
- if (lookup_attribute ("always_inline", DECL_ATTRIBUTES (callee)))
- return true;
-
- const sanitize_code codes[] =
- {
- SANITIZE_ADDRESS,
- SANITIZE_THREAD,
- SANITIZE_UNDEFINED,
- SANITIZE_UNDEFINED_NONDEFAULT,
- SANITIZE_POINTER_COMPARE,
- SANITIZE_POINTER_SUBTRACT
- };
-
- for (unsigned i = 0; i < sizeof (codes) / sizeof (codes[0]); i++)
- if (sanitize_flags_p (codes[i], caller)
- != sanitize_flags_p (codes[i], callee))
- return false;
-
- if (sanitize_coverage_p (caller) != sanitize_coverage_p (callee))
- return false;
-
- return true;
-}
-
-/* Used for flags where it is safe to inline when caller's value is
- grater than callee's. */
-#define check_maybe_up(flag) \
- (opts_for_fn (caller->decl)->x_##flag \
- != opts_for_fn (callee->decl)->x_##flag \
- && (!always_inline \
- || opts_for_fn (caller->decl)->x_##flag \
- < opts_for_fn (callee->decl)->x_##flag))
-/* Used for flags where it is safe to inline when caller's value is
- smaller than callee's. */
-#define check_maybe_down(flag) \
- (opts_for_fn (caller->decl)->x_##flag \
- != opts_for_fn (callee->decl)->x_##flag \
- && (!always_inline \
- || opts_for_fn (caller->decl)->x_##flag \
- > opts_for_fn (callee->decl)->x_##flag))
-/* Used for flags where exact match is needed for correctness. */
-#define check_match(flag) \
- (opts_for_fn (caller->decl)->x_##flag \
- != opts_for_fn (callee->decl)->x_##flag)
-
-/* Decide if we can inline the edge and possibly update
- inline_failed reason.
- We check whether inlining is possible at all and whether
- caller growth limits allow doing so.
-
- if REPORT is true, output reason to the dump file. */
-
-static bool
-can_inline_edge_p (struct cgraph_edge *e, bool report,
- bool early = false)
-{
- gcc_checking_assert (e->inline_failed);
-
- if (cgraph_inline_failed_type (e->inline_failed) == CIF_FINAL_ERROR)
- {
- if (report)
- report_inline_failed_reason (e);
- return false;
- }
-
- bool inlinable = true;
- enum availability avail;
- cgraph_node *caller = (e->caller->inlined_to
- ? e->caller->inlined_to : e->caller);
- cgraph_node *callee = e->callee->ultimate_alias_target (&avail, caller);
-
- if (!callee->definition)
- {
- e->inline_failed = CIF_BODY_NOT_AVAILABLE;
- inlinable = false;
- }
- if (!early && (!opt_for_fn (callee->decl, optimize)
- || !opt_for_fn (caller->decl, optimize)))
- {
- e->inline_failed = CIF_FUNCTION_NOT_OPTIMIZED;
- inlinable = false;
- }
- else if (callee->calls_comdat_local)
- {
- e->inline_failed = CIF_USES_COMDAT_LOCAL;
- inlinable = false;
- }
- else if (avail <= AVAIL_INTERPOSABLE)
- {
- e->inline_failed = CIF_OVERWRITABLE;
- inlinable = false;
- }
- /* All edges with call_stmt_cannot_inline_p should have inline_failed
- initialized to one of FINAL_ERROR reasons. */
- else if (e->call_stmt_cannot_inline_p)
- gcc_unreachable ();
- /* Don't inline if the functions have different EH personalities. */
- else if (DECL_FUNCTION_PERSONALITY (caller->decl)
- && DECL_FUNCTION_PERSONALITY (callee->decl)
- && (DECL_FUNCTION_PERSONALITY (caller->decl)
- != DECL_FUNCTION_PERSONALITY (callee->decl)))
- {
- e->inline_failed = CIF_EH_PERSONALITY;
- inlinable = false;
- }
- /* TM pure functions should not be inlined into non-TM_pure
- functions. */
- else if (is_tm_pure (callee->decl) && !is_tm_pure (caller->decl))
- {
- e->inline_failed = CIF_UNSPECIFIED;
- inlinable = false;
- }
- /* Check compatibility of target optimization options. */
- else if (!targetm.target_option.can_inline_p (caller->decl,
- callee->decl))
- {
- e->inline_failed = CIF_TARGET_OPTION_MISMATCH;
- inlinable = false;
- }
- else if (ipa_fn_summaries->get (callee) == NULL
- || !ipa_fn_summaries->get (callee)->inlinable)
- {
- e->inline_failed = CIF_FUNCTION_NOT_INLINABLE;
- inlinable = false;
- }
- /* Don't inline a function with mismatched sanitization attributes. */
- else if (!sanitize_attrs_match_for_inline_p (caller->decl, callee->decl))
- {
- e->inline_failed = CIF_SANITIZE_ATTRIBUTE_MISMATCH;
- inlinable = false;
- }
-
- if (!inlinable && report)
- report_inline_failed_reason (e);
- return inlinable;
-}
-
-/* Return inlining_insns_single limit for function N. If HINT or HINT2 is true
- scale up the bound. */
-
-static int
-inline_insns_single (cgraph_node *n, bool hint, bool hint2)
-{
- if (hint && hint2)
- {
- int64_t spd = opt_for_fn (n->decl, param_inline_heuristics_hint_percent);
- spd = spd * spd;
- if (spd > 1000000)
- spd = 1000000;
- return opt_for_fn (n->decl, param_max_inline_insns_single) * spd / 100;
- }
- if (hint || hint2)
- return opt_for_fn (n->decl, param_max_inline_insns_single)
- * opt_for_fn (n->decl, param_inline_heuristics_hint_percent) / 100;
- return opt_for_fn (n->decl, param_max_inline_insns_single);
-}
-
-/* Return inlining_insns_auto limit for function N. If HINT or HINT2 is true
- scale up the bound. */
-
-static int
-inline_insns_auto (cgraph_node *n, bool hint, bool hint2)
-{
- int max_inline_insns_auto = opt_for_fn (n->decl, param_max_inline_insns_auto);
- if (hint && hint2)
- {
- int64_t spd = opt_for_fn (n->decl, param_inline_heuristics_hint_percent);
- spd = spd * spd;
- if (spd > 1000000)
- spd = 1000000;
- return max_inline_insns_auto * spd / 100;
- }
- if (hint || hint2)
- return max_inline_insns_auto
- * opt_for_fn (n->decl, param_inline_heuristics_hint_percent) / 100;
- return max_inline_insns_auto;
-}
-
-/* Decide if we can inline the edge and possibly update
- inline_failed reason.
- We check whether inlining is possible at all and whether
- caller growth limits allow doing so.
-
- if REPORT is true, output reason to the dump file.
-
- if DISREGARD_LIMITS is true, ignore size limits. */
-
-static bool
-can_inline_edge_by_limits_p (struct cgraph_edge *e, bool report,
- bool disregard_limits = false, bool early = false)
-{
- gcc_checking_assert (e->inline_failed);
-
- if (cgraph_inline_failed_type (e->inline_failed) == CIF_FINAL_ERROR)
- {
- if (report)
- report_inline_failed_reason (e);
- return false;
- }
-
- bool inlinable = true;
- enum availability avail;
- cgraph_node *caller = (e->caller->inlined_to
- ? e->caller->inlined_to : e->caller);
- cgraph_node *callee = e->callee->ultimate_alias_target (&avail, caller);
- tree caller_tree = DECL_FUNCTION_SPECIFIC_OPTIMIZATION (caller->decl);
- tree callee_tree
- = callee ? DECL_FUNCTION_SPECIFIC_OPTIMIZATION (callee->decl) : NULL;
- /* Check if caller growth allows the inlining. */
- if (!DECL_DISREGARD_INLINE_LIMITS (callee->decl)
- && !disregard_limits
- && !lookup_attribute ("flatten",
- DECL_ATTRIBUTES (caller->decl))
- && !caller_growth_limits (e))
- inlinable = false;
- else if (callee->externally_visible
- && !DECL_DISREGARD_INLINE_LIMITS (callee->decl)
- && flag_live_patching == LIVE_PATCHING_INLINE_ONLY_STATIC)
- {
- e->inline_failed = CIF_EXTERN_LIVE_ONLY_STATIC;
- inlinable = false;
- }
- /* Don't inline a function with a higher optimization level than the
- caller. FIXME: this is really just tip of iceberg of handling
- optimization attribute. */
- else if (caller_tree != callee_tree)
- {
- bool always_inline =
- (DECL_DISREGARD_INLINE_LIMITS (callee->decl)
- && lookup_attribute ("always_inline",
- DECL_ATTRIBUTES (callee->decl)));
- ipa_fn_summary *caller_info = ipa_fn_summaries->get (caller);
- ipa_fn_summary *callee_info = ipa_fn_summaries->get (callee);
-
- /* Until GCC 4.9 we did not check the semantics-altering flags
- below and inlined across optimization boundaries.
- Enabling checks below breaks several packages by refusing
- to inline library always_inline functions. See PR65873.
- Disable the check for early inlining for now until better solution
- is found. */
- if (always_inline && early)
- ;
- /* There are some options that change IL semantics which means
- we cannot inline in these cases for correctness reason.
- Not even for always_inline declared functions. */
- else if (check_match (flag_wrapv)
- || check_match (flag_trapv)
- || check_match (flag_pcc_struct_return)
- || check_maybe_down (optimize_debug)
- /* When caller or callee does FP math, be sure FP codegen flags
- compatible. */
- || ((caller_info->fp_expressions && callee_info->fp_expressions)
- && (check_maybe_up (flag_rounding_math)
- || check_maybe_up (flag_trapping_math)
- || check_maybe_down (flag_unsafe_math_optimizations)
- || check_maybe_down (flag_finite_math_only)
- || check_maybe_up (flag_signaling_nans)
- || check_maybe_down (flag_cx_limited_range)
- || check_maybe_up (flag_signed_zeros)
- || check_maybe_down (flag_associative_math)
- || check_maybe_down (flag_reciprocal_math)
- || check_maybe_down (flag_fp_int_builtin_inexact)
- /* Strictly speaking only when the callee contains function
- calls that may end up setting errno. */
- || check_maybe_up (flag_errno_math)))
- /* We do not want to make code compiled with exceptions to be
- brought into a non-EH function unless we know that the callee
- does not throw.
- This is tracked by DECL_FUNCTION_PERSONALITY. */
- || (check_maybe_up (flag_non_call_exceptions)
- && DECL_FUNCTION_PERSONALITY (callee->decl))
- || (check_maybe_up (flag_exceptions)
- && DECL_FUNCTION_PERSONALITY (callee->decl))
- /* When devirtualization is disabled for callee, it is not safe
- to inline it as we possibly mangled the type info.
- Allow early inlining of always inlines. */
- || (!early && check_maybe_down (flag_devirtualize)))
- {
- e->inline_failed = CIF_OPTIMIZATION_MISMATCH;
- inlinable = false;
- }
- /* gcc.dg/pr43564.c. Apply user-forced inline even at -O0. */
- else if (always_inline)
- ;
- /* When user added an attribute to the callee honor it. */
- else if (lookup_attribute ("optimize", DECL_ATTRIBUTES (callee->decl))
- && opts_for_fn (caller->decl) != opts_for_fn (callee->decl))
- {
- e->inline_failed = CIF_OPTIMIZATION_MISMATCH;
- inlinable = false;
- }
- /* If explicit optimize attribute are not used, the mismatch is caused
- by different command line options used to build different units.
- Do not care about COMDAT functions - those are intended to be
- optimized with the optimization flags of module they are used in.
- Also do not care about mixing up size/speed optimization when
- DECL_DISREGARD_INLINE_LIMITS is set. */
- else if ((callee->merged_comdat
- && !lookup_attribute ("optimize",
- DECL_ATTRIBUTES (caller->decl)))
- || DECL_DISREGARD_INLINE_LIMITS (callee->decl))
- ;
- /* If mismatch is caused by merging two LTO units with different
- optimization flags we want to be bit nicer. However never inline
- if one of functions is not optimized at all. */
- else if (!opt_for_fn (callee->decl, optimize)
- || !opt_for_fn (caller->decl, optimize))
- {
- e->inline_failed = CIF_OPTIMIZATION_MISMATCH;
- inlinable = false;
- }
- /* If callee is optimized for size and caller is not, allow inlining if
- code shrinks or we are in param_max_inline_insns_single limit and
- callee is inline (and thus likely an unified comdat).
- This will allow caller to run faster. */
- else if (opt_for_fn (callee->decl, optimize_size)
- > opt_for_fn (caller->decl, optimize_size))
- {
- int growth = estimate_edge_growth (e);
- if (growth > opt_for_fn (caller->decl, param_max_inline_insns_size)
- && (!DECL_DECLARED_INLINE_P (callee->decl)
- && growth >= MAX (inline_insns_single (caller, false, false),
- inline_insns_auto (caller, false, false))))
- {
- e->inline_failed = CIF_OPTIMIZATION_MISMATCH;
- inlinable = false;
- }
- }
- /* If callee is more aggressively optimized for performance than caller,
- we generally want to inline only cheap (runtime wise) functions. */
- else if (opt_for_fn (callee->decl, optimize_size)
- < opt_for_fn (caller->decl, optimize_size)
- || (opt_for_fn (callee->decl, optimize)
- > opt_for_fn (caller->decl, optimize)))
- {
- if (estimate_edge_time (e)
- >= 20 + ipa_call_summaries->get (e)->call_stmt_time)
- {
- e->inline_failed = CIF_OPTIMIZATION_MISMATCH;
- inlinable = false;
- }
- }
-
- }
-
- if (!inlinable && report)
- report_inline_failed_reason (e);
- return inlinable;
-}
-
-
-/* Return true if the edge E is inlinable during early inlining. */
-
-static bool
-can_early_inline_edge_p (struct cgraph_edge *e)
-{
- cgraph_node *caller = (e->caller->inlined_to
- ? e->caller->inlined_to : e->caller);
- struct cgraph_node *callee = e->callee->ultimate_alias_target ();
- /* Early inliner might get called at WPA stage when IPA pass adds new
- function. In this case we cannot really do any of early inlining
- because function bodies are missing. */
- if (cgraph_inline_failed_type (e->inline_failed) == CIF_FINAL_ERROR)
- return false;
- if (!gimple_has_body_p (callee->decl))
- {
- e->inline_failed = CIF_BODY_NOT_AVAILABLE;
- return false;
- }
- /* In early inliner some of callees may not be in SSA form yet
- (i.e. the callgraph is cyclic and we did not process
- the callee by early inliner, yet). We don't have CIF code for this
- case; later we will re-do the decision in the real inliner. */
- if (!gimple_in_ssa_p (DECL_STRUCT_FUNCTION (e->caller->decl))
- || !gimple_in_ssa_p (DECL_STRUCT_FUNCTION (callee->decl)))
- {
- if (dump_enabled_p ())
- dump_printf_loc (MSG_MISSED_OPTIMIZATION, e->call_stmt,
- " edge not inlinable: not in SSA form\n");
- return false;
- }
- else if (profile_arc_flag
- && ((lookup_attribute ("no_profile_instrument_function",
- DECL_ATTRIBUTES (caller->decl)) == NULL_TREE)
- != (lookup_attribute ("no_profile_instrument_function",
- DECL_ATTRIBUTES (callee->decl)) == NULL_TREE)))
- return false;
-
- if (!can_inline_edge_p (e, true, true)
- || !can_inline_edge_by_limits_p (e, true, false, true))
- return false;
- return true;
-}
-
-
-/* Return number of calls in N. Ignore cheap builtins. */
-
-static int
-num_calls (struct cgraph_node *n)
-{
- struct cgraph_edge *e;
- int num = 0;
-
- for (e = n->callees; e; e = e->next_callee)
- if (!is_inexpensive_builtin (e->callee->decl))
- num++;
- return num;
-}
-
-
-/* Return true if we are interested in inlining small function. */
-
-static bool
-want_early_inline_function_p (struct cgraph_edge *e)
-{
- bool want_inline = true;
- struct cgraph_node *callee = e->callee->ultimate_alias_target ();
-
- if (DECL_DISREGARD_INLINE_LIMITS (callee->decl))
- ;
- /* For AutoFDO, we need to make sure that before profile summary, all
- hot paths' IR look exactly the same as profiled binary. As a result,
- in einliner, we will disregard size limit and inline those callsites
- that are:
- * inlined in the profiled binary, and
- * the cloned callee has enough samples to be considered "hot". */
- else if (flag_auto_profile && afdo_callsite_hot_enough_for_early_inline (e))
- ;
- else if (!DECL_DECLARED_INLINE_P (callee->decl)
- && !opt_for_fn (e->caller->decl, flag_inline_small_functions))
- {
- e->inline_failed = CIF_FUNCTION_NOT_INLINE_CANDIDATE;
- report_inline_failed_reason (e);
- want_inline = false;
- }
- else
- {
- /* First take care of very large functions. */
- int min_growth = estimate_min_edge_growth (e), growth = 0;
- int n;
- int early_inlining_insns = param_early_inlining_insns;
-
- if (min_growth > early_inlining_insns)
- {
- if (dump_enabled_p ())
- dump_printf_loc (MSG_MISSED_OPTIMIZATION, e->call_stmt,
- " will not early inline: %C->%C, "
- "call is cold and code would grow "
- "at least by %i\n",
- e->caller, callee,
- min_growth);
- want_inline = false;
- }
- else
- growth = estimate_edge_growth (e);
-
-
- if (!want_inline || growth <= param_max_inline_insns_size)
- ;
- else if (!e->maybe_hot_p ())
- {
- if (dump_enabled_p ())
- dump_printf_loc (MSG_MISSED_OPTIMIZATION, e->call_stmt,
- " will not early inline: %C->%C, "
- "call is cold and code would grow by %i\n",
- e->caller, callee,
- growth);
- want_inline = false;
- }
- else if (growth > early_inlining_insns)
- {
- if (dump_enabled_p ())
- dump_printf_loc (MSG_MISSED_OPTIMIZATION, e->call_stmt,
- " will not early inline: %C->%C, "
- "growth %i exceeds --param early-inlining-insns\n",
- e->caller, callee, growth);
- want_inline = false;
- }
- else if ((n = num_calls (callee)) != 0
- && growth * (n + 1) > early_inlining_insns)
- {
- if (dump_enabled_p ())
- dump_printf_loc (MSG_MISSED_OPTIMIZATION, e->call_stmt,
- " will not early inline: %C->%C, "
- "growth %i exceeds --param early-inlining-insns "
- "divided by number of calls\n",
- e->caller, callee, growth);
- want_inline = false;
- }
- }
- return want_inline;
-}
-
-/* Compute time of the edge->caller + edge->callee execution when inlining
- does not happen. */
-
-inline sreal
-compute_uninlined_call_time (struct cgraph_edge *edge,
- sreal uninlined_call_time,
- sreal freq)
-{
- cgraph_node *caller = (edge->caller->inlined_to
- ? edge->caller->inlined_to
- : edge->caller);
-
- if (freq > 0)
- uninlined_call_time *= freq;
- else
- uninlined_call_time = uninlined_call_time >> 11;
-
- sreal caller_time = ipa_fn_summaries->get (caller)->time;
- return uninlined_call_time + caller_time;
-}
-
-/* Same as compute_uinlined_call_time but compute time when inlining
- does happen. */
-
-inline sreal
-compute_inlined_call_time (struct cgraph_edge *edge,
- sreal time,
- sreal freq)
-{
- cgraph_node *caller = (edge->caller->inlined_to
- ? edge->caller->inlined_to
- : edge->caller);
- sreal caller_time = ipa_fn_summaries->get (caller)->time;
-
- if (freq > 0)
- time *= freq;
- else
- time = time >> 11;
-
- /* This calculation should match one in ipa-inline-analysis.c
- (estimate_edge_size_and_time). */
- time -= (sreal)ipa_call_summaries->get (edge)->call_stmt_time * freq;
- time += caller_time;
- if (time <= 0)
- time = ((sreal) 1) >> 8;
- gcc_checking_assert (time >= 0);
- return time;
-}
-
-/* Determine time saved by inlining EDGE of frequency FREQ
- where callee's runtime w/o inlining is UNINLINED_TYPE
- and with inlined is INLINED_TYPE. */
-
-inline sreal
-inlining_speedup (struct cgraph_edge *edge,
- sreal freq,
- sreal uninlined_time,
- sreal inlined_time)
-{
- sreal speedup = uninlined_time - inlined_time;
- /* Handling of call_time should match one in ipa-inline-fnsummary.c
- (estimate_edge_size_and_time). */
- sreal call_time = ipa_call_summaries->get (edge)->call_stmt_time;
-
- if (freq > 0)
- {
- speedup = (speedup + call_time);
- if (freq != 1)
- speedup = speedup * freq;
- }
- else if (freq == 0)
- speedup = speedup >> 11;
- gcc_checking_assert (speedup >= 0);
- return speedup;
-}
-
-/* Return true if the speedup for inlining E is bigger than
- param_inline_min_speedup. */
-
-static bool
-big_speedup_p (struct cgraph_edge *e)
-{
- sreal unspec_time;
- sreal spec_time = estimate_edge_time (e, &unspec_time);
- sreal freq = e->sreal_frequency ();
- sreal time = compute_uninlined_call_time (e, unspec_time, freq);
- sreal inlined_time = compute_inlined_call_time (e, spec_time, freq);
- cgraph_node *caller = (e->caller->inlined_to
- ? e->caller->inlined_to
- : e->caller);
- int limit = opt_for_fn (caller->decl, param_inline_min_speedup);
-
- if ((time - inlined_time) * 100 > time * limit)
- return true;
- return false;
-}
-
-/* Return true if we are interested in inlining small function.
- When REPORT is true, report reason to dump file. */
-
-static bool
-want_inline_small_function_p (struct cgraph_edge *e, bool report)
-{
- bool want_inline = true;
- struct cgraph_node *callee = e->callee->ultimate_alias_target ();
- cgraph_node *to = (e->caller->inlined_to
- ? e->caller->inlined_to : e->caller);
-
- /* Allow this function to be called before can_inline_edge_p,
- since it's usually cheaper. */
- if (cgraph_inline_failed_type (e->inline_failed) == CIF_FINAL_ERROR)
- want_inline = false;
- else if (DECL_DISREGARD_INLINE_LIMITS (callee->decl))
- ;
- else if (!DECL_DECLARED_INLINE_P (callee->decl)
- && !opt_for_fn (e->caller->decl, flag_inline_small_functions))
- {
- e->inline_failed = CIF_FUNCTION_NOT_INLINE_CANDIDATE;
- want_inline = false;
- }
- /* Do fast and conservative check if the function can be good
- inline candidate. */
- else if ((!DECL_DECLARED_INLINE_P (callee->decl)
- && (!e->count.ipa ().initialized_p () || !e->maybe_hot_p ()))
- && ipa_fn_summaries->get (callee)->min_size
- - ipa_call_summaries->get (e)->call_stmt_size
- > inline_insns_auto (e->caller, true, true))
- {
- e->inline_failed = CIF_MAX_INLINE_INSNS_AUTO_LIMIT;
- want_inline = false;
- }
- else if ((DECL_DECLARED_INLINE_P (callee->decl)
- || e->count.ipa ().nonzero_p ())
- && ipa_fn_summaries->get (callee)->min_size
- - ipa_call_summaries->get (e)->call_stmt_size
- > inline_insns_single (e->caller, true, true))
- {
- e->inline_failed = (DECL_DECLARED_INLINE_P (callee->decl)
- ? CIF_MAX_INLINE_INSNS_SINGLE_LIMIT
- : CIF_MAX_INLINE_INSNS_AUTO_LIMIT);
- want_inline = false;
- }
- else
- {
- int growth = estimate_edge_growth (e);
- ipa_hints hints = estimate_edge_hints (e);
- /* We have two independent groups of hints. If one matches in each
- of groups the limits are inreased. If both groups matches, limit
- is increased even more. */
- bool apply_hints = (hints & (INLINE_HINT_indirect_call
- | INLINE_HINT_known_hot
- | INLINE_HINT_loop_iterations
- | INLINE_HINT_loop_stride));
- bool apply_hints2 = (hints & INLINE_HINT_builtin_constant_p);
-
- if (growth <= opt_for_fn (to->decl,
- param_max_inline_insns_size))
- ;
- /* Apply param_max_inline_insns_single limit. Do not do so when
- hints suggests that inlining given function is very profitable.
- Avoid computation of big_speedup_p when not necessary to change
- outcome of decision. */
- else if (DECL_DECLARED_INLINE_P (callee->decl)
- && growth >= inline_insns_single (e->caller, apply_hints,
- apply_hints2)
- && (apply_hints || apply_hints2
- || growth >= inline_insns_single (e->caller, true,
- apply_hints2)
- || !big_speedup_p (e)))
- {
- e->inline_failed = CIF_MAX_INLINE_INSNS_SINGLE_LIMIT;
- want_inline = false;
- }
- else if (!DECL_DECLARED_INLINE_P (callee->decl)
- && !opt_for_fn (e->caller->decl, flag_inline_functions)
- && growth >= opt_for_fn (to->decl,
- param_max_inline_insns_small))
- {
- /* growth_positive_p is expensive, always test it last. */
- if (growth >= inline_insns_single (e->caller, false, false)
- || growth_positive_p (callee, e, growth))
- {
- e->inline_failed = CIF_NOT_DECLARED_INLINED;
- want_inline = false;
- }
- }
- /* Apply param_max_inline_insns_auto limit for functions not declared
- inline. Bypass the limit when speedup seems big. */
- else if (!DECL_DECLARED_INLINE_P (callee->decl)
- && growth >= inline_insns_auto (e->caller, apply_hints,
- apply_hints2)
- && (apply_hints || apply_hints2
- || growth >= inline_insns_auto (e->caller, true,
- apply_hints2)
- || !big_speedup_p (e)))
- {
- /* growth_positive_p is expensive, always test it last. */
- if (growth >= inline_insns_single (e->caller, false, false)
- || growth_positive_p (callee, e, growth))
- {
- e->inline_failed = CIF_MAX_INLINE_INSNS_AUTO_LIMIT;
- want_inline = false;
- }
- }
- /* If call is cold, do not inline when function body would grow. */
- else if (!e->maybe_hot_p ()
- && (growth >= inline_insns_single (e->caller, false, false)
- || growth_positive_p (callee, e, growth)))
- {
- e->inline_failed = CIF_UNLIKELY_CALL;
- want_inline = false;
- }
- }
- if (!want_inline && report)
- report_inline_failed_reason (e);
- return want_inline;
-}
-
-/* EDGE is self recursive edge.
- We handle two cases - when function A is inlining into itself
- or when function A is being inlined into another inliner copy of function
- A within function B.
-
- In first case OUTER_NODE points to the toplevel copy of A, while
- in the second case OUTER_NODE points to the outermost copy of A in B.
-
- In both cases we want to be extra selective since
- inlining the call will just introduce new recursive calls to appear. */
-
-static bool
-want_inline_self_recursive_call_p (struct cgraph_edge *edge,
- struct cgraph_node *outer_node,
- bool peeling,
- int depth)
-{
- char const *reason = NULL;
- bool want_inline = true;
- sreal caller_freq = 1;
- int max_depth = opt_for_fn (outer_node->decl,
- param_max_inline_recursive_depth_auto);
-
- if (DECL_DECLARED_INLINE_P (edge->caller->decl))
- max_depth = opt_for_fn (outer_node->decl,
- param_max_inline_recursive_depth);
-
- if (!edge->maybe_hot_p ())
- {
- reason = "recursive call is cold";
- want_inline = false;
- }
- else if (depth > max_depth)
- {
- reason = "--param max-inline-recursive-depth exceeded.";
- want_inline = false;
- }
- else if (outer_node->inlined_to
- && (caller_freq = outer_node->callers->sreal_frequency ()) == 0)
- {
- reason = "caller frequency is 0";
- want_inline = false;
- }
-
- if (!want_inline)
- ;
- /* Inlining of self recursive function into copy of itself within other
- function is transformation similar to loop peeling.
-
- Peeling is profitable if we can inline enough copies to make probability
- of actual call to the self recursive function very small. Be sure that
- the probability of recursion is small.
-
- We ensure that the frequency of recursing is at most 1 - (1/max_depth).
- This way the expected number of recursion is at most max_depth. */
- else if (peeling)
- {
- sreal max_prob = (sreal)1 - ((sreal)1 / (sreal)max_depth);
- int i;
- for (i = 1; i < depth; i++)
- max_prob = max_prob * max_prob;
- if (edge->sreal_frequency () >= max_prob * caller_freq)
- {
- reason = "frequency of recursive call is too large";
- want_inline = false;
- }
- }
- /* Recursive inlining, i.e. equivalent of unrolling, is profitable if
- recursion depth is large. We reduce function call overhead and increase
- chances that things fit in hardware return predictor.
-
- Recursive inlining might however increase cost of stack frame setup
- actually slowing down functions whose recursion tree is wide rather than
- deep.
-
- Deciding reliably on when to do recursive inlining without profile feedback
- is tricky. For now we disable recursive inlining when probability of self
- recursion is low.
-
- Recursive inlining of self recursive call within loop also results in
- large loop depths that generally optimize badly. We may want to throttle
- down inlining in those cases. In particular this seems to happen in one
- of libstdc++ rb tree methods. */
- else
- {
- if (edge->sreal_frequency () * 100
- <= caller_freq
- * opt_for_fn (outer_node->decl,
- param_min_inline_recursive_probability))
- {
- reason = "frequency of recursive call is too small";
- want_inline = false;
- }
- }
- if (!want_inline && dump_enabled_p ())
- dump_printf_loc (MSG_MISSED_OPTIMIZATION, edge->call_stmt,
- " not inlining recursively: %s\n", reason);
- return want_inline;
-}
-
-/* Return true when NODE has uninlinable caller;
- set HAS_HOT_CALL if it has hot call.
- Worker for cgraph_for_node_and_aliases. */
-
-static bool
-check_callers (struct cgraph_node *node, void *has_hot_call)
-{
- struct cgraph_edge *e;
- for (e = node->callers; e; e = e->next_caller)
- {
- if (!opt_for_fn (e->caller->decl, flag_inline_functions_called_once)
- || !opt_for_fn (e->caller->decl, optimize))
- return true;
- if (!can_inline_edge_p (e, true))
- return true;
- if (e->recursive_p ())
- return true;
- if (!can_inline_edge_by_limits_p (e, true))
- return true;
- /* Inlining large functions to large loop depth is often harmful because
- of register pressure it implies. */
- if ((int)ipa_call_summaries->get (e)->loop_depth
- > param_inline_functions_called_once_loop_depth)
- return true;
- /* Do not produce gigantic functions. */
- if (estimate_size_after_inlining (e->caller->inlined_to ?
- e->caller->inlined_to : e->caller, e)
- > param_inline_functions_called_once_insns)
- return true;
- if (!(*(bool *)has_hot_call) && e->maybe_hot_p ())
- *(bool *)has_hot_call = true;
- }
- return false;
-}
-
-/* If NODE has a caller, return true. */
-
-static bool
-has_caller_p (struct cgraph_node *node, void *data ATTRIBUTE_UNUSED)
-{
- if (node->callers)
- return true;
- return false;
-}
-
-/* Decide if inlining NODE would reduce unit size by eliminating
- the offline copy of function.
- When COLD is true the cold calls are considered, too. */
-
-static bool
-want_inline_function_to_all_callers_p (struct cgraph_node *node, bool cold)
-{
- bool has_hot_call = false;
-
- /* Aliases gets inlined along with the function they alias. */
- if (node->alias)
- return false;
- /* Already inlined? */
- if (node->inlined_to)
- return false;
- /* Does it have callers? */
- if (!node->call_for_symbol_and_aliases (has_caller_p, NULL, true))
- return false;
- /* Inlining into all callers would increase size? */
- if (growth_positive_p (node, NULL, INT_MIN) > 0)
- return false;
- /* All inlines must be possible. */
- if (node->call_for_symbol_and_aliases (check_callers, &has_hot_call,
- true))
- return false;
- if (!cold && !has_hot_call)
- return false;
- return true;
-}
-
-/* Return true if WHERE of SIZE is a possible candidate for wrapper heuristics
- in estimate_edge_badness. */
-
-static bool
-wrapper_heuristics_may_apply (struct cgraph_node *where, int size)
-{
- return size < (DECL_DECLARED_INLINE_P (where->decl)
- ? inline_insns_single (where, false, false)
- : inline_insns_auto (where, false, false));
-}
-
-/* A cost model driving the inlining heuristics in a way so the edges with
- smallest badness are inlined first. After each inlining is performed
- the costs of all caller edges of nodes affected are recomputed so the
- metrics may accurately depend on values such as number of inlinable callers
- of the function or function body size. */
-
-static sreal
-edge_badness (struct cgraph_edge *edge, bool dump)
-{
- sreal badness;
- int growth;
- sreal edge_time, unspec_edge_time;
- struct cgraph_node *callee = edge->callee->ultimate_alias_target ();
- class ipa_fn_summary *callee_info = ipa_fn_summaries->get (callee);
- ipa_hints hints;
- cgraph_node *caller = (edge->caller->inlined_to
- ? edge->caller->inlined_to
- : edge->caller);
-
- growth = estimate_edge_growth (edge);
- edge_time = estimate_edge_time (edge, &unspec_edge_time);
- hints = estimate_edge_hints (edge);
- gcc_checking_assert (edge_time >= 0);
- /* Check that inlined time is better, but tolerate some roundoff issues.
- FIXME: When callee profile drops to 0 we account calls more. This
- should be fixed by never doing that. */
- gcc_checking_assert ((edge_time * 100
- - callee_info->time * 101).to_int () <= 0
- || callee->count.ipa ().initialized_p ());
- gcc_checking_assert (growth <= ipa_size_summaries->get (callee)->size);
-
- if (dump)
- {
- fprintf (dump_file, " Badness calculation for %s -> %s\n",
- edge->caller->dump_name (),
- edge->callee->dump_name ());
- fprintf (dump_file, " size growth %i, time %f unspec %f ",
- growth,
- edge_time.to_double (),
- unspec_edge_time.to_double ());
- ipa_dump_hints (dump_file, hints);
- if (big_speedup_p (edge))
- fprintf (dump_file, " big_speedup");
- fprintf (dump_file, "\n");
- }
-
- /* Always prefer inlining saving code size. */
- if (growth <= 0)
- {
- badness = (sreal) (-SREAL_MIN_SIG + growth) << (SREAL_MAX_EXP / 256);
- if (dump)
- fprintf (dump_file, " %f: Growth %d <= 0\n", badness.to_double (),
- growth);
- }
- /* Inlining into EXTERNAL functions is not going to change anything unless
- they are themselves inlined. */
- else if (DECL_EXTERNAL (caller->decl))
- {
- if (dump)
- fprintf (dump_file, " max: function is external\n");
- return sreal::max ();
- }
- /* When profile is available. Compute badness as:
-
- time_saved * caller_count
- goodness = -------------------------------------------------
- growth_of_caller * overall_growth * combined_size
-
- badness = - goodness
-
- Again use negative value to make calls with profile appear hotter
- then calls without.
- */
- else if (opt_for_fn (caller->decl, flag_guess_branch_prob)
- || caller->count.ipa ().nonzero_p ())
- {
- sreal numerator, denominator;
- int overall_growth;
- sreal freq = edge->sreal_frequency ();
-
- numerator = inlining_speedup (edge, freq, unspec_edge_time, edge_time);
- if (numerator <= 0)
- numerator = ((sreal) 1 >> 8);
- if (caller->count.ipa ().nonzero_p ())
- numerator *= caller->count.ipa ().to_gcov_type ();
- else if (caller->count.ipa ().initialized_p ())
- numerator = numerator >> 11;
- denominator = growth;
-
- overall_growth = callee_info->growth;
-
- /* Look for inliner wrappers of the form:
-
- inline_caller ()
- {
- do_fast_job...
- if (need_more_work)
- noninline_callee ();
- }
- Without penalizing this case, we usually inline noninline_callee
- into the inline_caller because overall_growth is small preventing
- further inlining of inline_caller.
-
- Penalize only callgraph edges to functions with small overall
- growth ...
- */
- if (growth > overall_growth
- /* ... and having only one caller which is not inlined ... */
- && callee_info->single_caller
- && !edge->caller->inlined_to
- /* ... and edges executed only conditionally ... */
- && freq < 1
- /* ... consider case where callee is not inline but caller is ... */
- && ((!DECL_DECLARED_INLINE_P (edge->callee->decl)
- && DECL_DECLARED_INLINE_P (caller->decl))
- /* ... or when early optimizers decided to split and edge
- frequency still indicates splitting is a win ... */
- || (callee->split_part && !caller->split_part
- && freq * 100
- < opt_for_fn (caller->decl,
- param_partial_inlining_entry_probability)
- /* ... and do not overwrite user specified hints. */
- && (!DECL_DECLARED_INLINE_P (edge->callee->decl)
- || DECL_DECLARED_INLINE_P (caller->decl)))))
- {
- ipa_fn_summary *caller_info = ipa_fn_summaries->get (caller);
- int caller_growth = caller_info->growth;
-
- /* Only apply the penalty when caller looks like inline candidate,
- and it is not called once. */
- if (!caller_info->single_caller && overall_growth < caller_growth
- && caller_info->inlinable
- && wrapper_heuristics_may_apply
- (caller, ipa_size_summaries->get (caller)->size))
- {
- if (dump)
- fprintf (dump_file,
- " Wrapper penalty. Increasing growth %i to %i\n",
- overall_growth, caller_growth);
- overall_growth = caller_growth;
- }
- }
- if (overall_growth > 0)
- {
- /* Strongly prefer functions with few callers that can be inlined
- fully. The square root here leads to smaller binaries at average.
- Watch however for extreme cases and return to linear function
- when growth is large. */
- if (overall_growth < 256)
- overall_growth *= overall_growth;
- else
- overall_growth += 256 * 256 - 256;
- denominator *= overall_growth;
- }
- denominator *= ipa_size_summaries->get (caller)->size + growth;
-
- badness = - numerator / denominator;
-
- if (dump)
- {
- fprintf (dump_file,
- " %f: guessed profile. frequency %f, count %" PRId64
- " caller count %" PRId64
- " time saved %f"
- " overall growth %i (current) %i (original)"
- " %i (compensated)\n",
- badness.to_double (),
- freq.to_double (),
- edge->count.ipa ().initialized_p ()
- ? edge->count.ipa ().to_gcov_type () : -1,
- caller->count.ipa ().initialized_p ()
- ? caller->count.ipa ().to_gcov_type () : -1,
- inlining_speedup (edge, freq, unspec_edge_time,
- edge_time).to_double (),
- estimate_growth (callee),
- callee_info->growth, overall_growth);
- }
- }
- /* When function local profile is not available or it does not give
- useful information (i.e. frequency is zero), base the cost on
- loop nest and overall size growth, so we optimize for overall number
- of functions fully inlined in program. */
- else
- {
- int nest = MIN (ipa_call_summaries->get (edge)->loop_depth, 8);
- badness = growth;
-
- /* Decrease badness if call is nested. */
- if (badness > 0)
- badness = badness >> nest;
- else
- badness = badness << nest;
- if (dump)
- fprintf (dump_file, " %f: no profile. nest %i\n",
- badness.to_double (), nest);
- }
- gcc_checking_assert (badness != 0);
-
- if (edge->recursive_p ())
- badness = badness.shift (badness > 0 ? 4 : -4);
- if ((hints & (INLINE_HINT_indirect_call
- | INLINE_HINT_loop_iterations
- | INLINE_HINT_loop_stride))
- || callee_info->growth <= 0)
- badness = badness.shift (badness > 0 ? -2 : 2);
- if (hints & INLINE_HINT_builtin_constant_p)
- badness = badness.shift (badness > 0 ? -4 : 4);
- if (hints & (INLINE_HINT_same_scc))
- badness = badness.shift (badness > 0 ? 3 : -3);
- else if (hints & (INLINE_HINT_in_scc))
- badness = badness.shift (badness > 0 ? 2 : -2);
- else if (hints & (INLINE_HINT_cross_module))
- badness = badness.shift (badness > 0 ? 1 : -1);
- if (DECL_DISREGARD_INLINE_LIMITS (callee->decl))
- badness = badness.shift (badness > 0 ? -4 : 4);
- else if ((hints & INLINE_HINT_declared_inline))
- badness = badness.shift (badness > 0 ? -3 : 3);
- if (dump)
- fprintf (dump_file, " Adjusted by hints %f\n", badness.to_double ());
- return badness;
-}
-
-/* Recompute badness of EDGE and update its key in HEAP if needed. */
-static inline void
-update_edge_key (edge_heap_t *heap, struct cgraph_edge *edge)
-{
- sreal badness = edge_badness (edge, false);
- if (edge->aux)
- {
- edge_heap_node_t *n = (edge_heap_node_t *) edge->aux;
- gcc_checking_assert (n->get_data () == edge);
-
- /* fibonacci_heap::replace_key does busy updating of the
- heap that is unnecessarily expensive.
- We do lazy increases: after extracting minimum if the key
- turns out to be out of date, it is re-inserted into heap
- with correct value. */
- if (badness < n->get_key ())
- {
- if (dump_file && (dump_flags & TDF_DETAILS))
- {
- fprintf (dump_file,
- " decreasing badness %s -> %s, %f to %f\n",
- edge->caller->dump_name (),
- edge->callee->dump_name (),
- n->get_key ().to_double (),
- badness.to_double ());
- }
- heap->decrease_key (n, badness);
- }
- }
- else
- {
- if (dump_file && (dump_flags & TDF_DETAILS))
- {
- fprintf (dump_file,
- " enqueuing call %s -> %s, badness %f\n",
- edge->caller->dump_name (),
- edge->callee->dump_name (),
- badness.to_double ());
- }
- edge->aux = heap->insert (badness, edge);
- }
-}
-
-
-/* NODE was inlined.
- All caller edges needs to be reset because
- size estimates change. Similarly callees needs reset
- because better context may be known. */
-
-static void
-reset_edge_caches (struct cgraph_node *node)
-{
- struct cgraph_edge *edge;
- struct cgraph_edge *e = node->callees;
- struct cgraph_node *where = node;
- struct ipa_ref *ref;
-
- if (where->inlined_to)
- where = where->inlined_to;
-
- reset_node_cache (where);
-
- if (edge_growth_cache != NULL)
- for (edge = where->callers; edge; edge = edge->next_caller)
- if (edge->inline_failed)
- edge_growth_cache->remove (edge);
-
- FOR_EACH_ALIAS (where, ref)
- reset_edge_caches (dyn_cast <cgraph_node *> (ref->referring));
-
- if (!e)
- return;
-
- while (true)
- if (!e->inline_failed && e->callee->callees)
- e = e->callee->callees;
- else
- {
- if (edge_growth_cache != NULL && e->inline_failed)
- edge_growth_cache->remove (e);
- if (e->next_callee)
- e = e->next_callee;
- else
- {
- do
- {
- if (e->caller == node)
- return;
- e = e->caller->callers;
- }
- while (!e->next_callee);
- e = e->next_callee;
- }
- }
-}
-
-/* Recompute HEAP nodes for each of caller of NODE.
- UPDATED_NODES track nodes we already visited, to avoid redundant work.
- When CHECK_INLINABLITY_FOR is set, re-check for specified edge that
- it is inlinable. Otherwise check all edges. */
-
-static void
-update_caller_keys (edge_heap_t *heap, struct cgraph_node *node,
- bitmap updated_nodes,
- struct cgraph_edge *check_inlinablity_for)
-{
- struct cgraph_edge *edge;
- struct ipa_ref *ref;
-
- if ((!node->alias && !ipa_fn_summaries->get (node)->inlinable)
- || node->inlined_to)
- return;
- if (!bitmap_set_bit (updated_nodes, node->get_uid ()))
- return;
-
- FOR_EACH_ALIAS (node, ref)
- {
- struct cgraph_node *alias = dyn_cast <cgraph_node *> (ref->referring);
- update_caller_keys (heap, alias, updated_nodes, check_inlinablity_for);
- }
-
- for (edge = node->callers; edge; edge = edge->next_caller)
- if (edge->inline_failed)
- {
- if (!check_inlinablity_for
- || check_inlinablity_for == edge)
- {
- if (can_inline_edge_p (edge, false)
- && want_inline_small_function_p (edge, false)
- && can_inline_edge_by_limits_p (edge, false))
- update_edge_key (heap, edge);
- else if (edge->aux)
- {
- report_inline_failed_reason (edge);
- heap->delete_node ((edge_heap_node_t *) edge->aux);
- edge->aux = NULL;
- }
- }
- else if (edge->aux)
- update_edge_key (heap, edge);
- }
-}
-
-/* Recompute HEAP nodes for each uninlined call in NODE
- If UPDATE_SINCE is non-NULL check if edges called within that function
- are inlinable (typically UPDATE_SINCE is the inline clone we introduced
- where all edges have new context).
-
- This is used when we know that edge badnesses are going only to increase
- (we introduced new call site) and thus all we need is to insert newly
- created edges into heap. */
-
-static void
-update_callee_keys (edge_heap_t *heap, struct cgraph_node *node,
- struct cgraph_node *update_since,
- bitmap updated_nodes)
-{
- struct cgraph_edge *e = node->callees;
- bool check_inlinability = update_since == node;
-
- if (!e)
- return;
- while (true)
- if (!e->inline_failed && e->callee->callees)
- {
- if (e->callee == update_since)
- check_inlinability = true;
- e = e->callee->callees;
- }
- else
- {
- enum availability avail;
- struct cgraph_node *callee;
- if (!check_inlinability)
- {
- if (e->aux
- && !bitmap_bit_p (updated_nodes,
- e->callee->ultimate_alias_target
- (&avail, e->caller)->get_uid ()))
- update_edge_key (heap, e);
- }
- /* We do not reset callee growth cache here. Since we added a new call,
- growth should have just increased and consequently badness metric
- don't need updating. */
- else if (e->inline_failed
- && (callee = e->callee->ultimate_alias_target (&avail,
- e->caller))
- && avail >= AVAIL_AVAILABLE
- && ipa_fn_summaries->get (callee) != NULL
- && ipa_fn_summaries->get (callee)->inlinable
- && !bitmap_bit_p (updated_nodes, callee->get_uid ()))
- {
- if (can_inline_edge_p (e, false)
- && want_inline_small_function_p (e, false)
- && can_inline_edge_by_limits_p (e, false))
- {
- gcc_checking_assert (check_inlinability || can_inline_edge_p (e, false));
- gcc_checking_assert (check_inlinability || e->aux);
- update_edge_key (heap, e);
- }
- else if (e->aux)
- {
- report_inline_failed_reason (e);
- heap->delete_node ((edge_heap_node_t *) e->aux);
- e->aux = NULL;
- }
- }
- /* In case we redirected to unreachable node we only need to remove the
- fibheap entry. */
- else if (e->aux)
- {
- heap->delete_node ((edge_heap_node_t *) e->aux);
- e->aux = NULL;
- }
- if (e->next_callee)
- e = e->next_callee;
- else
- {
- do
- {
- if (e->caller == node)
- return;
- if (e->caller == update_since)
- check_inlinability = false;
- e = e->caller->callers;
- }
- while (!e->next_callee);
- e = e->next_callee;
- }
- }
-}
-
-/* Enqueue all recursive calls from NODE into priority queue depending on
- how likely we want to recursively inline the call. */
-
-static void
-lookup_recursive_calls (struct cgraph_node *node, struct cgraph_node *where,
- edge_heap_t *heap)
-{
- struct cgraph_edge *e;
- enum availability avail;
-
- for (e = where->callees; e; e = e->next_callee)
- if (e->callee == node
- || (e->callee->ultimate_alias_target (&avail, e->caller) == node
- && avail > AVAIL_INTERPOSABLE))
- heap->insert (-e->sreal_frequency (), e);
- for (e = where->callees; e; e = e->next_callee)
- if (!e->inline_failed)
- lookup_recursive_calls (node, e->callee, heap);
-}
-
-/* Decide on recursive inlining: in the case function has recursive calls,
- inline until body size reaches given argument. If any new indirect edges
- are discovered in the process, add them to *NEW_EDGES, unless NEW_EDGES
- is NULL. */
-
-static bool
-recursive_inlining (struct cgraph_edge *edge,
- vec<cgraph_edge *> *new_edges)
-{
- cgraph_node *to = (edge->caller->inlined_to
- ? edge->caller->inlined_to : edge->caller);
- int limit = opt_for_fn (to->decl,
- param_max_inline_insns_recursive_auto);
- edge_heap_t heap (sreal::min ());
- struct cgraph_node *node;
- struct cgraph_edge *e;
- struct cgraph_node *master_clone = NULL, *next;
- int depth = 0;
- int n = 0;
-
- node = edge->caller;
- if (node->inlined_to)
- node = node->inlined_to;
-
- if (DECL_DECLARED_INLINE_P (node->decl))
- limit = opt_for_fn (to->decl, param_max_inline_insns_recursive);
-
- /* Make sure that function is small enough to be considered for inlining. */
- if (estimate_size_after_inlining (node, edge) >= limit)
- return false;
- lookup_recursive_calls (node, node, &heap);
- if (heap.empty ())
- return false;
-
- if (dump_file)
- fprintf (dump_file,
- " Performing recursive inlining on %s\n", node->dump_name ());
-
- /* Do the inlining and update list of recursive call during process. */
- while (!heap.empty ())
- {
- struct cgraph_edge *curr = heap.extract_min ();
- struct cgraph_node *cnode, *dest = curr->callee;
-
- if (!can_inline_edge_p (curr, true)
- || !can_inline_edge_by_limits_p (curr, true))
- continue;
-
- /* MASTER_CLONE is produced in the case we already started modified
- the function. Be sure to redirect edge to the original body before
- estimating growths otherwise we will be seeing growths after inlining
- the already modified body. */
- if (master_clone)
- {
- curr->redirect_callee (master_clone);
- if (edge_growth_cache != NULL)
- edge_growth_cache->remove (curr);
- }
-
- if (estimate_size_after_inlining (node, curr) > limit)
- {
- curr->redirect_callee (dest);
- if (edge_growth_cache != NULL)
- edge_growth_cache->remove (curr);
- break;
- }
-
- depth = 1;
- for (cnode = curr->caller;
- cnode->inlined_to; cnode = cnode->callers->caller)
- if (node->decl
- == curr->callee->ultimate_alias_target ()->decl)
- depth++;
-
- if (!want_inline_self_recursive_call_p (curr, node, false, depth))
- {
- curr->redirect_callee (dest);
- if (edge_growth_cache != NULL)
- edge_growth_cache->remove (curr);
- continue;
- }
-
- if (dump_file)
- {
- fprintf (dump_file,
- " Inlining call of depth %i", depth);
- if (node->count.nonzero_p () && curr->count.initialized_p ())
- {
- fprintf (dump_file, " called approx. %.2f times per call",
- (double)curr->count.to_gcov_type ()
- / node->count.to_gcov_type ());
- }
- fprintf (dump_file, "\n");
- }
- if (!master_clone)
- {
- /* We need original clone to copy around. */
- master_clone = node->create_clone (node->decl, node->count,
- false, vNULL, true, NULL, NULL);
- for (e = master_clone->callees; e; e = e->next_callee)
- if (!e->inline_failed)
- clone_inlined_nodes (e, true, false, NULL);
- curr->redirect_callee (master_clone);
- if (edge_growth_cache != NULL)
- edge_growth_cache->remove (curr);
- }
-
- inline_call (curr, false, new_edges, &overall_size, true);
- reset_node_cache (node);
- lookup_recursive_calls (node, curr->callee, &heap);
- n++;
- }
-
- if (!heap.empty () && dump_file)
- fprintf (dump_file, " Recursive inlining growth limit met.\n");
-
- if (!master_clone)
- return false;
-
- if (dump_enabled_p ())
- dump_printf_loc (MSG_NOTE, edge->call_stmt,
- "\n Inlined %i times, "
- "body grown from size %i to %i, time %f to %f\n", n,
- ipa_size_summaries->get (master_clone)->size,
- ipa_size_summaries->get (node)->size,
- ipa_fn_summaries->get (master_clone)->time.to_double (),
- ipa_fn_summaries->get (node)->time.to_double ());
-
- /* Remove master clone we used for inlining. We rely that clones inlined
- into master clone gets queued just before master clone so we don't
- need recursion. */
- for (node = symtab->first_function (); node != master_clone;
- node = next)
- {
- next = symtab->next_function (node);
- if (node->inlined_to == master_clone)
- node->remove ();
- }
- master_clone->remove ();
- return true;
-}
-
-
-/* Given whole compilation unit estimate of INSNS, compute how large we can
- allow the unit to grow. */
-
-static int64_t
-compute_max_insns (cgraph_node *node, int insns)
-{
- int max_insns = insns;
- if (max_insns < opt_for_fn (node->decl, param_large_unit_insns))
- max_insns = opt_for_fn (node->decl, param_large_unit_insns);
-
- return ((int64_t) max_insns
- * (100 + opt_for_fn (node->decl, param_inline_unit_growth)) / 100);
-}
-
-
-/* Compute badness of all edges in NEW_EDGES and add them to the HEAP. */
-
-static void
-add_new_edges_to_heap (edge_heap_t *heap, vec<cgraph_edge *> &new_edges)
-{
- while (new_edges.length () > 0)
- {
- struct cgraph_edge *edge = new_edges.pop ();
-
- gcc_assert (!edge->aux);
- gcc_assert (edge->callee);
- if (edge->inline_failed
- && can_inline_edge_p (edge, true)
- && want_inline_small_function_p (edge, true)
- && can_inline_edge_by_limits_p (edge, true))
- edge->aux = heap->insert (edge_badness (edge, false), edge);
- }
-}
-
-/* Remove EDGE from the fibheap. */
-
-static void
-heap_edge_removal_hook (struct cgraph_edge *e, void *data)
-{
- if (e->aux)
- {
- ((edge_heap_t *)data)->delete_node ((edge_heap_node_t *)e->aux);
- e->aux = NULL;
- }
-}
-
-/* Return true if speculation of edge E seems useful.
- If ANTICIPATE_INLINING is true, be conservative and hope that E
- may get inlined. */
-
-bool
-speculation_useful_p (struct cgraph_edge *e, bool anticipate_inlining)
-{
- /* If we have already decided to inline the edge, it seems useful. */
- if (!e->inline_failed)
- return true;
-
- enum availability avail;
- struct cgraph_node *target = e->callee->ultimate_alias_target (&avail,
- e->caller);
-
- gcc_assert (e->speculative && !e->indirect_unknown_callee);
-
- if (!e->maybe_hot_p ())
- return false;
-
- /* See if IP optimizations found something potentially useful about the
- function. For now we look only for CONST/PURE flags. Almost everything
- else we propagate is useless. */
- if (avail >= AVAIL_AVAILABLE)
- {
- int ecf_flags = flags_from_decl_or_type (target->decl);
- if (ecf_flags & ECF_CONST)
- {
- if (!(e->speculative_call_indirect_edge ()->indirect_info
- ->ecf_flags & ECF_CONST))
- return true;
- }
- else if (ecf_flags & ECF_PURE)
- {
- if (!(e->speculative_call_indirect_edge ()->indirect_info
- ->ecf_flags & ECF_PURE))
- return true;
- }
- }
- /* If we did not managed to inline the function nor redirect
- to an ipa-cp clone (that are seen by having local flag set),
- it is probably pointless to inline it unless hardware is missing
- indirect call predictor. */
- if (!anticipate_inlining && !target->local)
- return false;
- /* For overwritable targets there is not much to do. */
- if (!can_inline_edge_p (e, false)
- || !can_inline_edge_by_limits_p (e, false, true))
- return false;
- /* OK, speculation seems interesting. */
- return true;
-}
-
-/* We know that EDGE is not going to be inlined.
- See if we can remove speculation. */
-
-static void
-resolve_noninline_speculation (edge_heap_t *edge_heap, struct cgraph_edge *edge)
-{
- if (edge->speculative && !speculation_useful_p (edge, false))
- {
- struct cgraph_node *node = edge->caller;
- struct cgraph_node *where = node->inlined_to
- ? node->inlined_to : node;
- auto_bitmap updated_nodes;
-
- if (edge->count.ipa ().initialized_p ())
- spec_rem += edge->count.ipa ();
- cgraph_edge::resolve_speculation (edge);
- reset_edge_caches (where);
- ipa_update_overall_fn_summary (where);
- update_caller_keys (edge_heap, where,
- updated_nodes, NULL);
- update_callee_keys (edge_heap, where, NULL,
- updated_nodes);
- }
-}
-
-/* Return true if NODE should be accounted for overall size estimate.
- Skip all nodes optimized for size so we can measure the growth of hot
- part of program no matter of the padding. */
-
-bool
-inline_account_function_p (struct cgraph_node *node)
-{
- return (!DECL_EXTERNAL (node->decl)
- && !opt_for_fn (node->decl, optimize_size)
- && node->frequency != NODE_FREQUENCY_UNLIKELY_EXECUTED);
-}
-
-/* Count number of callers of NODE and store it into DATA (that
- points to int. Worker for cgraph_for_node_and_aliases. */
-
-static bool
-sum_callers (struct cgraph_node *node, void *data)
-{
- struct cgraph_edge *e;
- int *num_calls = (int *)data;
-
- for (e = node->callers; e; e = e->next_caller)
- (*num_calls)++;
- return false;
-}
-
-/* We only propagate across edges with non-interposable callee. */
-
-inline bool
-ignore_edge_p (struct cgraph_edge *e)
-{
- enum availability avail;
- e->callee->function_or_virtual_thunk_symbol (&avail, e->caller);
- return (avail <= AVAIL_INTERPOSABLE);
-}
-
-/* We use greedy algorithm for inlining of small functions:
- All inline candidates are put into prioritized heap ordered in
- increasing badness.
-
- The inlining of small functions is bounded by unit growth parameters. */
-
-static void
-inline_small_functions (void)
-{
- struct cgraph_node *node;
- struct cgraph_edge *edge;
- edge_heap_t edge_heap (sreal::min ());
- auto_bitmap updated_nodes;
- int min_size;
- auto_vec<cgraph_edge *> new_indirect_edges;
- int initial_size = 0;
- struct cgraph_node **order = XCNEWVEC (cgraph_node *, symtab->cgraph_count);
- struct cgraph_edge_hook_list *edge_removal_hook_holder;
- new_indirect_edges.create (8);
-
- edge_removal_hook_holder
- = symtab->add_edge_removal_hook (&heap_edge_removal_hook, &edge_heap);
-
- /* Compute overall unit size and other global parameters used by badness
- metrics. */
-
- max_count = profile_count::uninitialized ();
- ipa_reduced_postorder (order, true, ignore_edge_p);
- free (order);
-
- FOR_EACH_DEFINED_FUNCTION (node)
- if (!node->inlined_to)
- {
- if (!node->alias && node->analyzed
- && (node->has_gimple_body_p () || node->thunk)
- && opt_for_fn (node->decl, optimize))
- {
- class ipa_fn_summary *info = ipa_fn_summaries->get (node);
- struct ipa_dfs_info *dfs = (struct ipa_dfs_info *) node->aux;
-
- /* Do not account external functions, they will be optimized out
- if not inlined. Also only count the non-cold portion of program. */
- if (inline_account_function_p (node))
- initial_size += ipa_size_summaries->get (node)->size;
- info->growth = estimate_growth (node);
-
- int num_calls = 0;
- node->call_for_symbol_and_aliases (sum_callers, &num_calls,
- true);
- if (num_calls == 1)
- info->single_caller = true;
- if (dfs && dfs->next_cycle)
- {
- struct cgraph_node *n2;
- int id = dfs->scc_no + 1;
- for (n2 = node; n2;
- n2 = ((struct ipa_dfs_info *) n2->aux)->next_cycle)
- if (opt_for_fn (n2->decl, optimize))
- {
- ipa_fn_summary *info2 = ipa_fn_summaries->get
- (n2->inlined_to ? n2->inlined_to : n2);
- if (info2->scc_no)
- break;
- info2->scc_no = id;
- }
- }
- }
-
- for (edge = node->callers; edge; edge = edge->next_caller)
- max_count = max_count.max (edge->count.ipa ());
- }
- ipa_free_postorder_info ();
- initialize_growth_caches ();
-
- if (dump_file)
- fprintf (dump_file,
- "\nDeciding on inlining of small functions. Starting with size %i.\n",
- initial_size);
-
- overall_size = initial_size;
- min_size = overall_size;
-
- /* Populate the heap with all edges we might inline. */
-
- FOR_EACH_DEFINED_FUNCTION (node)
- {
- bool update = false;
- struct cgraph_edge *next = NULL;
- bool has_speculative = false;
-
- if (!opt_for_fn (node->decl, optimize))
- continue;
-
- if (dump_file)
- fprintf (dump_file, "Enqueueing calls in %s.\n", node->dump_name ());
-
- for (edge = node->callees; edge; edge = edge->next_callee)
- {
- if (edge->inline_failed
- && !edge->aux
- && can_inline_edge_p (edge, true)
- && want_inline_small_function_p (edge, true)
- && can_inline_edge_by_limits_p (edge, true)
- && edge->inline_failed)
- {
- gcc_assert (!edge->aux);
- update_edge_key (&edge_heap, edge);
- }
- if (edge->speculative)
- has_speculative = true;
- }
- if (has_speculative)
- for (edge = node->callees; edge; edge = next)
- {
- next = edge->next_callee;
- if (edge->speculative
- && !speculation_useful_p (edge, edge->aux != NULL))
- {
- cgraph_edge::resolve_speculation (edge);
- update = true;
- }
- }
- if (update)
- {
- struct cgraph_node *where = node->inlined_to
- ? node->inlined_to : node;
- ipa_update_overall_fn_summary (where);
- reset_edge_caches (where);
- update_caller_keys (&edge_heap, where,
- updated_nodes, NULL);
- update_callee_keys (&edge_heap, where, NULL,
- updated_nodes);
- bitmap_clear (updated_nodes);
- }
- }
-
- gcc_assert (in_lto_p
- || !(max_count > 0)
- || (profile_info && flag_branch_probabilities));
-
- while (!edge_heap.empty ())
- {
- int old_size = overall_size;
- struct cgraph_node *where, *callee;
- sreal badness = edge_heap.min_key ();
- sreal current_badness;
- int growth;
-
- edge = edge_heap.extract_min ();
- gcc_assert (edge->aux);
- edge->aux = NULL;
- if (!edge->inline_failed || !edge->callee->analyzed)
- continue;
-
- /* Be sure that caches are maintained consistent.
- This check is affected by scaling roundoff errors when compiling for
- IPA this we skip it in that case. */
- if (flag_checking && !edge->callee->count.ipa_p ()
- && (!max_count.initialized_p () || !max_count.nonzero_p ()))
- {
- sreal cached_badness = edge_badness (edge, false);
-
- int old_size_est = estimate_edge_size (edge);
- sreal old_time_est = estimate_edge_time (edge);
- int old_hints_est = estimate_edge_hints (edge);
-
- if (edge_growth_cache != NULL)
- edge_growth_cache->remove (edge);
- reset_node_cache (edge->caller->inlined_to
- ? edge->caller->inlined_to
- : edge->caller);
- gcc_assert (old_size_est == estimate_edge_size (edge));
- gcc_assert (old_time_est == estimate_edge_time (edge));
- /* FIXME:
-
- gcc_assert (old_hints_est == estimate_edge_hints (edge));
-
- fails with profile feedback because some hints depends on
- maybe_hot_edge_p predicate and because callee gets inlined to other
- calls, the edge may become cold.
- This ought to be fixed by computing relative probabilities
- for given invocation but that will be better done once whole
- code is converted to sreals. Disable for now and revert to "wrong"
- value so enable/disable checking paths agree. */
- edge_growth_cache->get (edge)->hints = old_hints_est + 1;
-
- /* When updating the edge costs, we only decrease badness in the keys.
- Increases of badness are handled lazily; when we see key with out
- of date value on it, we re-insert it now. */
- current_badness = edge_badness (edge, false);
- gcc_assert (cached_badness == current_badness);
- gcc_assert (current_badness >= badness);
- }
- else
- current_badness = edge_badness (edge, false);
- if (current_badness != badness)
- {
- if (edge_heap.min () && current_badness > edge_heap.min_key ())
- {
- edge->aux = edge_heap.insert (current_badness, edge);
- continue;
- }
- else
- badness = current_badness;
- }
-
- if (!can_inline_edge_p (edge, true)
- || !can_inline_edge_by_limits_p (edge, true))
- {
- resolve_noninline_speculation (&edge_heap, edge);
- continue;
- }
-
- callee = edge->callee->ultimate_alias_target ();
- growth = estimate_edge_growth (edge);
- if (dump_file)
- {
- fprintf (dump_file,
- "\nConsidering %s with %i size\n",
- callee->dump_name (),
- ipa_size_summaries->get (callee)->size);
- fprintf (dump_file,
- " to be inlined into %s in %s:%i\n"
- " Estimated badness is %f, frequency %.2f.\n",
- edge->caller->dump_name (),
- edge->call_stmt
- && (LOCATION_LOCUS (gimple_location ((const gimple *)
- edge->call_stmt))
- > BUILTINS_LOCATION)
- ? gimple_filename ((const gimple *) edge->call_stmt)
- : "unknown",
- edge->call_stmt
- ? gimple_lineno ((const gimple *) edge->call_stmt)
- : -1,
- badness.to_double (),
- edge->sreal_frequency ().to_double ());
- if (edge->count.ipa ().initialized_p ())
- {
- fprintf (dump_file, " Called ");
- edge->count.ipa ().dump (dump_file);
- fprintf (dump_file, " times\n");
- }
- if (dump_flags & TDF_DETAILS)
- edge_badness (edge, true);
- }
-
- where = edge->caller;
-
- if (overall_size + growth > compute_max_insns (where, min_size)
- && !DECL_DISREGARD_INLINE_LIMITS (callee->decl))
- {
- edge->inline_failed = CIF_INLINE_UNIT_GROWTH_LIMIT;
- report_inline_failed_reason (edge);
- resolve_noninline_speculation (&edge_heap, edge);
- continue;
- }
-
- if (!want_inline_small_function_p (edge, true))
- {
- resolve_noninline_speculation (&edge_heap, edge);
- continue;
- }
-
- profile_count old_count = callee->count;
-
- /* Heuristics for inlining small functions work poorly for
- recursive calls where we do effects similar to loop unrolling.
- When inlining such edge seems profitable, leave decision on
- specific inliner. */
- if (edge->recursive_p ())
- {
- if (where->inlined_to)
- where = where->inlined_to;
- if (!recursive_inlining (edge,
- opt_for_fn (edge->caller->decl,
- flag_indirect_inlining)
- ? &new_indirect_edges : NULL))
- {
- edge->inline_failed = CIF_RECURSIVE_INLINING;
- resolve_noninline_speculation (&edge_heap, edge);
- continue;
- }
- reset_edge_caches (where);
- /* Recursive inliner inlines all recursive calls of the function
- at once. Consequently we need to update all callee keys. */
- if (opt_for_fn (edge->caller->decl, flag_indirect_inlining))
- add_new_edges_to_heap (&edge_heap, new_indirect_edges);
- update_callee_keys (&edge_heap, where, where, updated_nodes);
- bitmap_clear (updated_nodes);
- }
- else
- {
- struct cgraph_node *outer_node = NULL;
- int depth = 0;
-
- /* Consider the case where self recursive function A is inlined
- into B. This is desired optimization in some cases, since it
- leads to effect similar of loop peeling and we might completely
- optimize out the recursive call. However we must be extra
- selective. */
-
- where = edge->caller;
- while (where->inlined_to)
- {
- if (where->decl == callee->decl)
- outer_node = where, depth++;
- where = where->callers->caller;
- }
- if (outer_node
- && !want_inline_self_recursive_call_p (edge, outer_node,
- true, depth))
- {
- edge->inline_failed
- = (DECL_DISREGARD_INLINE_LIMITS (edge->callee->decl)
- ? CIF_RECURSIVE_INLINING : CIF_UNSPECIFIED);
- resolve_noninline_speculation (&edge_heap, edge);
- continue;
- }
- else if (depth && dump_file)
- fprintf (dump_file, " Peeling recursion with depth %i\n", depth);
-
- gcc_checking_assert (!callee->inlined_to);
-
- int old_size = ipa_size_summaries->get (where)->size;
- sreal old_time = ipa_fn_summaries->get (where)->time;
-
- inline_call (edge, true, &new_indirect_edges, &overall_size, true);
- reset_edge_caches (edge->callee);
- add_new_edges_to_heap (&edge_heap, new_indirect_edges);
-
- /* If caller's size and time increased we do not need to update
- all edges because badness is not going to decrease. */
- if (old_size <= ipa_size_summaries->get (where)->size
- && old_time <= ipa_fn_summaries->get (where)->time
- /* Wrapper penalty may be non-monotonous in this respect.
- Fortunately it only affects small functions. */
- && !wrapper_heuristics_may_apply (where, old_size))
- update_callee_keys (&edge_heap, edge->callee, edge->callee,
- updated_nodes);
- else
- update_callee_keys (&edge_heap, where,
- edge->callee,
- updated_nodes);
- }
- where = edge->caller;
- if (where->inlined_to)
- where = where->inlined_to;
-
- /* Our profitability metric can depend on local properties
- such as number of inlinable calls and size of the function body.
- After inlining these properties might change for the function we
- inlined into (since it's body size changed) and for the functions
- called by function we inlined (since number of it inlinable callers
- might change). */
- update_caller_keys (&edge_heap, where, updated_nodes, NULL);
- /* Offline copy count has possibly changed, recompute if profile is
- available. */
- struct cgraph_node *n
- = cgraph_node::get (edge->callee->decl)->ultimate_alias_target ();
- if (n != edge->callee && n->analyzed && !(n->count == old_count)
- && n->count.ipa_p ())
- update_callee_keys (&edge_heap, n, NULL, updated_nodes);
- bitmap_clear (updated_nodes);
-
- if (dump_enabled_p ())
- {
- ipa_fn_summary *s = ipa_fn_summaries->get (where);
-
- /* dump_printf can't handle %+i. */
- char buf_net_change[100];
- snprintf (buf_net_change, sizeof buf_net_change, "%+i",
- overall_size - old_size);
-
- dump_printf_loc (MSG_OPTIMIZED_LOCATIONS, edge->call_stmt,
- " Inlined %C into %C which now has time %f and "
- "size %i, net change of %s%s.\n",
- edge->callee, edge->caller,
- s->time.to_double (),
- ipa_size_summaries->get (edge->caller)->size,
- buf_net_change,
- cross_module_call_p (edge) ? " (cross module)":"");
- }
- if (min_size > overall_size)
- {
- min_size = overall_size;
-
- if (dump_file)
- fprintf (dump_file, "New minimal size reached: %i\n", min_size);
- }
- }
-
- free_growth_caches ();
- if (dump_enabled_p ())
- dump_printf (MSG_NOTE,
- "Unit growth for small function inlining: %i->%i (%i%%)\n",
- initial_size, overall_size,
- initial_size ? overall_size * 100 / (initial_size) - 100: 0);
- symtab->remove_edge_removal_hook (edge_removal_hook_holder);
-}
-
-/* Flatten NODE. Performed both during early inlining and
- at IPA inlining time. */
-
-static void
-flatten_function (struct cgraph_node *node, bool early, bool update)
-{
- struct cgraph_edge *e;
-
- /* We shouldn't be called recursively when we are being processed. */
- gcc_assert (node->aux == NULL);
-
- node->aux = (void *) node;
-
- for (e = node->callees; e; e = e->next_callee)
- {
- struct cgraph_node *orig_callee;
- struct cgraph_node *callee = e->callee->ultimate_alias_target ();
-
- /* We've hit cycle? It is time to give up. */
- if (callee->aux)
- {
- if (dump_enabled_p ())
- dump_printf_loc (MSG_MISSED_OPTIMIZATION, e->call_stmt,
- "Not inlining %C into %C to avoid cycle.\n",
- callee, e->caller);
- if (cgraph_inline_failed_type (e->inline_failed) != CIF_FINAL_ERROR)
- e->inline_failed = CIF_RECURSIVE_INLINING;
- continue;
- }
-
- /* When the edge is already inlined, we just need to recurse into
- it in order to fully flatten the leaves. */
- if (!e->inline_failed)
- {
- flatten_function (callee, early, false);
- continue;
- }
-
- /* Flatten attribute needs to be processed during late inlining. For
- extra code quality we however do flattening during early optimization,
- too. */
- if (!early
- ? !can_inline_edge_p (e, true)
- && !can_inline_edge_by_limits_p (e, true)
- : !can_early_inline_edge_p (e))
- continue;
-
- if (e->recursive_p ())
- {
- if (dump_enabled_p ())
- dump_printf_loc (MSG_MISSED_OPTIMIZATION, e->call_stmt,
- "Not inlining: recursive call.\n");
- continue;
- }
-
- if (gimple_in_ssa_p (DECL_STRUCT_FUNCTION (node->decl))
- != gimple_in_ssa_p (DECL_STRUCT_FUNCTION (callee->decl)))
- {
- if (dump_enabled_p ())
- dump_printf_loc (MSG_MISSED_OPTIMIZATION, e->call_stmt,
- "Not inlining: SSA form does not match.\n");
- continue;
- }
-
- /* Inline the edge and flatten the inline clone. Avoid
- recursing through the original node if the node was cloned. */
- if (dump_enabled_p ())
- dump_printf_loc (MSG_OPTIMIZED_LOCATIONS, e->call_stmt,
- " Inlining %C into %C.\n",
- callee, e->caller);
- orig_callee = callee;
- inline_call (e, true, NULL, NULL, false);
- if (e->callee != orig_callee)
- orig_callee->aux = (void *) node;
- flatten_function (e->callee, early, false);
- if (e->callee != orig_callee)
- orig_callee->aux = NULL;
- }
-
- node->aux = NULL;
- cgraph_node *where = node->inlined_to ? node->inlined_to : node;
- if (update && opt_for_fn (where->decl, optimize))
- ipa_update_overall_fn_summary (where);
-}
-
-/* Inline NODE to all callers. Worker for cgraph_for_node_and_aliases.
- DATA points to number of calls originally found so we avoid infinite
- recursion. */
-
-static bool
-inline_to_all_callers_1 (struct cgraph_node *node, void *data,
- hash_set<cgraph_node *> *callers)
-{
- int *num_calls = (int *)data;
- bool callee_removed = false;
-
- while (node->callers && !node->inlined_to)
- {
- struct cgraph_node *caller = node->callers->caller;
-
- if (!can_inline_edge_p (node->callers, true)
- || !can_inline_edge_by_limits_p (node->callers, true)
- || node->callers->recursive_p ())
- {
- if (dump_file)
- fprintf (dump_file, "Uninlinable call found; giving up.\n");
- *num_calls = 0;
- return false;
- }
-
- if (dump_file)
- {
- cgraph_node *ultimate = node->ultimate_alias_target ();
- fprintf (dump_file,
- "\nInlining %s size %i.\n",
- ultimate->dump_name (),
- ipa_size_summaries->get (ultimate)->size);
- fprintf (dump_file,
- " Called once from %s %i insns.\n",
- node->callers->caller->dump_name (),
- ipa_size_summaries->get (node->callers->caller)->size);
- }
-
- /* Remember which callers we inlined to, delaying updating the
- overall summary. */
- callers->add (node->callers->caller);
- inline_call (node->callers, true, NULL, NULL, false, &callee_removed);
- if (dump_file)
- fprintf (dump_file,
- " Inlined into %s which now has %i size\n",
- caller->dump_name (),
- ipa_size_summaries->get (caller)->size);
- if (!(*num_calls)--)
- {
- if (dump_file)
- fprintf (dump_file, "New calls found; giving up.\n");
- return callee_removed;
- }
- if (callee_removed)
- return true;
- }
- return false;
-}
-
-/* Wrapper around inline_to_all_callers_1 doing delayed overall summary
- update. */
-
-static bool
-inline_to_all_callers (struct cgraph_node *node, void *data)
-{
- hash_set<cgraph_node *> callers;
- bool res = inline_to_all_callers_1 (node, data, &callers);
- /* Perform the delayed update of the overall summary of all callers
- processed. This avoids quadratic behavior in the cases where
- we have a lot of calls to the same function. */
- for (hash_set<cgraph_node *>::iterator i = callers.begin ();
- i != callers.end (); ++i)
- ipa_update_overall_fn_summary ((*i)->inlined_to ? (*i)->inlined_to : *i);
- return res;
-}
-
-/* Output overall time estimate. */
-static void
-dump_overall_stats (void)
-{
- sreal sum_weighted = 0, sum = 0;
- struct cgraph_node *node;
-
- FOR_EACH_DEFINED_FUNCTION (node)
- if (!node->inlined_to
- && !node->alias)
- {
- ipa_fn_summary *s = ipa_fn_summaries->get (node);
- if (s != NULL)
- {
- sum += s->time;
- if (node->count.ipa ().initialized_p ())
- sum_weighted += s->time * node->count.ipa ().to_gcov_type ();
- }
- }
- fprintf (dump_file, "Overall time estimate: "
- "%f weighted by profile: "
- "%f\n", sum.to_double (), sum_weighted.to_double ());
-}
-
-/* Output some useful stats about inlining. */
-
-static void
-dump_inline_stats (void)
-{
- int64_t inlined_cnt = 0, inlined_indir_cnt = 0;
- int64_t inlined_virt_cnt = 0, inlined_virt_indir_cnt = 0;
- int64_t noninlined_cnt = 0, noninlined_indir_cnt = 0;
- int64_t noninlined_virt_cnt = 0, noninlined_virt_indir_cnt = 0;
- int64_t inlined_speculative = 0, inlined_speculative_ply = 0;
- int64_t indirect_poly_cnt = 0, indirect_cnt = 0;
- int64_t reason[CIF_N_REASONS][2];
- sreal reason_freq[CIF_N_REASONS];
- int i;
- struct cgraph_node *node;
-
- memset (reason, 0, sizeof (reason));
- for (i=0; i < CIF_N_REASONS; i++)
- reason_freq[i] = 0;
- FOR_EACH_DEFINED_FUNCTION (node)
- {
- struct cgraph_edge *e;
- for (e = node->callees; e; e = e->next_callee)
- {
- if (e->inline_failed)
- {
- if (e->count.ipa ().initialized_p ())
- reason[(int) e->inline_failed][0] += e->count.ipa ().to_gcov_type ();
- reason_freq[(int) e->inline_failed] += e->sreal_frequency ();
- reason[(int) e->inline_failed][1] ++;
- if (DECL_VIRTUAL_P (e->callee->decl)
- && e->count.ipa ().initialized_p ())
- {
- if (e->indirect_inlining_edge)
- noninlined_virt_indir_cnt += e->count.ipa ().to_gcov_type ();
- else
- noninlined_virt_cnt += e->count.ipa ().to_gcov_type ();
- }
- else if (e->count.ipa ().initialized_p ())
- {
- if (e->indirect_inlining_edge)
- noninlined_indir_cnt += e->count.ipa ().to_gcov_type ();
- else
- noninlined_cnt += e->count.ipa ().to_gcov_type ();
- }
- }
- else if (e->count.ipa ().initialized_p ())
- {
- if (e->speculative)
- {
- if (DECL_VIRTUAL_P (e->callee->decl))
- inlined_speculative_ply += e->count.ipa ().to_gcov_type ();
- else
- inlined_speculative += e->count.ipa ().to_gcov_type ();
- }
- else if (DECL_VIRTUAL_P (e->callee->decl))
- {
- if (e->indirect_inlining_edge)
- inlined_virt_indir_cnt += e->count.ipa ().to_gcov_type ();
- else
- inlined_virt_cnt += e->count.ipa ().to_gcov_type ();
- }
- else
- {
- if (e->indirect_inlining_edge)
- inlined_indir_cnt += e->count.ipa ().to_gcov_type ();
- else
- inlined_cnt += e->count.ipa ().to_gcov_type ();
- }
- }
- }
- for (e = node->indirect_calls; e; e = e->next_callee)
- if (e->indirect_info->polymorphic
- & e->count.ipa ().initialized_p ())
- indirect_poly_cnt += e->count.ipa ().to_gcov_type ();
- else if (e->count.ipa ().initialized_p ())
- indirect_cnt += e->count.ipa ().to_gcov_type ();
- }
- if (max_count.initialized_p ())
- {
- fprintf (dump_file,
- "Inlined %" PRId64 " + speculative "
- "%" PRId64 " + speculative polymorphic "
- "%" PRId64 " + previously indirect "
- "%" PRId64 " + virtual "
- "%" PRId64 " + virtual and previously indirect "
- "%" PRId64 "\n" "Not inlined "
- "%" PRId64 " + previously indirect "
- "%" PRId64 " + virtual "
- "%" PRId64 " + virtual and previously indirect "
- "%" PRId64 " + still indirect "
- "%" PRId64 " + still indirect polymorphic "
- "%" PRId64 "\n", inlined_cnt,
- inlined_speculative, inlined_speculative_ply,
- inlined_indir_cnt, inlined_virt_cnt, inlined_virt_indir_cnt,
- noninlined_cnt, noninlined_indir_cnt, noninlined_virt_cnt,
- noninlined_virt_indir_cnt, indirect_cnt, indirect_poly_cnt);
- fprintf (dump_file, "Removed speculations ");
- spec_rem.dump (dump_file);
- fprintf (dump_file, "\n");
- }
- dump_overall_stats ();
- fprintf (dump_file, "\nWhy inlining failed?\n");
- for (i = 0; i < CIF_N_REASONS; i++)
- if (reason[i][1])
- fprintf (dump_file, "%-50s: %8i calls, %8f freq, %" PRId64" count\n",
- cgraph_inline_failed_string ((cgraph_inline_failed_t) i),
- (int) reason[i][1], reason_freq[i].to_double (), reason[i][0]);
-}
-
-/* Called when node is removed. */
-
-static void
-flatten_remove_node_hook (struct cgraph_node *node, void *data)
-{
- if (lookup_attribute ("flatten", DECL_ATTRIBUTES (node->decl)) == NULL)
- return;
-
- hash_set<struct cgraph_node *> *removed
- = (hash_set<struct cgraph_node *> *) data;
- removed->add (node);
-}
-
-/* Decide on the inlining. We do so in the topological order to avoid
- expenses on updating data structures. */
-
-static unsigned int
-ipa_inline (void)
-{
- struct cgraph_node *node;
- int nnodes;
- struct cgraph_node **order;
- int i, j;
- int cold;
- bool remove_functions = false;
-
- order = XCNEWVEC (struct cgraph_node *, symtab->cgraph_count);
-
- if (dump_file)
- ipa_dump_fn_summaries (dump_file);
-
- nnodes = ipa_reverse_postorder (order);
- spec_rem = profile_count::zero ();
-
- FOR_EACH_FUNCTION (node)
- {
- node->aux = 0;
-
- /* Recompute the default reasons for inlining because they may have
- changed during merging. */
- if (in_lto_p)
- {
- for (cgraph_edge *e = node->callees; e; e = e->next_callee)
- {
- gcc_assert (e->inline_failed);
- initialize_inline_failed (e);
- }
- for (cgraph_edge *e = node->indirect_calls; e; e = e->next_callee)
- initialize_inline_failed (e);
- }
- }
-
- if (dump_file)
- fprintf (dump_file, "\nFlattening functions:\n");
-
- /* First shrink order array, so that it only contains nodes with
- flatten attribute. */
- for (i = nnodes - 1, j = i; i >= 0; i--)
- {
- node = order[i];
- if (node->definition
- /* Do not try to flatten aliases. These may happen for example when
- creating local aliases. */
- && !node->alias
- && lookup_attribute ("flatten",
- DECL_ATTRIBUTES (node->decl)) != NULL)
- order[j--] = order[i];
- }
-
- /* After the above loop, order[j + 1] ... order[nnodes - 1] contain
- nodes with flatten attribute. If there is more than one such
- node, we need to register a node removal hook, as flatten_function
- could remove other nodes with flatten attribute. See PR82801. */
- struct cgraph_node_hook_list *node_removal_hook_holder = NULL;
- hash_set<struct cgraph_node *> *flatten_removed_nodes = NULL;
- if (j < nnodes - 2)
- {
- flatten_removed_nodes = new hash_set<struct cgraph_node *>;
- node_removal_hook_holder
- = symtab->add_cgraph_removal_hook (&flatten_remove_node_hook,
- flatten_removed_nodes);
- }
-
- /* In the first pass handle functions to be flattened. Do this with
- a priority so none of our later choices will make this impossible. */
- for (i = nnodes - 1; i > j; i--)
- {
- node = order[i];
- if (flatten_removed_nodes
- && flatten_removed_nodes->contains (node))
- continue;
-
- /* Handle nodes to be flattened.
- Ideally when processing callees we stop inlining at the
- entry of cycles, possibly cloning that entry point and
- try to flatten itself turning it into a self-recursive
- function. */
- if (dump_file)
- fprintf (dump_file, "Flattening %s\n", node->dump_name ());
- flatten_function (node, false, true);
- }
-
- if (j < nnodes - 2)
- {
- symtab->remove_cgraph_removal_hook (node_removal_hook_holder);
- delete flatten_removed_nodes;
- }
- free (order);
-
- if (dump_file)
- dump_overall_stats ();
-
- inline_small_functions ();
-
- gcc_assert (symtab->state == IPA_SSA);
- symtab->state = IPA_SSA_AFTER_INLINING;
- /* Do first after-inlining removal. We want to remove all "stale" extern
- inline functions and virtual functions so we really know what is called
- once. */
- symtab->remove_unreachable_nodes (dump_file);
-
- /* Inline functions with a property that after inlining into all callers the
- code size will shrink because the out-of-line copy is eliminated.
- We do this regardless on the callee size as long as function growth limits
- are met. */
- if (dump_file)
- fprintf (dump_file,
- "\nDeciding on functions to be inlined into all callers and "
- "removing useless speculations:\n");
-
- /* Inlining one function called once has good chance of preventing
- inlining other function into the same callee. Ideally we should
- work in priority order, but probably inlining hot functions first
- is good cut without the extra pain of maintaining the queue.
-
- ??? this is not really fitting the bill perfectly: inlining function
- into callee often leads to better optimization of callee due to
- increased context for optimization.
- For example if main() function calls a function that outputs help
- and then function that does the main optimization, we should inline
- the second with priority even if both calls are cold by themselves.
-
- We probably want to implement new predicate replacing our use of
- maybe_hot_edge interpreted as maybe_hot_edge || callee is known
- to be hot. */
- for (cold = 0; cold <= 1; cold ++)
- {
- FOR_EACH_DEFINED_FUNCTION (node)
- {
- struct cgraph_edge *edge, *next;
- bool update=false;
-
- if (!opt_for_fn (node->decl, optimize)
- || !opt_for_fn (node->decl, flag_inline_functions_called_once))
- continue;
-
- for (edge = node->callees; edge; edge = next)
- {
- next = edge->next_callee;
- if (edge->speculative && !speculation_useful_p (edge, false))
- {
- if (edge->count.ipa ().initialized_p ())
- spec_rem += edge->count.ipa ();
- cgraph_edge::resolve_speculation (edge);
- update = true;
- remove_functions = true;
- }
- }
- if (update)
- {
- struct cgraph_node *where = node->inlined_to
- ? node->inlined_to : node;
- reset_edge_caches (where);
- ipa_update_overall_fn_summary (where);
- }
- if (want_inline_function_to_all_callers_p (node, cold))
- {
- int num_calls = 0;
- node->call_for_symbol_and_aliases (sum_callers, &num_calls,
- true);
- while (node->call_for_symbol_and_aliases
- (inline_to_all_callers, &num_calls, true))
- ;
- remove_functions = true;
- }
- }
- }
-
- if (dump_enabled_p ())
- dump_printf (MSG_NOTE,
- "\nInlined %i calls, eliminated %i functions\n\n",
- ncalls_inlined, nfunctions_inlined);
- if (dump_file)
- dump_inline_stats ();
-
- if (dump_file)
- ipa_dump_fn_summaries (dump_file);
- return remove_functions ? TODO_remove_functions : 0;
-}
-
-/* Inline always-inline function calls in NODE. */
-
-static bool
-inline_always_inline_functions (struct cgraph_node *node)
-{
- struct cgraph_edge *e;
- bool inlined = false;
-
- for (e = node->callees; e; e = e->next_callee)
- {
- struct cgraph_node *callee = e->callee->ultimate_alias_target ();
- if (!DECL_DISREGARD_INLINE_LIMITS (callee->decl))
- continue;
-
- if (e->recursive_p ())
- {
- if (dump_enabled_p ())
- dump_printf_loc (MSG_MISSED_OPTIMIZATION, e->call_stmt,
- " Not inlining recursive call to %C.\n",
- e->callee);
- e->inline_failed = CIF_RECURSIVE_INLINING;
- continue;
- }
-
- if (!can_early_inline_edge_p (e))
- {
- /* Set inlined to true if the callee is marked "always_inline" but
- is not inlinable. This will allow flagging an error later in
- expand_call_inline in tree-inline.c. */
- if (lookup_attribute ("always_inline",
- DECL_ATTRIBUTES (callee->decl)) != NULL)
- inlined = true;
- continue;
- }
-
- if (dump_enabled_p ())
- dump_printf_loc (MSG_OPTIMIZED_LOCATIONS, e->call_stmt,
- " Inlining %C into %C (always_inline).\n",
- e->callee, e->caller);
- inline_call (e, true, NULL, NULL, false);
- inlined = true;
- }
- if (inlined)
- ipa_update_overall_fn_summary (node);
-
- return inlined;
-}
-
-/* Decide on the inlining. We do so in the topological order to avoid
- expenses on updating data structures. */
-
-static bool
-early_inline_small_functions (struct cgraph_node *node)
-{
- struct cgraph_edge *e;
- bool inlined = false;
-
- for (e = node->callees; e; e = e->next_callee)
- {
- struct cgraph_node *callee = e->callee->ultimate_alias_target ();
-
- /* We can encounter not-yet-analyzed function during
- early inlining on callgraphs with strongly
- connected components. */
- ipa_fn_summary *s = ipa_fn_summaries->get (callee);
- if (s == NULL || !s->inlinable || !e->inline_failed)
- continue;
-
- /* Do not consider functions not declared inline. */
- if (!DECL_DECLARED_INLINE_P (callee->decl)
- && !opt_for_fn (node->decl, flag_inline_small_functions)
- && !opt_for_fn (node->decl, flag_inline_functions))
- continue;
-
- if (dump_enabled_p ())
- dump_printf_loc (MSG_NOTE, e->call_stmt,
- "Considering inline candidate %C.\n",
- callee);
-
- if (!can_early_inline_edge_p (e))
- continue;
-
- if (e->recursive_p ())
- {
- if (dump_enabled_p ())
- dump_printf_loc (MSG_MISSED_OPTIMIZATION, e->call_stmt,
- " Not inlining: recursive call.\n");
- continue;
- }
-
- if (!want_early_inline_function_p (e))
- continue;
-
- if (dump_enabled_p ())
- dump_printf_loc (MSG_OPTIMIZED_LOCATIONS, e->call_stmt,
- " Inlining %C into %C.\n",
- callee, e->caller);
- inline_call (e, true, NULL, NULL, false);
- inlined = true;
- }
-
- if (inlined)
- ipa_update_overall_fn_summary (node);
-
- return inlined;
-}
-
-unsigned int
-early_inliner (function *fun)
-{
- struct cgraph_node *node = cgraph_node::get (current_function_decl);
- struct cgraph_edge *edge;
- unsigned int todo = 0;
- int iterations = 0;
- bool inlined = false;
-
- if (seen_error ())
- return 0;
-
- /* Do nothing if datastructures for ipa-inliner are already computed. This
- happens when some pass decides to construct new function and
- cgraph_add_new_function calls lowering passes and early optimization on
- it. This may confuse ourself when early inliner decide to inline call to
- function clone, because function clones don't have parameter list in
- ipa-prop matching their signature. */
- if (ipa_node_params_sum)
- return 0;
-
- if (flag_checking)
- node->verify ();
- node->remove_all_references ();
-
- /* Even when not optimizing or not inlining inline always-inline
- functions. */
- inlined = inline_always_inline_functions (node);
-
- if (!optimize
- || flag_no_inline
- || !flag_early_inlining
- /* Never inline regular functions into always-inline functions
- during incremental inlining. This sucks as functions calling
- always inline functions will get less optimized, but at the
- same time inlining of functions calling always inline
- function into an always inline function might introduce
- cycles of edges to be always inlined in the callgraph.
-
- We might want to be smarter and just avoid this type of inlining. */
- || (DECL_DISREGARD_INLINE_LIMITS (node->decl)
- && lookup_attribute ("always_inline",
- DECL_ATTRIBUTES (node->decl))))
- ;
- else if (lookup_attribute ("flatten",
- DECL_ATTRIBUTES (node->decl)) != NULL)
- {
- /* When the function is marked to be flattened, recursively inline
- all calls in it. */
- if (dump_enabled_p ())
- dump_printf (MSG_OPTIMIZED_LOCATIONS,
- "Flattening %C\n", node);
- flatten_function (node, true, true);
- inlined = true;
- }
- else
- {
- /* If some always_inline functions was inlined, apply the changes.
- This way we will not account always inline into growth limits and
- moreover we will inline calls from always inlines that we skipped
- previously because of conditional above. */
- if (inlined)
- {
- timevar_push (TV_INTEGRATION);
- todo |= optimize_inline_calls (current_function_decl);
- /* optimize_inline_calls call above might have introduced new
- statements that don't have inline parameters computed. */
- for (edge = node->callees; edge; edge = edge->next_callee)
- {
- /* We can enounter not-yet-analyzed function during
- early inlining on callgraphs with strongly
- connected components. */
- ipa_call_summary *es = ipa_call_summaries->get_create (edge);
- es->call_stmt_size
- = estimate_num_insns (edge->call_stmt, &eni_size_weights);
- es->call_stmt_time
- = estimate_num_insns (edge->call_stmt, &eni_time_weights);
- }
- ipa_update_overall_fn_summary (node);
- inlined = false;
- timevar_pop (TV_INTEGRATION);
- }
- /* We iterate incremental inlining to get trivial cases of indirect
- inlining. */
- while (iterations < opt_for_fn (node->decl,
- param_early_inliner_max_iterations)
- && early_inline_small_functions (node))
- {
- timevar_push (TV_INTEGRATION);
- todo |= optimize_inline_calls (current_function_decl);
-
- /* Technically we ought to recompute inline parameters so the new
- iteration of early inliner works as expected. We however have
- values approximately right and thus we only need to update edge
- info that might be cleared out for newly discovered edges. */
- for (edge = node->callees; edge; edge = edge->next_callee)
- {
- /* We have no summary for new bound store calls yet. */
- ipa_call_summary *es = ipa_call_summaries->get_create (edge);
- es->call_stmt_size
- = estimate_num_insns (edge->call_stmt, &eni_size_weights);
- es->call_stmt_time
- = estimate_num_insns (edge->call_stmt, &eni_time_weights);
- }
- if (iterations < opt_for_fn (node->decl,
- param_early_inliner_max_iterations) - 1)
- ipa_update_overall_fn_summary (node);
- timevar_pop (TV_INTEGRATION);
- iterations++;
- inlined = false;
- }
- if (dump_file)
- fprintf (dump_file, "Iterations: %i\n", iterations);
- }
-
- if (inlined)
- {
- timevar_push (TV_INTEGRATION);
- todo |= optimize_inline_calls (current_function_decl);
- timevar_pop (TV_INTEGRATION);
- }
-
- fun->always_inline_functions_inlined = true;
-
- return todo;
-}
-
-/* Do inlining of small functions. Doing so early helps profiling and other
- passes to be somewhat more effective and avoids some code duplication in
- later real inlining pass for testcases with very many function calls. */
-
-namespace {
-
-const pass_data pass_data_early_inline =
-{
- GIMPLE_PASS, /* type */
- "einline", /* name */
- OPTGROUP_INLINE, /* optinfo_flags */
- TV_EARLY_INLINING, /* tv_id */
- PROP_ssa, /* properties_required */
- 0, /* properties_provided */
- 0, /* properties_destroyed */
- 0, /* todo_flags_start */
- 0, /* todo_flags_finish */
-};
-
-class pass_early_inline : public gimple_opt_pass
-{
-public:
- pass_early_inline (gcc::context *ctxt)
- : gimple_opt_pass (pass_data_early_inline, ctxt)
- {}
-
- /* opt_pass methods: */
- virtual unsigned int execute (function *);
-
-}; // class pass_early_inline
-
-unsigned int
-pass_early_inline::execute (function *fun)
-{
- return early_inliner (fun);
-}
-
-} // anon namespace
-
-gimple_opt_pass *
-make_pass_early_inline (gcc::context *ctxt)
-{
- return new pass_early_inline (ctxt);
-}
-
-namespace {
-
-const pass_data pass_data_ipa_inline =
-{
- IPA_PASS, /* type */
- "inline", /* name */
- OPTGROUP_INLINE, /* optinfo_flags */
- TV_IPA_INLINING, /* tv_id */
- 0, /* properties_required */
- 0, /* properties_provided */
- 0, /* properties_destroyed */
- 0, /* todo_flags_start */
- ( TODO_dump_symtab ), /* todo_flags_finish */
-};
-
-class pass_ipa_inline : public ipa_opt_pass_d
-{
-public:
- pass_ipa_inline (gcc::context *ctxt)
- : ipa_opt_pass_d (pass_data_ipa_inline, ctxt,
- NULL, /* generate_summary */
- NULL, /* write_summary */
- NULL, /* read_summary */
- NULL, /* write_optimization_summary */
- NULL, /* read_optimization_summary */
- NULL, /* stmt_fixup */
- 0, /* function_transform_todo_flags_start */
- inline_transform, /* function_transform */
- NULL) /* variable_transform */
- {}
-
- /* opt_pass methods: */
- virtual unsigned int execute (function *) { return ipa_inline (); }
-
-}; // class pass_ipa_inline
-
-} // anon namespace
-
-ipa_opt_pass_d *
-make_pass_ipa_inline (gcc::context *ctxt)
-{
- return new pass_ipa_inline (ctxt);
-}