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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/explow.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... * lto-common.cc: ...here. * lto-dump.c: Moved to... * lto-dump.cc: ...here. * lto-lang.c: Moved to... * lto-lang.cc: ...here. * lto-object.c: Moved to... * lto-object.cc: ...here. * lto-partition.c: Moved to... * lto-partition.cc: ...here. * lto-symtab.c: Moved to... * lto-symtab.cc: ...here. * lto.c: Moved to... * lto.cc: ...here. gcc/objc/ChangeLog: * objc-act.c: Moved to... * objc-act.cc: ...here. * objc-encoding.c: Moved to... * objc-encoding.cc: ...here. * objc-gnu-runtime-abi-01.c: Moved to... * objc-gnu-runtime-abi-01.cc: ...here. * objc-lang.c: Moved to... * objc-lang.cc: ...here. * objc-map.c: Moved to... * objc-map.cc: ...here. * objc-next-runtime-abi-01.c: Moved to... * objc-next-runtime-abi-01.cc: ...here. * objc-next-runtime-abi-02.c: Moved to... * objc-next-runtime-abi-02.cc: ...here. * objc-runtime-shared-support.c: Moved to... * objc-runtime-shared-support.cc: ...here. gcc/objcp/ChangeLog: * objcp-decl.c: Moved to... * objcp-decl.cc: ...here. * objcp-lang.c: Moved to... * objcp-lang.cc: ...here. libcpp/ChangeLog: * charset.c: Moved to... * charset.cc: ...here. * directives.c: Moved to... * directives.cc: ...here. * errors.c: Moved to... * errors.cc: ...here. * expr.c: Moved to... * expr.cc: ...here. * files.c: Moved to... * files.cc: ...here. * identifiers.c: Moved to... * identifiers.cc: ...here. * init.c: Moved to... * init.cc: ...here. * lex.c: Moved to... * lex.cc: ...here. * line-map.c: Moved to... * line-map.cc: ...here. * macro.c: Moved to... * macro.cc: ...here. * makeucnid.c: Moved to... * makeucnid.cc: ...here. * mkdeps.c: Moved to... * mkdeps.cc: ...here. * pch.c: Moved to... * pch.cc: ...here. * symtab.c: Moved to... * symtab.cc: ...here. * traditional.c: Moved to... * traditional.cc: ...here.
Diffstat (limited to 'gcc/explow.c')
-rw-r--r--gcc/explow.c2321
1 files changed, 0 insertions, 2321 deletions
diff --git a/gcc/explow.c b/gcc/explow.c
deleted file mode 100644
index e2f4fd6..0000000
--- a/gcc/explow.c
+++ /dev/null
@@ -1,2321 +0,0 @@
-/* Subroutines for manipulating rtx's in semantically interesting ways.
- Copyright (C) 1987-2022 Free Software Foundation, Inc.
-
-This file is part of GCC.
-
-GCC is free software; you can redistribute it and/or modify it under
-the terms of the GNU General Public License as published by the Free
-Software Foundation; either version 3, or (at your option) any later
-version.
-
-GCC is distributed in the hope that it will be useful, but WITHOUT ANY
-WARRANTY; without even the implied warranty of MERCHANTABILITY or
-FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
-for more details.
-
-You should have received a copy of the GNU General Public License
-along with GCC; see the file COPYING3. If not see
-<http://www.gnu.org/licenses/>. */
-
-
-#include "config.h"
-#include "system.h"
-#include "coretypes.h"
-#include "target.h"
-#include "function.h"
-#include "rtl.h"
-#include "tree.h"
-#include "memmodel.h"
-#include "tm_p.h"
-#include "optabs.h"
-#include "expmed.h"
-#include "profile-count.h"
-#include "emit-rtl.h"
-#include "recog.h"
-#include "diagnostic-core.h"
-#include "stor-layout.h"
-#include "langhooks.h"
-#include "except.h"
-#include "dojump.h"
-#include "explow.h"
-#include "expr.h"
-#include "stringpool.h"
-#include "common/common-target.h"
-#include "output.h"
-
-static rtx break_out_memory_refs (rtx);
-
-
-/* Truncate and perhaps sign-extend C as appropriate for MODE. */
-
-HOST_WIDE_INT
-trunc_int_for_mode (HOST_WIDE_INT c, machine_mode mode)
-{
- /* Not scalar_int_mode because we also allow pointer bound modes. */
- scalar_mode smode = as_a <scalar_mode> (mode);
- int width = GET_MODE_PRECISION (smode);
-
- /* You want to truncate to a _what_? */
- gcc_assert (SCALAR_INT_MODE_P (mode));
-
- /* Canonicalize BImode to 0 and STORE_FLAG_VALUE. */
- if (smode == BImode)
- return c & 1 ? STORE_FLAG_VALUE : 0;
-
- /* Sign-extend for the requested mode. */
-
- if (width < HOST_BITS_PER_WIDE_INT)
- {
- HOST_WIDE_INT sign = 1;
- sign <<= width - 1;
- c &= (sign << 1) - 1;
- c ^= sign;
- c -= sign;
- }
-
- return c;
-}
-
-/* Likewise for polynomial values, using the sign-extended representation
- for each individual coefficient. */
-
-poly_int64
-trunc_int_for_mode (poly_int64 x, machine_mode mode)
-{
- for (unsigned int i = 0; i < NUM_POLY_INT_COEFFS; ++i)
- x.coeffs[i] = trunc_int_for_mode (x.coeffs[i], mode);
- return x;
-}
-
-/* Return an rtx for the sum of X and the integer C, given that X has
- mode MODE. INPLACE is true if X can be modified inplace or false
- if it must be treated as immutable. */
-
-rtx
-plus_constant (machine_mode mode, rtx x, poly_int64 c, bool inplace)
-{
- RTX_CODE code;
- rtx y;
- rtx tem;
- int all_constant = 0;
-
- gcc_assert (GET_MODE (x) == VOIDmode || GET_MODE (x) == mode);
-
- if (known_eq (c, 0))
- return x;
-
- restart:
-
- code = GET_CODE (x);
- y = x;
-
- switch (code)
- {
- CASE_CONST_SCALAR_INT:
- return immed_wide_int_const (wi::add (rtx_mode_t (x, mode), c), mode);
- case MEM:
- /* If this is a reference to the constant pool, try replacing it with
- a reference to a new constant. If the resulting address isn't
- valid, don't return it because we have no way to validize it. */
- if (GET_CODE (XEXP (x, 0)) == SYMBOL_REF
- && CONSTANT_POOL_ADDRESS_P (XEXP (x, 0)))
- {
- rtx cst = get_pool_constant (XEXP (x, 0));
-
- if (GET_CODE (cst) == CONST_VECTOR
- && GET_MODE_INNER (GET_MODE (cst)) == mode)
- {
- cst = gen_lowpart (mode, cst);
- gcc_assert (cst);
- }
- else if (GET_MODE (cst) == VOIDmode
- && get_pool_mode (XEXP (x, 0)) != mode)
- break;
- if (GET_MODE (cst) == VOIDmode || GET_MODE (cst) == mode)
- {
- tem = plus_constant (mode, cst, c);
- tem = force_const_mem (GET_MODE (x), tem);
- /* Targets may disallow some constants in the constant pool, thus
- force_const_mem may return NULL_RTX. */
- if (tem && memory_address_p (GET_MODE (tem), XEXP (tem, 0)))
- return tem;
- }
- }
- break;
-
- case CONST:
- /* If adding to something entirely constant, set a flag
- so that we can add a CONST around the result. */
- if (inplace && shared_const_p (x))
- inplace = false;
- x = XEXP (x, 0);
- all_constant = 1;
- goto restart;
-
- case SYMBOL_REF:
- case LABEL_REF:
- all_constant = 1;
- break;
-
- case PLUS:
- /* The interesting case is adding the integer to a sum. Look
- for constant term in the sum and combine with C. For an
- integer constant term or a constant term that is not an
- explicit integer, we combine or group them together anyway.
-
- We may not immediately return from the recursive call here, lest
- all_constant gets lost. */
-
- if (CONSTANT_P (XEXP (x, 1)))
- {
- rtx term = plus_constant (mode, XEXP (x, 1), c, inplace);
- if (term == const0_rtx)
- x = XEXP (x, 0);
- else if (inplace)
- XEXP (x, 1) = term;
- else
- x = gen_rtx_PLUS (mode, XEXP (x, 0), term);
- c = 0;
- }
- else if (rtx *const_loc = find_constant_term_loc (&y))
- {
- if (!inplace)
- {
- /* We need to be careful since X may be shared and we can't
- modify it in place. */
- x = copy_rtx (x);
- const_loc = find_constant_term_loc (&x);
- }
- *const_loc = plus_constant (mode, *const_loc, c, true);
- c = 0;
- }
- break;
-
- default:
- if (CONST_POLY_INT_P (x))
- return immed_wide_int_const (const_poly_int_value (x) + c, mode);
- break;
- }
-
- if (maybe_ne (c, 0))
- x = gen_rtx_PLUS (mode, x, gen_int_mode (c, mode));
-
- if (GET_CODE (x) == SYMBOL_REF || GET_CODE (x) == LABEL_REF)
- return x;
- else if (all_constant)
- return gen_rtx_CONST (mode, x);
- else
- return x;
-}
-
-/* If X is a sum, return a new sum like X but lacking any constant terms.
- Add all the removed constant terms into *CONSTPTR.
- X itself is not altered. The result != X if and only if
- it is not isomorphic to X. */
-
-rtx
-eliminate_constant_term (rtx x, rtx *constptr)
-{
- rtx x0, x1;
- rtx tem;
-
- if (GET_CODE (x) != PLUS)
- return x;
-
- /* First handle constants appearing at this level explicitly. */
- if (CONST_INT_P (XEXP (x, 1))
- && (tem = simplify_binary_operation (PLUS, GET_MODE (x), *constptr,
- XEXP (x, 1))) != 0
- && CONST_INT_P (tem))
- {
- *constptr = tem;
- return eliminate_constant_term (XEXP (x, 0), constptr);
- }
-
- tem = const0_rtx;
- x0 = eliminate_constant_term (XEXP (x, 0), &tem);
- x1 = eliminate_constant_term (XEXP (x, 1), &tem);
- if ((x1 != XEXP (x, 1) || x0 != XEXP (x, 0))
- && (tem = simplify_binary_operation (PLUS, GET_MODE (x),
- *constptr, tem)) != 0
- && CONST_INT_P (tem))
- {
- *constptr = tem;
- return gen_rtx_PLUS (GET_MODE (x), x0, x1);
- }
-
- return x;
-}
-
-
-/* Return a copy of X in which all memory references
- and all constants that involve symbol refs
- have been replaced with new temporary registers.
- Also emit code to load the memory locations and constants
- into those registers.
-
- If X contains no such constants or memory references,
- X itself (not a copy) is returned.
-
- If a constant is found in the address that is not a legitimate constant
- in an insn, it is left alone in the hope that it might be valid in the
- address.
-
- X may contain no arithmetic except addition, subtraction and multiplication.
- Values returned by expand_expr with 1 for sum_ok fit this constraint. */
-
-static rtx
-break_out_memory_refs (rtx x)
-{
- if (MEM_P (x)
- || (CONSTANT_P (x) && CONSTANT_ADDRESS_P (x)
- && GET_MODE (x) != VOIDmode))
- x = force_reg (GET_MODE (x), x);
- else if (GET_CODE (x) == PLUS || GET_CODE (x) == MINUS
- || GET_CODE (x) == MULT)
- {
- rtx op0 = break_out_memory_refs (XEXP (x, 0));
- rtx op1 = break_out_memory_refs (XEXP (x, 1));
-
- if (op0 != XEXP (x, 0) || op1 != XEXP (x, 1))
- x = simplify_gen_binary (GET_CODE (x), GET_MODE (x), op0, op1);
- }
-
- return x;
-}
-
-/* Given X, a memory address in address space AS' pointer mode, convert it to
- an address in the address space's address mode, or vice versa (TO_MODE says
- which way). We take advantage of the fact that pointers are not allowed to
- overflow by commuting arithmetic operations over conversions so that address
- arithmetic insns can be used. IN_CONST is true if this conversion is inside
- a CONST. NO_EMIT is true if no insns should be emitted, and instead
- it should return NULL if it can't be simplified without emitting insns. */
-
-rtx
-convert_memory_address_addr_space_1 (scalar_int_mode to_mode ATTRIBUTE_UNUSED,
- rtx x, addr_space_t as ATTRIBUTE_UNUSED,
- bool in_const ATTRIBUTE_UNUSED,
- bool no_emit ATTRIBUTE_UNUSED)
-{
-#ifndef POINTERS_EXTEND_UNSIGNED
- gcc_assert (GET_MODE (x) == to_mode || GET_MODE (x) == VOIDmode);
- return x;
-#else /* defined(POINTERS_EXTEND_UNSIGNED) */
- scalar_int_mode pointer_mode, address_mode, from_mode;
- rtx temp;
- enum rtx_code code;
-
- /* If X already has the right mode, just return it. */
- if (GET_MODE (x) == to_mode)
- return x;
-
- pointer_mode = targetm.addr_space.pointer_mode (as);
- address_mode = targetm.addr_space.address_mode (as);
- from_mode = to_mode == pointer_mode ? address_mode : pointer_mode;
-
- /* Here we handle some special cases. If none of them apply, fall through
- to the default case. */
- switch (GET_CODE (x))
- {
- CASE_CONST_SCALAR_INT:
- if (GET_MODE_SIZE (to_mode) < GET_MODE_SIZE (from_mode))
- code = TRUNCATE;
- else if (POINTERS_EXTEND_UNSIGNED < 0)
- break;
- else if (POINTERS_EXTEND_UNSIGNED > 0)
- code = ZERO_EXTEND;
- else
- code = SIGN_EXTEND;
- temp = simplify_unary_operation (code, to_mode, x, from_mode);
- if (temp)
- return temp;
- break;
-
- case SUBREG:
- if ((SUBREG_PROMOTED_VAR_P (x) || REG_POINTER (SUBREG_REG (x)))
- && GET_MODE (SUBREG_REG (x)) == to_mode)
- return SUBREG_REG (x);
- break;
-
- case LABEL_REF:
- temp = gen_rtx_LABEL_REF (to_mode, label_ref_label (x));
- LABEL_REF_NONLOCAL_P (temp) = LABEL_REF_NONLOCAL_P (x);
- return temp;
-
- case SYMBOL_REF:
- temp = shallow_copy_rtx (x);
- PUT_MODE (temp, to_mode);
- return temp;
-
- case CONST:
- temp = convert_memory_address_addr_space_1 (to_mode, XEXP (x, 0), as,
- true, no_emit);
- return temp ? gen_rtx_CONST (to_mode, temp) : temp;
-
- case PLUS:
- case MULT:
- /* For addition we can safely permute the conversion and addition
- operation if one operand is a constant and converting the constant
- does not change it or if one operand is a constant and we are
- using a ptr_extend instruction (POINTERS_EXTEND_UNSIGNED < 0).
- We can always safely permute them if we are making the address
- narrower. Inside a CONST RTL, this is safe for both pointers
- zero or sign extended as pointers cannot wrap. */
- if (GET_MODE_SIZE (to_mode) < GET_MODE_SIZE (from_mode)
- || (GET_CODE (x) == PLUS
- && CONST_INT_P (XEXP (x, 1))
- && ((in_const && POINTERS_EXTEND_UNSIGNED != 0)
- || XEXP (x, 1) == convert_memory_address_addr_space_1
- (to_mode, XEXP (x, 1), as, in_const,
- no_emit)
- || POINTERS_EXTEND_UNSIGNED < 0)))
- {
- temp = convert_memory_address_addr_space_1 (to_mode, XEXP (x, 0),
- as, in_const, no_emit);
- return (temp ? gen_rtx_fmt_ee (GET_CODE (x), to_mode,
- temp, XEXP (x, 1))
- : temp);
- }
- break;
-
- case UNSPEC:
- /* Assume that all UNSPECs in a constant address can be converted
- operand-by-operand. We could add a target hook if some targets
- require different behavior. */
- if (in_const && GET_MODE (x) == from_mode)
- {
- unsigned int n = XVECLEN (x, 0);
- rtvec v = gen_rtvec (n);
- for (unsigned int i = 0; i < n; ++i)
- {
- rtx op = XVECEXP (x, 0, i);
- if (GET_MODE (op) == from_mode)
- op = convert_memory_address_addr_space_1 (to_mode, op, as,
- in_const, no_emit);
- RTVEC_ELT (v, i) = op;
- }
- return gen_rtx_UNSPEC (to_mode, v, XINT (x, 1));
- }
- break;
-
- default:
- break;
- }
-
- if (no_emit)
- return NULL_RTX;
-
- return convert_modes (to_mode, from_mode,
- x, POINTERS_EXTEND_UNSIGNED);
-#endif /* defined(POINTERS_EXTEND_UNSIGNED) */
-}
-
-/* Given X, a memory address in address space AS' pointer mode, convert it to
- an address in the address space's address mode, or vice versa (TO_MODE says
- which way). We take advantage of the fact that pointers are not allowed to
- overflow by commuting arithmetic operations over conversions so that address
- arithmetic insns can be used. */
-
-rtx
-convert_memory_address_addr_space (scalar_int_mode to_mode, rtx x,
- addr_space_t as)
-{
- return convert_memory_address_addr_space_1 (to_mode, x, as, false, false);
-}
-
-
-/* Return something equivalent to X but valid as a memory address for something
- of mode MODE in the named address space AS. When X is not itself valid,
- this works by copying X or subexpressions of it into registers. */
-
-rtx
-memory_address_addr_space (machine_mode mode, rtx x, addr_space_t as)
-{
- rtx oldx = x;
- scalar_int_mode address_mode = targetm.addr_space.address_mode (as);
-
- x = convert_memory_address_addr_space (address_mode, x, as);
-
- /* By passing constant addresses through registers
- we get a chance to cse them. */
- if (! cse_not_expected && CONSTANT_P (x) && CONSTANT_ADDRESS_P (x))
- x = force_reg (address_mode, x);
-
- /* We get better cse by rejecting indirect addressing at this stage.
- Let the combiner create indirect addresses where appropriate.
- For now, generate the code so that the subexpressions useful to share
- are visible. But not if cse won't be done! */
- else
- {
- if (! cse_not_expected && !REG_P (x))
- x = break_out_memory_refs (x);
-
- /* At this point, any valid address is accepted. */
- if (memory_address_addr_space_p (mode, x, as))
- goto done;
-
- /* If it was valid before but breaking out memory refs invalidated it,
- use it the old way. */
- if (memory_address_addr_space_p (mode, oldx, as))
- {
- x = oldx;
- goto done;
- }
-
- /* Perform machine-dependent transformations on X
- in certain cases. This is not necessary since the code
- below can handle all possible cases, but machine-dependent
- transformations can make better code. */
- {
- rtx orig_x = x;
- x = targetm.addr_space.legitimize_address (x, oldx, mode, as);
- if (orig_x != x && memory_address_addr_space_p (mode, x, as))
- goto done;
- }
-
- /* PLUS and MULT can appear in special ways
- as the result of attempts to make an address usable for indexing.
- Usually they are dealt with by calling force_operand, below.
- But a sum containing constant terms is special
- if removing them makes the sum a valid address:
- then we generate that address in a register
- and index off of it. We do this because it often makes
- shorter code, and because the addresses thus generated
- in registers often become common subexpressions. */
- if (GET_CODE (x) == PLUS)
- {
- rtx constant_term = const0_rtx;
- rtx y = eliminate_constant_term (x, &constant_term);
- if (constant_term == const0_rtx
- || ! memory_address_addr_space_p (mode, y, as))
- x = force_operand (x, NULL_RTX);
- else
- {
- y = gen_rtx_PLUS (GET_MODE (x), copy_to_reg (y), constant_term);
- if (! memory_address_addr_space_p (mode, y, as))
- x = force_operand (x, NULL_RTX);
- else
- x = y;
- }
- }
-
- else if (GET_CODE (x) == MULT || GET_CODE (x) == MINUS)
- x = force_operand (x, NULL_RTX);
-
- /* If we have a register that's an invalid address,
- it must be a hard reg of the wrong class. Copy it to a pseudo. */
- else if (REG_P (x))
- x = copy_to_reg (x);
-
- /* Last resort: copy the value to a register, since
- the register is a valid address. */
- else
- x = force_reg (address_mode, x);
- }
-
- done:
-
- gcc_assert (memory_address_addr_space_p (mode, x, as));
- /* If we didn't change the address, we are done. Otherwise, mark
- a reg as a pointer if we have REG or REG + CONST_INT. */
- if (oldx == x)
- return x;
- else if (REG_P (x))
- mark_reg_pointer (x, BITS_PER_UNIT);
- else if (GET_CODE (x) == PLUS
- && REG_P (XEXP (x, 0))
- && CONST_INT_P (XEXP (x, 1)))
- mark_reg_pointer (XEXP (x, 0), BITS_PER_UNIT);
-
- /* OLDX may have been the address on a temporary. Update the address
- to indicate that X is now used. */
- update_temp_slot_address (oldx, x);
-
- return x;
-}
-
-/* Convert a mem ref into one with a valid memory address.
- Pass through anything else unchanged. */
-
-rtx
-validize_mem (rtx ref)
-{
- if (!MEM_P (ref))
- return ref;
- ref = use_anchored_address (ref);
- if (memory_address_addr_space_p (GET_MODE (ref), XEXP (ref, 0),
- MEM_ADDR_SPACE (ref)))
- return ref;
-
- /* Don't alter REF itself, since that is probably a stack slot. */
- return replace_equiv_address (ref, XEXP (ref, 0));
-}
-
-/* If X is a memory reference to a member of an object block, try rewriting
- it to use an anchor instead. Return the new memory reference on success
- and the old one on failure. */
-
-rtx
-use_anchored_address (rtx x)
-{
- rtx base;
- HOST_WIDE_INT offset;
- machine_mode mode;
-
- if (!flag_section_anchors)
- return x;
-
- if (!MEM_P (x))
- return x;
-
- /* Split the address into a base and offset. */
- base = XEXP (x, 0);
- offset = 0;
- if (GET_CODE (base) == CONST
- && GET_CODE (XEXP (base, 0)) == PLUS
- && CONST_INT_P (XEXP (XEXP (base, 0), 1)))
- {
- offset += INTVAL (XEXP (XEXP (base, 0), 1));
- base = XEXP (XEXP (base, 0), 0);
- }
-
- /* Check whether BASE is suitable for anchors. */
- if (GET_CODE (base) != SYMBOL_REF
- || !SYMBOL_REF_HAS_BLOCK_INFO_P (base)
- || SYMBOL_REF_ANCHOR_P (base)
- || SYMBOL_REF_BLOCK (base) == NULL
- || !targetm.use_anchors_for_symbol_p (base))
- return x;
-
- /* Decide where BASE is going to be. */
- place_block_symbol (base);
-
- /* Get the anchor we need to use. */
- offset += SYMBOL_REF_BLOCK_OFFSET (base);
- base = get_section_anchor (SYMBOL_REF_BLOCK (base), offset,
- SYMBOL_REF_TLS_MODEL (base));
-
- /* Work out the offset from the anchor. */
- offset -= SYMBOL_REF_BLOCK_OFFSET (base);
-
- /* If we're going to run a CSE pass, force the anchor into a register.
- We will then be able to reuse registers for several accesses, if the
- target costs say that that's worthwhile. */
- mode = GET_MODE (base);
- if (!cse_not_expected)
- base = force_reg (mode, base);
-
- return replace_equiv_address (x, plus_constant (mode, base, offset));
-}
-
-/* Copy the value or contents of X to a new temp reg and return that reg. */
-
-rtx
-copy_to_reg (rtx x)
-{
- rtx temp = gen_reg_rtx (GET_MODE (x));
-
- /* If not an operand, must be an address with PLUS and MULT so
- do the computation. */
- if (! general_operand (x, VOIDmode))
- x = force_operand (x, temp);
-
- if (x != temp)
- emit_move_insn (temp, x);
-
- return temp;
-}
-
-/* Like copy_to_reg but always give the new register mode Pmode
- in case X is a constant. */
-
-rtx
-copy_addr_to_reg (rtx x)
-{
- return copy_to_mode_reg (Pmode, x);
-}
-
-/* Like copy_to_reg but always give the new register mode MODE
- in case X is a constant. */
-
-rtx
-copy_to_mode_reg (machine_mode mode, rtx x)
-{
- rtx temp = gen_reg_rtx (mode);
-
- /* If not an operand, must be an address with PLUS and MULT so
- do the computation. */
- if (! general_operand (x, VOIDmode))
- x = force_operand (x, temp);
-
- gcc_assert (GET_MODE (x) == mode || GET_MODE (x) == VOIDmode);
- if (x != temp)
- emit_move_insn (temp, x);
- return temp;
-}
-
-/* Load X into a register if it is not already one.
- Use mode MODE for the register.
- X should be valid for mode MODE, but it may be a constant which
- is valid for all integer modes; that's why caller must specify MODE.
-
- The caller must not alter the value in the register we return,
- since we mark it as a "constant" register. */
-
-rtx
-force_reg (machine_mode mode, rtx x)
-{
- rtx temp, set;
- rtx_insn *insn;
-
- if (REG_P (x))
- return x;
-
- if (general_operand (x, mode))
- {
- temp = gen_reg_rtx (mode);
- insn = emit_move_insn (temp, x);
- }
- else
- {
- temp = force_operand (x, NULL_RTX);
- if (REG_P (temp))
- insn = get_last_insn ();
- else
- {
- rtx temp2 = gen_reg_rtx (mode);
- insn = emit_move_insn (temp2, temp);
- temp = temp2;
- }
- }
-
- /* Let optimizers know that TEMP's value never changes
- and that X can be substituted for it. Don't get confused
- if INSN set something else (such as a SUBREG of TEMP). */
- if (CONSTANT_P (x)
- && (set = single_set (insn)) != 0
- && SET_DEST (set) == temp
- && ! rtx_equal_p (x, SET_SRC (set)))
- set_unique_reg_note (insn, REG_EQUAL, x);
-
- /* Let optimizers know that TEMP is a pointer, and if so, the
- known alignment of that pointer. */
- {
- unsigned align = 0;
- if (GET_CODE (x) == SYMBOL_REF)
- {
- align = BITS_PER_UNIT;
- if (SYMBOL_REF_DECL (x) && DECL_P (SYMBOL_REF_DECL (x)))
- align = DECL_ALIGN (SYMBOL_REF_DECL (x));
- }
- else if (GET_CODE (x) == LABEL_REF)
- align = BITS_PER_UNIT;
- else if (GET_CODE (x) == CONST
- && GET_CODE (XEXP (x, 0)) == PLUS
- && GET_CODE (XEXP (XEXP (x, 0), 0)) == SYMBOL_REF
- && CONST_INT_P (XEXP (XEXP (x, 0), 1)))
- {
- rtx s = XEXP (XEXP (x, 0), 0);
- rtx c = XEXP (XEXP (x, 0), 1);
- unsigned sa, ca;
-
- sa = BITS_PER_UNIT;
- if (SYMBOL_REF_DECL (s) && DECL_P (SYMBOL_REF_DECL (s)))
- sa = DECL_ALIGN (SYMBOL_REF_DECL (s));
-
- if (INTVAL (c) == 0)
- align = sa;
- else
- {
- ca = ctz_hwi (INTVAL (c)) * BITS_PER_UNIT;
- align = MIN (sa, ca);
- }
- }
-
- if (align || (MEM_P (x) && MEM_POINTER (x)))
- mark_reg_pointer (temp, align);
- }
-
- return temp;
-}
-
-/* If X is a memory ref, copy its contents to a new temp reg and return
- that reg. Otherwise, return X. */
-
-rtx
-force_not_mem (rtx x)
-{
- rtx temp;
-
- if (!MEM_P (x) || GET_MODE (x) == BLKmode)
- return x;
-
- temp = gen_reg_rtx (GET_MODE (x));
-
- if (MEM_POINTER (x))
- REG_POINTER (temp) = 1;
-
- emit_move_insn (temp, x);
- return temp;
-}
-
-/* Copy X to TARGET (if it's nonzero and a reg)
- or to a new temp reg and return that reg.
- MODE is the mode to use for X in case it is a constant. */
-
-rtx
-copy_to_suggested_reg (rtx x, rtx target, machine_mode mode)
-{
- rtx temp;
-
- if (target && REG_P (target))
- temp = target;
- else
- temp = gen_reg_rtx (mode);
-
- emit_move_insn (temp, x);
- return temp;
-}
-
-/* Return the mode to use to pass or return a scalar of TYPE and MODE.
- PUNSIGNEDP points to the signedness of the type and may be adjusted
- to show what signedness to use on extension operations.
-
- FOR_RETURN is nonzero if the caller is promoting the return value
- of FNDECL, else it is for promoting args. */
-
-machine_mode
-promote_function_mode (const_tree type, machine_mode mode, int *punsignedp,
- const_tree funtype, int for_return)
-{
- /* Called without a type node for a libcall. */
- if (type == NULL_TREE)
- {
- if (INTEGRAL_MODE_P (mode))
- return targetm.calls.promote_function_mode (NULL_TREE, mode,
- punsignedp, funtype,
- for_return);
- else
- return mode;
- }
-
- switch (TREE_CODE (type))
- {
- case INTEGER_TYPE: case ENUMERAL_TYPE: case BOOLEAN_TYPE:
- case REAL_TYPE: case OFFSET_TYPE: case FIXED_POINT_TYPE:
- case POINTER_TYPE: case REFERENCE_TYPE:
- return targetm.calls.promote_function_mode (type, mode, punsignedp, funtype,
- for_return);
-
- default:
- return mode;
- }
-}
-/* Return the mode to use to store a scalar of TYPE and MODE.
- PUNSIGNEDP points to the signedness of the type and may be adjusted
- to show what signedness to use on extension operations. */
-
-machine_mode
-promote_mode (const_tree type ATTRIBUTE_UNUSED, machine_mode mode,
- int *punsignedp ATTRIBUTE_UNUSED)
-{
-#ifdef PROMOTE_MODE
- enum tree_code code;
- int unsignedp;
- scalar_mode smode;
-#endif
-
- /* For libcalls this is invoked without TYPE from the backends
- TARGET_PROMOTE_FUNCTION_MODE hooks. Don't do anything in that
- case. */
- if (type == NULL_TREE)
- return mode;
-
- /* FIXME: this is the same logic that was there until GCC 4.4, but we
- probably want to test POINTERS_EXTEND_UNSIGNED even if PROMOTE_MODE
- is not defined. The affected targets are M32C, S390, SPARC. */
-#ifdef PROMOTE_MODE
- code = TREE_CODE (type);
- unsignedp = *punsignedp;
-
- switch (code)
- {
- case INTEGER_TYPE: case ENUMERAL_TYPE: case BOOLEAN_TYPE:
- case REAL_TYPE: case OFFSET_TYPE: case FIXED_POINT_TYPE:
- /* Values of these types always have scalar mode. */
- smode = as_a <scalar_mode> (mode);
- PROMOTE_MODE (smode, unsignedp, type);
- *punsignedp = unsignedp;
- return smode;
-
-#ifdef POINTERS_EXTEND_UNSIGNED
- case REFERENCE_TYPE:
- case POINTER_TYPE:
- *punsignedp = POINTERS_EXTEND_UNSIGNED;
- return targetm.addr_space.address_mode
- (TYPE_ADDR_SPACE (TREE_TYPE (type)));
-#endif
-
- default:
- return mode;
- }
-#else
- return mode;
-#endif
-}
-
-
-/* Use one of promote_mode or promote_function_mode to find the promoted
- mode of DECL. If PUNSIGNEDP is not NULL, store there the unsignedness
- of DECL after promotion. */
-
-machine_mode
-promote_decl_mode (const_tree decl, int *punsignedp)
-{
- tree type = TREE_TYPE (decl);
- int unsignedp = TYPE_UNSIGNED (type);
- machine_mode mode = DECL_MODE (decl);
- machine_mode pmode;
-
- if (TREE_CODE (decl) == RESULT_DECL && !DECL_BY_REFERENCE (decl))
- pmode = promote_function_mode (type, mode, &unsignedp,
- TREE_TYPE (current_function_decl), 1);
- else if (TREE_CODE (decl) == RESULT_DECL || TREE_CODE (decl) == PARM_DECL)
- pmode = promote_function_mode (type, mode, &unsignedp,
- TREE_TYPE (current_function_decl), 2);
- else
- pmode = promote_mode (type, mode, &unsignedp);
-
- if (punsignedp)
- *punsignedp = unsignedp;
- return pmode;
-}
-
-/* Return the promoted mode for name. If it is a named SSA_NAME, it
- is the same as promote_decl_mode. Otherwise, it is the promoted
- mode of a temp decl of same type as the SSA_NAME, if we had created
- one. */
-
-machine_mode
-promote_ssa_mode (const_tree name, int *punsignedp)
-{
- gcc_assert (TREE_CODE (name) == SSA_NAME);
-
- /* Partitions holding parms and results must be promoted as expected
- by function.c. */
- if (SSA_NAME_VAR (name)
- && (TREE_CODE (SSA_NAME_VAR (name)) == PARM_DECL
- || TREE_CODE (SSA_NAME_VAR (name)) == RESULT_DECL))
- {
- machine_mode mode = promote_decl_mode (SSA_NAME_VAR (name), punsignedp);
- if (mode != BLKmode)
- return mode;
- }
-
- tree type = TREE_TYPE (name);
- int unsignedp = TYPE_UNSIGNED (type);
- machine_mode pmode = promote_mode (type, TYPE_MODE (type), &unsignedp);
- if (punsignedp)
- *punsignedp = unsignedp;
-
- return pmode;
-}
-
-
-
-/* Controls the behavior of {anti_,}adjust_stack. */
-static bool suppress_reg_args_size;
-
-/* A helper for adjust_stack and anti_adjust_stack. */
-
-static void
-adjust_stack_1 (rtx adjust, bool anti_p)
-{
- rtx temp;
- rtx_insn *insn;
-
- /* Hereafter anti_p means subtract_p. */
- if (!STACK_GROWS_DOWNWARD)
- anti_p = !anti_p;
-
- temp = expand_binop (Pmode,
- anti_p ? sub_optab : add_optab,
- stack_pointer_rtx, adjust, stack_pointer_rtx, 0,
- OPTAB_LIB_WIDEN);
-
- if (temp != stack_pointer_rtx)
- insn = emit_move_insn (stack_pointer_rtx, temp);
- else
- {
- insn = get_last_insn ();
- temp = single_set (insn);
- gcc_assert (temp != NULL && SET_DEST (temp) == stack_pointer_rtx);
- }
-
- if (!suppress_reg_args_size)
- add_args_size_note (insn, stack_pointer_delta);
-}
-
-/* Adjust the stack pointer by ADJUST (an rtx for a number of bytes).
- This pops when ADJUST is positive. ADJUST need not be constant. */
-
-void
-adjust_stack (rtx adjust)
-{
- if (adjust == const0_rtx)
- return;
-
- /* We expect all variable sized adjustments to be multiple of
- PREFERRED_STACK_BOUNDARY. */
- poly_int64 const_adjust;
- if (poly_int_rtx_p (adjust, &const_adjust))
- stack_pointer_delta -= const_adjust;
-
- adjust_stack_1 (adjust, false);
-}
-
-/* Adjust the stack pointer by minus ADJUST (an rtx for a number of bytes).
- This pushes when ADJUST is positive. ADJUST need not be constant. */
-
-void
-anti_adjust_stack (rtx adjust)
-{
- if (adjust == const0_rtx)
- return;
-
- /* We expect all variable sized adjustments to be multiple of
- PREFERRED_STACK_BOUNDARY. */
- poly_int64 const_adjust;
- if (poly_int_rtx_p (adjust, &const_adjust))
- stack_pointer_delta += const_adjust;
-
- adjust_stack_1 (adjust, true);
-}
-
-/* Round the size of a block to be pushed up to the boundary required
- by this machine. SIZE is the desired size, which need not be constant. */
-
-static rtx
-round_push (rtx size)
-{
- rtx align_rtx, alignm1_rtx;
-
- if (!SUPPORTS_STACK_ALIGNMENT
- || crtl->preferred_stack_boundary == MAX_SUPPORTED_STACK_ALIGNMENT)
- {
- int align = crtl->preferred_stack_boundary / BITS_PER_UNIT;
-
- if (align == 1)
- return size;
-
- if (CONST_INT_P (size))
- {
- HOST_WIDE_INT new_size = (INTVAL (size) + align - 1) / align * align;
-
- if (INTVAL (size) != new_size)
- size = GEN_INT (new_size);
- return size;
- }
-
- align_rtx = GEN_INT (align);
- alignm1_rtx = GEN_INT (align - 1);
- }
- else
- {
- /* If crtl->preferred_stack_boundary might still grow, use
- virtual_preferred_stack_boundary_rtx instead. This will be
- substituted by the right value in vregs pass and optimized
- during combine. */
- align_rtx = virtual_preferred_stack_boundary_rtx;
- alignm1_rtx = force_operand (plus_constant (Pmode, align_rtx, -1),
- NULL_RTX);
- }
-
- /* CEIL_DIV_EXPR needs to worry about the addition overflowing,
- but we know it can't. So add ourselves and then do
- TRUNC_DIV_EXPR. */
- size = expand_binop (Pmode, add_optab, size, alignm1_rtx,
- NULL_RTX, 1, OPTAB_LIB_WIDEN);
- size = expand_divmod (0, TRUNC_DIV_EXPR, Pmode, size, align_rtx,
- NULL_RTX, 1);
- size = expand_mult (Pmode, size, align_rtx, NULL_RTX, 1);
-
- return size;
-}
-
-/* Save the stack pointer for the purpose in SAVE_LEVEL. PSAVE is a pointer
- to a previously-created save area. If no save area has been allocated,
- this function will allocate one. If a save area is specified, it
- must be of the proper mode. */
-
-void
-emit_stack_save (enum save_level save_level, rtx *psave)
-{
- rtx sa = *psave;
- /* The default is that we use a move insn and save in a Pmode object. */
- rtx_insn *(*fcn) (rtx, rtx) = gen_move_insn;
- machine_mode mode = STACK_SAVEAREA_MODE (save_level);
-
- /* See if this machine has anything special to do for this kind of save. */
- switch (save_level)
- {
- case SAVE_BLOCK:
- if (targetm.have_save_stack_block ())
- fcn = targetm.gen_save_stack_block;
- break;
- case SAVE_FUNCTION:
- if (targetm.have_save_stack_function ())
- fcn = targetm.gen_save_stack_function;
- break;
- case SAVE_NONLOCAL:
- if (targetm.have_save_stack_nonlocal ())
- fcn = targetm.gen_save_stack_nonlocal;
- break;
- default:
- break;
- }
-
- /* If there is no save area and we have to allocate one, do so. Otherwise
- verify the save area is the proper mode. */
-
- if (sa == 0)
- {
- if (mode != VOIDmode)
- {
- if (save_level == SAVE_NONLOCAL)
- *psave = sa = assign_stack_local (mode, GET_MODE_SIZE (mode), 0);
- else
- *psave = sa = gen_reg_rtx (mode);
- }
- }
-
- do_pending_stack_adjust ();
- if (sa != 0)
- sa = validize_mem (sa);
- emit_insn (fcn (sa, stack_pointer_rtx));
-}
-
-/* Restore the stack pointer for the purpose in SAVE_LEVEL. SA is the save
- area made by emit_stack_save. If it is zero, we have nothing to do. */
-
-void
-emit_stack_restore (enum save_level save_level, rtx sa)
-{
- /* The default is that we use a move insn. */
- rtx_insn *(*fcn) (rtx, rtx) = gen_move_insn;
-
- /* If stack_realign_drap, the x86 backend emits a prologue that aligns both
- STACK_POINTER and HARD_FRAME_POINTER.
- If stack_realign_fp, the x86 backend emits a prologue that aligns only
- STACK_POINTER. This renders the HARD_FRAME_POINTER unusable for accessing
- aligned variables, which is reflected in ix86_can_eliminate.
- We normally still have the realigned STACK_POINTER that we can use.
- But if there is a stack restore still present at reload, it can trigger
- mark_not_eliminable for the STACK_POINTER, leaving no way to eliminate
- FRAME_POINTER into a hard reg.
- To prevent this situation, we force need_drap if we emit a stack
- restore. */
- if (SUPPORTS_STACK_ALIGNMENT)
- crtl->need_drap = true;
-
- /* See if this machine has anything special to do for this kind of save. */
- switch (save_level)
- {
- case SAVE_BLOCK:
- if (targetm.have_restore_stack_block ())
- fcn = targetm.gen_restore_stack_block;
- break;
- case SAVE_FUNCTION:
- if (targetm.have_restore_stack_function ())
- fcn = targetm.gen_restore_stack_function;
- break;
- case SAVE_NONLOCAL:
- if (targetm.have_restore_stack_nonlocal ())
- fcn = targetm.gen_restore_stack_nonlocal;
- break;
- default:
- break;
- }
-
- if (sa != 0)
- {
- sa = validize_mem (sa);
- /* These clobbers prevent the scheduler from moving
- references to variable arrays below the code
- that deletes (pops) the arrays. */
- emit_clobber (gen_rtx_MEM (BLKmode, gen_rtx_SCRATCH (VOIDmode)));
- emit_clobber (gen_rtx_MEM (BLKmode, stack_pointer_rtx));
- }
-
- discard_pending_stack_adjust ();
-
- emit_insn (fcn (stack_pointer_rtx, sa));
-}
-
-/* Invoke emit_stack_save on the nonlocal_goto_save_area for the current
- function. This should be called whenever we allocate or deallocate
- dynamic stack space. */
-
-void
-update_nonlocal_goto_save_area (void)
-{
- tree t_save;
- rtx r_save;
-
- /* The nonlocal_goto_save_area object is an array of N pointers. The
- first one is used for the frame pointer save; the rest are sized by
- STACK_SAVEAREA_MODE. Create a reference to array index 1, the first
- of the stack save area slots. */
- t_save = build4 (ARRAY_REF,
- TREE_TYPE (TREE_TYPE (cfun->nonlocal_goto_save_area)),
- cfun->nonlocal_goto_save_area,
- integer_one_node, NULL_TREE, NULL_TREE);
- r_save = expand_expr (t_save, NULL_RTX, VOIDmode, EXPAND_WRITE);
-
- emit_stack_save (SAVE_NONLOCAL, &r_save);
-}
-
-/* Record a new stack level for the current function. This should be called
- whenever we allocate or deallocate dynamic stack space. */
-
-void
-record_new_stack_level (void)
-{
- /* Record the new stack level for nonlocal gotos. */
- if (cfun->nonlocal_goto_save_area)
- update_nonlocal_goto_save_area ();
-
- /* Record the new stack level for SJLJ exceptions. */
- if (targetm_common.except_unwind_info (&global_options) == UI_SJLJ)
- update_sjlj_context ();
-}
-
-/* Return an rtx doing runtime alignment to REQUIRED_ALIGN on TARGET. */
-
-rtx
-align_dynamic_address (rtx target, unsigned required_align)
-{
- /* CEIL_DIV_EXPR needs to worry about the addition overflowing,
- but we know it can't. So add ourselves and then do
- TRUNC_DIV_EXPR. */
- target = expand_binop (Pmode, add_optab, target,
- gen_int_mode (required_align / BITS_PER_UNIT - 1,
- Pmode),
- NULL_RTX, 1, OPTAB_LIB_WIDEN);
- target = expand_divmod (0, TRUNC_DIV_EXPR, Pmode, target,
- gen_int_mode (required_align / BITS_PER_UNIT,
- Pmode),
- NULL_RTX, 1);
- target = expand_mult (Pmode, target,
- gen_int_mode (required_align / BITS_PER_UNIT,
- Pmode),
- NULL_RTX, 1);
-
- return target;
-}
-
-/* Return an rtx through *PSIZE, representing the size of an area of memory to
- be dynamically pushed on the stack.
-
- *PSIZE is an rtx representing the size of the area.
-
- SIZE_ALIGN is the alignment (in bits) that we know SIZE has. This
- parameter may be zero. If so, a proper value will be extracted
- from SIZE if it is constant, otherwise BITS_PER_UNIT will be assumed.
-
- REQUIRED_ALIGN is the alignment (in bits) required for the region
- of memory.
-
- If PSTACK_USAGE_SIZE is not NULL it points to a value that is increased for
- the additional size returned. */
-void
-get_dynamic_stack_size (rtx *psize, unsigned size_align,
- unsigned required_align,
- HOST_WIDE_INT *pstack_usage_size)
-{
- rtx size = *psize;
-
- /* Ensure the size is in the proper mode. */
- if (GET_MODE (size) != VOIDmode && GET_MODE (size) != Pmode)
- size = convert_to_mode (Pmode, size, 1);
-
- if (CONST_INT_P (size))
- {
- unsigned HOST_WIDE_INT lsb;
-
- lsb = INTVAL (size);
- lsb &= -lsb;
-
- /* Watch out for overflow truncating to "unsigned". */
- if (lsb > UINT_MAX / BITS_PER_UNIT)
- size_align = 1u << (HOST_BITS_PER_INT - 1);
- else
- size_align = (unsigned)lsb * BITS_PER_UNIT;
- }
- else if (size_align < BITS_PER_UNIT)
- size_align = BITS_PER_UNIT;
-
- /* We can't attempt to minimize alignment necessary, because we don't
- know the final value of preferred_stack_boundary yet while executing
- this code. */
- if (crtl->preferred_stack_boundary < PREFERRED_STACK_BOUNDARY)
- crtl->preferred_stack_boundary = PREFERRED_STACK_BOUNDARY;
-
- /* We will need to ensure that the address we return is aligned to
- REQUIRED_ALIGN. At this point in the compilation, we don't always
- know the final value of the STACK_DYNAMIC_OFFSET used in function.c
- (it might depend on the size of the outgoing parameter lists, for
- example), so we must preventively align the value. We leave space
- in SIZE for the hole that might result from the alignment operation. */
-
- unsigned known_align = REGNO_POINTER_ALIGN (VIRTUAL_STACK_DYNAMIC_REGNUM);
- if (known_align == 0)
- known_align = BITS_PER_UNIT;
- if (required_align > known_align)
- {
- unsigned extra = (required_align - known_align) / BITS_PER_UNIT;
- size = plus_constant (Pmode, size, extra);
- size = force_operand (size, NULL_RTX);
- if (size_align > known_align)
- size_align = known_align;
-
- if (flag_stack_usage_info && pstack_usage_size)
- *pstack_usage_size += extra;
- }
-
- /* Round the size to a multiple of the required stack alignment.
- Since the stack is presumed to be rounded before this allocation,
- this will maintain the required alignment.
-
- If the stack grows downward, we could save an insn by subtracting
- SIZE from the stack pointer and then aligning the stack pointer.
- The problem with this is that the stack pointer may be unaligned
- between the execution of the subtraction and alignment insns and
- some machines do not allow this. Even on those that do, some
- signal handlers malfunction if a signal should occur between those
- insns. Since this is an extremely rare event, we have no reliable
- way of knowing which systems have this problem. So we avoid even
- momentarily mis-aligning the stack. */
- if (size_align % MAX_SUPPORTED_STACK_ALIGNMENT != 0)
- {
- size = round_push (size);
-
- if (flag_stack_usage_info && pstack_usage_size)
- {
- int align = crtl->preferred_stack_boundary / BITS_PER_UNIT;
- *pstack_usage_size =
- (*pstack_usage_size + align - 1) / align * align;
- }
- }
-
- *psize = size;
-}
-
-/* Return the number of bytes to "protect" on the stack for -fstack-check.
-
- "protect" in the context of -fstack-check means how many bytes we need
- to always ensure are available on the stack; as a consequence, this is
- also how many bytes are first skipped when probing the stack.
-
- On some targets we want to reuse the -fstack-check prologue support
- to give a degree of protection against stack clashing style attacks.
-
- In that scenario we do not want to skip bytes before probing as that
- would render the stack clash protections useless.
-
- So we never use STACK_CHECK_PROTECT directly. Instead we indirectly
- use it through this helper, which allows to provide different values
- for -fstack-check and -fstack-clash-protection. */
-
-HOST_WIDE_INT
-get_stack_check_protect (void)
-{
- if (flag_stack_clash_protection)
- return 0;
-
- return STACK_CHECK_PROTECT;
-}
-
-/* Return an rtx representing the address of an area of memory dynamically
- pushed on the stack.
-
- Any required stack pointer alignment is preserved.
-
- SIZE is an rtx representing the size of the area.
-
- SIZE_ALIGN is the alignment (in bits) that we know SIZE has. This
- parameter may be zero. If so, a proper value will be extracted
- from SIZE if it is constant, otherwise BITS_PER_UNIT will be assumed.
-
- REQUIRED_ALIGN is the alignment (in bits) required for the region
- of memory.
-
- MAX_SIZE is an upper bound for SIZE, if SIZE is not constant, or -1 if
- no such upper bound is known.
-
- If CANNOT_ACCUMULATE is set to TRUE, the caller guarantees that the
- stack space allocated by the generated code cannot be added with itself
- in the course of the execution of the function. It is always safe to
- pass FALSE here and the following criterion is sufficient in order to
- pass TRUE: every path in the CFG that starts at the allocation point and
- loops to it executes the associated deallocation code. */
-
-rtx
-allocate_dynamic_stack_space (rtx size, unsigned size_align,
- unsigned required_align,
- HOST_WIDE_INT max_size,
- bool cannot_accumulate)
-{
- HOST_WIDE_INT stack_usage_size = -1;
- rtx_code_label *final_label;
- rtx final_target, target;
-
- /* If we're asking for zero bytes, it doesn't matter what we point
- to since we can't dereference it. But return a reasonable
- address anyway. */
- if (size == const0_rtx)
- return virtual_stack_dynamic_rtx;
-
- /* Otherwise, show we're calling alloca or equivalent. */
- cfun->calls_alloca = 1;
-
- /* If stack usage info is requested, look into the size we are passed.
- We need to do so this early to avoid the obfuscation that may be
- introduced later by the various alignment operations. */
- if (flag_stack_usage_info)
- {
- if (CONST_INT_P (size))
- stack_usage_size = INTVAL (size);
- else if (REG_P (size))
- {
- /* Look into the last emitted insn and see if we can deduce
- something for the register. */
- rtx_insn *insn;
- rtx set, note;
- insn = get_last_insn ();
- if ((set = single_set (insn)) && rtx_equal_p (SET_DEST (set), size))
- {
- if (CONST_INT_P (SET_SRC (set)))
- stack_usage_size = INTVAL (SET_SRC (set));
- else if ((note = find_reg_equal_equiv_note (insn))
- && CONST_INT_P (XEXP (note, 0)))
- stack_usage_size = INTVAL (XEXP (note, 0));
- }
- }
-
- /* If the size is not constant, try the maximum size. */
- if (stack_usage_size < 0)
- stack_usage_size = max_size;
-
- /* If the size is still not constant, we can't say anything. */
- if (stack_usage_size < 0)
- {
- current_function_has_unbounded_dynamic_stack_size = 1;
- stack_usage_size = 0;
- }
- }
-
- get_dynamic_stack_size (&size, size_align, required_align, &stack_usage_size);
-
- target = gen_reg_rtx (Pmode);
-
- /* The size is supposed to be fully adjusted at this point so record it
- if stack usage info is requested. */
- if (flag_stack_usage_info)
- {
- current_function_dynamic_stack_size += stack_usage_size;
-
- /* ??? This is gross but the only safe stance in the absence
- of stack usage oriented flow analysis. */
- if (!cannot_accumulate)
- current_function_has_unbounded_dynamic_stack_size = 1;
- }
-
- do_pending_stack_adjust ();
-
- final_label = NULL;
- final_target = NULL_RTX;
-
- /* If we are splitting the stack, we need to ask the backend whether
- there is enough room on the current stack. If there isn't, or if
- the backend doesn't know how to tell is, then we need to call a
- function to allocate memory in some other way. This memory will
- be released when we release the current stack segment. The
- effect is that stack allocation becomes less efficient, but at
- least it doesn't cause a stack overflow. */
- if (flag_split_stack)
- {
- rtx_code_label *available_label;
- rtx ask, space, func;
-
- available_label = NULL;
-
- if (targetm.have_split_stack_space_check ())
- {
- available_label = gen_label_rtx ();
-
- /* This instruction will branch to AVAILABLE_LABEL if there
- are SIZE bytes available on the stack. */
- emit_insn (targetm.gen_split_stack_space_check
- (size, available_label));
- }
-
- /* The __morestack_allocate_stack_space function will allocate
- memory using malloc. If the alignment of the memory returned
- by malloc does not meet REQUIRED_ALIGN, we increase SIZE to
- make sure we allocate enough space. */
- if (MALLOC_ABI_ALIGNMENT >= required_align)
- ask = size;
- else
- ask = expand_binop (Pmode, add_optab, size,
- gen_int_mode (required_align / BITS_PER_UNIT - 1,
- Pmode),
- NULL_RTX, 1, OPTAB_LIB_WIDEN);
-
- func = init_one_libfunc ("__morestack_allocate_stack_space");
-
- space = emit_library_call_value (func, target, LCT_NORMAL, Pmode,
- ask, Pmode);
-
- if (available_label == NULL_RTX)
- return space;
-
- final_target = gen_reg_rtx (Pmode);
-
- emit_move_insn (final_target, space);
-
- final_label = gen_label_rtx ();
- emit_jump (final_label);
-
- emit_label (available_label);
- }
-
- /* We ought to be called always on the toplevel and stack ought to be aligned
- properly. */
- gcc_assert (multiple_p (stack_pointer_delta,
- PREFERRED_STACK_BOUNDARY / BITS_PER_UNIT));
-
- /* If needed, check that we have the required amount of stack. Take into
- account what has already been checked. */
- if (STACK_CHECK_MOVING_SP)
- ;
- else if (flag_stack_check == GENERIC_STACK_CHECK)
- probe_stack_range (STACK_OLD_CHECK_PROTECT + STACK_CHECK_MAX_FRAME_SIZE,
- size);
- else if (flag_stack_check == STATIC_BUILTIN_STACK_CHECK)
- probe_stack_range (get_stack_check_protect (), size);
-
- /* Don't let anti_adjust_stack emit notes. */
- suppress_reg_args_size = true;
-
- /* Perform the required allocation from the stack. Some systems do
- this differently than simply incrementing/decrementing from the
- stack pointer, such as acquiring the space by calling malloc(). */
- if (targetm.have_allocate_stack ())
- {
- class expand_operand ops[2];
- /* We don't have to check against the predicate for operand 0 since
- TARGET is known to be a pseudo of the proper mode, which must
- be valid for the operand. */
- create_fixed_operand (&ops[0], target);
- create_convert_operand_to (&ops[1], size, STACK_SIZE_MODE, true);
- expand_insn (targetm.code_for_allocate_stack, 2, ops);
- }
- else
- {
- poly_int64 saved_stack_pointer_delta;
-
- if (!STACK_GROWS_DOWNWARD)
- emit_move_insn (target, virtual_stack_dynamic_rtx);
-
- /* Check stack bounds if necessary. */
- if (crtl->limit_stack)
- {
- rtx available;
- rtx_code_label *space_available = gen_label_rtx ();
- if (STACK_GROWS_DOWNWARD)
- available = expand_binop (Pmode, sub_optab,
- stack_pointer_rtx, stack_limit_rtx,
- NULL_RTX, 1, OPTAB_WIDEN);
- else
- available = expand_binop (Pmode, sub_optab,
- stack_limit_rtx, stack_pointer_rtx,
- NULL_RTX, 1, OPTAB_WIDEN);
-
- emit_cmp_and_jump_insns (available, size, GEU, NULL_RTX, Pmode, 1,
- space_available);
- if (targetm.have_trap ())
- emit_insn (targetm.gen_trap ());
- else
- error ("stack limits not supported on this target");
- emit_barrier ();
- emit_label (space_available);
- }
-
- saved_stack_pointer_delta = stack_pointer_delta;
-
- /* If stack checking or stack clash protection is requested,
- then probe the stack while allocating space from it. */
- if (flag_stack_check && STACK_CHECK_MOVING_SP)
- anti_adjust_stack_and_probe (size, false);
- else if (flag_stack_clash_protection)
- anti_adjust_stack_and_probe_stack_clash (size);
- else
- anti_adjust_stack (size);
-
- /* Even if size is constant, don't modify stack_pointer_delta.
- The constant size alloca should preserve
- crtl->preferred_stack_boundary alignment. */
- stack_pointer_delta = saved_stack_pointer_delta;
-
- if (STACK_GROWS_DOWNWARD)
- emit_move_insn (target, virtual_stack_dynamic_rtx);
- }
-
- suppress_reg_args_size = false;
-
- /* Finish up the split stack handling. */
- if (final_label != NULL_RTX)
- {
- gcc_assert (flag_split_stack);
- emit_move_insn (final_target, target);
- emit_label (final_label);
- target = final_target;
- }
-
- target = align_dynamic_address (target, required_align);
-
- /* Now that we've committed to a return value, mark its alignment. */
- mark_reg_pointer (target, required_align);
-
- /* Record the new stack level. */
- record_new_stack_level ();
-
- return target;
-}
-
-/* Return an rtx representing the address of an area of memory already
- statically pushed onto the stack in the virtual stack vars area. (It is
- assumed that the area is allocated in the function prologue.)
-
- Any required stack pointer alignment is preserved.
-
- OFFSET is the offset of the area into the virtual stack vars area.
-
- REQUIRED_ALIGN is the alignment (in bits) required for the region
- of memory.
-
- BASE is the rtx of the base of this virtual stack vars area.
- The only time this is not `virtual_stack_vars_rtx` is when tagging pointers
- on the stack. */
-
-rtx
-get_dynamic_stack_base (poly_int64 offset, unsigned required_align, rtx base)
-{
- rtx target;
-
- if (crtl->preferred_stack_boundary < PREFERRED_STACK_BOUNDARY)
- crtl->preferred_stack_boundary = PREFERRED_STACK_BOUNDARY;
-
- target = gen_reg_rtx (Pmode);
- emit_move_insn (target, base);
- target = expand_binop (Pmode, add_optab, target,
- gen_int_mode (offset, Pmode),
- NULL_RTX, 1, OPTAB_LIB_WIDEN);
- target = align_dynamic_address (target, required_align);
-
- /* Now that we've committed to a return value, mark its alignment. */
- mark_reg_pointer (target, required_align);
-
- return target;
-}
-
-/* A front end may want to override GCC's stack checking by providing a
- run-time routine to call to check the stack, so provide a mechanism for
- calling that routine. */
-
-static GTY(()) rtx stack_check_libfunc;
-
-void
-set_stack_check_libfunc (const char *libfunc_name)
-{
- gcc_assert (stack_check_libfunc == NULL_RTX);
- stack_check_libfunc = gen_rtx_SYMBOL_REF (Pmode, libfunc_name);
- tree ptype
- = Pmode == ptr_mode
- ? ptr_type_node
- : lang_hooks.types.type_for_mode (Pmode, 1);
- tree ftype
- = build_function_type_list (void_type_node, ptype, NULL_TREE);
- tree decl = build_decl (UNKNOWN_LOCATION, FUNCTION_DECL,
- get_identifier (libfunc_name), ftype);
- DECL_EXTERNAL (decl) = 1;
- SET_SYMBOL_REF_DECL (stack_check_libfunc, decl);
-}
-
-/* Emit one stack probe at ADDRESS, an address within the stack. */
-
-void
-emit_stack_probe (rtx address)
-{
- if (targetm.have_probe_stack_address ())
- {
- class expand_operand ops[1];
- insn_code icode = targetm.code_for_probe_stack_address;
- create_address_operand (ops, address);
- maybe_legitimize_operands (icode, 0, 1, ops);
- expand_insn (icode, 1, ops);
- }
- else
- {
- rtx memref = gen_rtx_MEM (word_mode, address);
-
- MEM_VOLATILE_P (memref) = 1;
- memref = validize_mem (memref);
-
- /* See if we have an insn to probe the stack. */
- if (targetm.have_probe_stack ())
- emit_insn (targetm.gen_probe_stack (memref));
- else
- emit_move_insn (memref, const0_rtx);
- }
-}
-
-/* Probe a range of stack addresses from FIRST to FIRST+SIZE, inclusive.
- FIRST is a constant and size is a Pmode RTX. These are offsets from
- the current stack pointer. STACK_GROWS_DOWNWARD says whether to add
- or subtract them from the stack pointer. */
-
-#define PROBE_INTERVAL (1 << STACK_CHECK_PROBE_INTERVAL_EXP)
-
-#if STACK_GROWS_DOWNWARD
-#define STACK_GROW_OP MINUS
-#define STACK_GROW_OPTAB sub_optab
-#define STACK_GROW_OFF(off) -(off)
-#else
-#define STACK_GROW_OP PLUS
-#define STACK_GROW_OPTAB add_optab
-#define STACK_GROW_OFF(off) (off)
-#endif
-
-void
-probe_stack_range (HOST_WIDE_INT first, rtx size)
-{
- /* First ensure SIZE is Pmode. */
- if (GET_MODE (size) != VOIDmode && GET_MODE (size) != Pmode)
- size = convert_to_mode (Pmode, size, 1);
-
- /* Next see if we have a function to check the stack. */
- if (stack_check_libfunc)
- {
- rtx addr = memory_address (Pmode,
- gen_rtx_fmt_ee (STACK_GROW_OP, Pmode,
- stack_pointer_rtx,
- plus_constant (Pmode,
- size, first)));
- emit_library_call (stack_check_libfunc, LCT_THROW, VOIDmode,
- addr, Pmode);
- }
-
- /* Next see if we have an insn to check the stack. */
- else if (targetm.have_check_stack ())
- {
- class expand_operand ops[1];
- rtx addr = memory_address (Pmode,
- gen_rtx_fmt_ee (STACK_GROW_OP, Pmode,
- stack_pointer_rtx,
- plus_constant (Pmode,
- size, first)));
- bool success;
- create_input_operand (&ops[0], addr, Pmode);
- success = maybe_expand_insn (targetm.code_for_check_stack, 1, ops);
- gcc_assert (success);
- }
-
- /* Otherwise we have to generate explicit probes. If we have a constant
- small number of them to generate, that's the easy case. */
- else if (CONST_INT_P (size) && INTVAL (size) < 7 * PROBE_INTERVAL)
- {
- HOST_WIDE_INT isize = INTVAL (size), i;
- rtx addr;
-
- /* Probe at FIRST + N * PROBE_INTERVAL for values of N from 1 until
- it exceeds SIZE. If only one probe is needed, this will not
- generate any code. Then probe at FIRST + SIZE. */
- for (i = PROBE_INTERVAL; i < isize; i += PROBE_INTERVAL)
- {
- addr = memory_address (Pmode,
- plus_constant (Pmode, stack_pointer_rtx,
- STACK_GROW_OFF (first + i)));
- emit_stack_probe (addr);
- }
-
- addr = memory_address (Pmode,
- plus_constant (Pmode, stack_pointer_rtx,
- STACK_GROW_OFF (first + isize)));
- emit_stack_probe (addr);
- }
-
- /* In the variable case, do the same as above, but in a loop. Note that we
- must be extra careful with variables wrapping around because we might be
- at the very top (or the very bottom) of the address space and we have to
- be able to handle this case properly; in particular, we use an equality
- test for the loop condition. */
- else
- {
- rtx rounded_size, rounded_size_op, test_addr, last_addr, temp;
- rtx_code_label *loop_lab = gen_label_rtx ();
- rtx_code_label *end_lab = gen_label_rtx ();
-
- /* Step 1: round SIZE to the previous multiple of the interval. */
-
- /* ROUNDED_SIZE = SIZE & -PROBE_INTERVAL */
- rounded_size
- = simplify_gen_binary (AND, Pmode, size,
- gen_int_mode (-PROBE_INTERVAL, Pmode));
- rounded_size_op = force_operand (rounded_size, NULL_RTX);
-
-
- /* Step 2: compute initial and final value of the loop counter. */
-
- /* TEST_ADDR = SP + FIRST. */
- test_addr = force_operand (gen_rtx_fmt_ee (STACK_GROW_OP, Pmode,
- stack_pointer_rtx,
- gen_int_mode (first, Pmode)),
- NULL_RTX);
-
- /* LAST_ADDR = SP + FIRST + ROUNDED_SIZE. */
- last_addr = force_operand (gen_rtx_fmt_ee (STACK_GROW_OP, Pmode,
- test_addr,
- rounded_size_op), NULL_RTX);
-
-
- /* Step 3: the loop
-
- while (TEST_ADDR != LAST_ADDR)
- {
- TEST_ADDR = TEST_ADDR + PROBE_INTERVAL
- probe at TEST_ADDR
- }
-
- probes at FIRST + N * PROBE_INTERVAL for values of N from 1
- until it is equal to ROUNDED_SIZE. */
-
- emit_label (loop_lab);
-
- /* Jump to END_LAB if TEST_ADDR == LAST_ADDR. */
- emit_cmp_and_jump_insns (test_addr, last_addr, EQ, NULL_RTX, Pmode, 1,
- end_lab);
-
- /* TEST_ADDR = TEST_ADDR + PROBE_INTERVAL. */
- temp = expand_binop (Pmode, STACK_GROW_OPTAB, test_addr,
- gen_int_mode (PROBE_INTERVAL, Pmode), test_addr,
- 1, OPTAB_WIDEN);
-
- gcc_assert (temp == test_addr);
-
- /* Probe at TEST_ADDR. */
- emit_stack_probe (test_addr);
-
- emit_jump (loop_lab);
-
- emit_label (end_lab);
-
-
- /* Step 4: probe at FIRST + SIZE if we cannot assert at compile-time
- that SIZE is equal to ROUNDED_SIZE. */
-
- /* TEMP = SIZE - ROUNDED_SIZE. */
- temp = simplify_gen_binary (MINUS, Pmode, size, rounded_size);
- if (temp != const0_rtx)
- {
- rtx addr;
-
- if (CONST_INT_P (temp))
- {
- /* Use [base + disp} addressing mode if supported. */
- HOST_WIDE_INT offset = INTVAL (temp);
- addr = memory_address (Pmode,
- plus_constant (Pmode, last_addr,
- STACK_GROW_OFF (offset)));
- }
- else
- {
- /* Manual CSE if the difference is not known at compile-time. */
- temp = gen_rtx_MINUS (Pmode, size, rounded_size_op);
- addr = memory_address (Pmode,
- gen_rtx_fmt_ee (STACK_GROW_OP, Pmode,
- last_addr, temp));
- }
-
- emit_stack_probe (addr);
- }
- }
-
- /* Make sure nothing is scheduled before we are done. */
- emit_insn (gen_blockage ());
-}
-
-/* Compute parameters for stack clash probing a dynamic stack
- allocation of SIZE bytes.
-
- We compute ROUNDED_SIZE, LAST_ADDR, RESIDUAL and PROBE_INTERVAL.
-
- Additionally we conditionally dump the type of probing that will
- be needed given the values computed. */
-
-void
-compute_stack_clash_protection_loop_data (rtx *rounded_size, rtx *last_addr,
- rtx *residual,
- HOST_WIDE_INT *probe_interval,
- rtx size)
-{
- /* Round SIZE down to STACK_CLASH_PROTECTION_PROBE_INTERVAL */
- *probe_interval
- = 1 << param_stack_clash_protection_probe_interval;
- *rounded_size = simplify_gen_binary (AND, Pmode, size,
- GEN_INT (-*probe_interval));
-
- /* Compute the value of the stack pointer for the last iteration.
- It's just SP + ROUNDED_SIZE. */
- rtx rounded_size_op = force_operand (*rounded_size, NULL_RTX);
- *last_addr = force_operand (gen_rtx_fmt_ee (STACK_GROW_OP, Pmode,
- stack_pointer_rtx,
- rounded_size_op),
- NULL_RTX);
-
- /* Compute any residuals not allocated by the loop above. Residuals
- are just the ROUNDED_SIZE - SIZE. */
- *residual = simplify_gen_binary (MINUS, Pmode, size, *rounded_size);
-
- /* Dump key information to make writing tests easy. */
- if (dump_file)
- {
- if (*rounded_size == CONST0_RTX (Pmode))
- fprintf (dump_file,
- "Stack clash skipped dynamic allocation and probing loop.\n");
- else if (CONST_INT_P (*rounded_size)
- && INTVAL (*rounded_size) <= 4 * *probe_interval)
- fprintf (dump_file,
- "Stack clash dynamic allocation and probing inline.\n");
- else if (CONST_INT_P (*rounded_size))
- fprintf (dump_file,
- "Stack clash dynamic allocation and probing in "
- "rotated loop.\n");
- else
- fprintf (dump_file,
- "Stack clash dynamic allocation and probing in loop.\n");
-
- if (*residual != CONST0_RTX (Pmode))
- fprintf (dump_file,
- "Stack clash dynamic allocation and probing residuals.\n");
- else
- fprintf (dump_file,
- "Stack clash skipped dynamic allocation and "
- "probing residuals.\n");
- }
-}
-
-/* Emit the start of an allocate/probe loop for stack
- clash protection.
-
- LOOP_LAB and END_LAB are returned for use when we emit the
- end of the loop.
-
- LAST addr is the value for SP which stops the loop. */
-void
-emit_stack_clash_protection_probe_loop_start (rtx *loop_lab,
- rtx *end_lab,
- rtx last_addr,
- bool rotated)
-{
- /* Essentially we want to emit any setup code, the top of loop
- label and the comparison at the top of the loop. */
- *loop_lab = gen_label_rtx ();
- *end_lab = gen_label_rtx ();
-
- emit_label (*loop_lab);
- if (!rotated)
- emit_cmp_and_jump_insns (stack_pointer_rtx, last_addr, EQ, NULL_RTX,
- Pmode, 1, *end_lab);
-}
-
-/* Emit the end of a stack clash probing loop.
-
- This consists of just the jump back to LOOP_LAB and
- emitting END_LOOP after the loop. */
-
-void
-emit_stack_clash_protection_probe_loop_end (rtx loop_lab, rtx end_loop,
- rtx last_addr, bool rotated)
-{
- if (rotated)
- emit_cmp_and_jump_insns (stack_pointer_rtx, last_addr, NE, NULL_RTX,
- Pmode, 1, loop_lab);
- else
- emit_jump (loop_lab);
-
- emit_label (end_loop);
-
-}
-
-/* Adjust the stack pointer by minus SIZE (an rtx for a number of bytes)
- while probing it. This pushes when SIZE is positive. SIZE need not
- be constant.
-
- This is subtly different than anti_adjust_stack_and_probe to try and
- prevent stack-clash attacks
-
- 1. It must assume no knowledge of the probing state, any allocation
- must probe.
-
- Consider the case of a 1 byte alloca in a loop. If the sum of the
- allocations is large, then this could be used to jump the guard if
- probes were not emitted.
-
- 2. It never skips probes, whereas anti_adjust_stack_and_probe will
- skip the probe on the first PROBE_INTERVAL on the assumption it
- was already done in the prologue and in previous allocations.
-
- 3. It only allocates and probes SIZE bytes, it does not need to
- allocate/probe beyond that because this probing style does not
- guarantee signal handling capability if the guard is hit. */
-
-void
-anti_adjust_stack_and_probe_stack_clash (rtx size)
-{
- /* First ensure SIZE is Pmode. */
- if (GET_MODE (size) != VOIDmode && GET_MODE (size) != Pmode)
- size = convert_to_mode (Pmode, size, 1);
-
- /* We can get here with a constant size on some targets. */
- rtx rounded_size, last_addr, residual;
- HOST_WIDE_INT probe_interval, probe_range;
- bool target_probe_range_p = false;
- compute_stack_clash_protection_loop_data (&rounded_size, &last_addr,
- &residual, &probe_interval, size);
-
- /* Get the back-end specific probe ranges. */
- probe_range = targetm.stack_clash_protection_alloca_probe_range ();
- target_probe_range_p = probe_range != 0;
- gcc_assert (probe_range >= 0);
-
- /* If no back-end specific range defined, default to the top of the newly
- allocated range. */
- if (probe_range == 0)
- probe_range = probe_interval - GET_MODE_SIZE (word_mode);
-
- if (rounded_size != CONST0_RTX (Pmode))
- {
- if (CONST_INT_P (rounded_size)
- && INTVAL (rounded_size) <= 4 * probe_interval)
- {
- for (HOST_WIDE_INT i = 0;
- i < INTVAL (rounded_size);
- i += probe_interval)
- {
- anti_adjust_stack (GEN_INT (probe_interval));
- /* The prologue does not probe residuals. Thus the offset
- here to probe just beyond what the prologue had already
- allocated. */
- emit_stack_probe (plus_constant (Pmode, stack_pointer_rtx,
- probe_range));
-
- emit_insn (gen_blockage ());
- }
- }
- else
- {
- rtx loop_lab, end_loop;
- bool rotate_loop = CONST_INT_P (rounded_size);
- emit_stack_clash_protection_probe_loop_start (&loop_lab, &end_loop,
- last_addr, rotate_loop);
-
- anti_adjust_stack (GEN_INT (probe_interval));
-
- /* The prologue does not probe residuals. Thus the offset here
- to probe just beyond what the prologue had already
- allocated. */
- emit_stack_probe (plus_constant (Pmode, stack_pointer_rtx,
- probe_range));
-
- emit_stack_clash_protection_probe_loop_end (loop_lab, end_loop,
- last_addr, rotate_loop);
- emit_insn (gen_blockage ());
- }
- }
-
- if (residual != CONST0_RTX (Pmode))
- {
- rtx label = NULL_RTX;
- /* RESIDUAL could be zero at runtime and in that case *sp could
- hold live data. Furthermore, we do not want to probe into the
- red zone.
-
- If TARGET_PROBE_RANGE_P then the target has promised it's safe to
- probe at offset 0. In which case we no longer have to check for
- RESIDUAL == 0. However we still need to probe at the right offset
- when RESIDUAL > PROBE_RANGE, in which case we probe at PROBE_RANGE.
-
- If !TARGET_PROBE_RANGE_P then go ahead and just guard the probe at *sp
- on RESIDUAL != 0 at runtime if RESIDUAL is not a compile time constant.
- */
- anti_adjust_stack (residual);
-
- if (!CONST_INT_P (residual))
- {
- label = gen_label_rtx ();
- rtx_code op = target_probe_range_p ? LT : EQ;
- rtx probe_cmp_value = target_probe_range_p
- ? gen_rtx_CONST_INT (GET_MODE (residual), probe_range)
- : CONST0_RTX (GET_MODE (residual));
-
- if (target_probe_range_p)
- emit_stack_probe (stack_pointer_rtx);
-
- emit_cmp_and_jump_insns (residual, probe_cmp_value,
- op, NULL_RTX, Pmode, 1, label);
- }
-
- rtx x = NULL_RTX;
-
- /* If RESIDUAL isn't a constant and TARGET_PROBE_RANGE_P then we probe up
- by the ABI defined safe value. */
- if (!CONST_INT_P (residual) && target_probe_range_p)
- x = GEN_INT (probe_range);
- /* If RESIDUAL is a constant but smaller than the ABI defined safe value,
- we still want to probe up, but the safest amount if a word. */
- else if (target_probe_range_p)
- {
- if (INTVAL (residual) <= probe_range)
- x = GEN_INT (GET_MODE_SIZE (word_mode));
- else
- x = GEN_INT (probe_range);
- }
- else
- /* If nothing else, probe at the top of the new allocation. */
- x = plus_constant (Pmode, residual, -GET_MODE_SIZE (word_mode));
-
- emit_stack_probe (gen_rtx_PLUS (Pmode, stack_pointer_rtx, x));
-
- emit_insn (gen_blockage ());
- if (!CONST_INT_P (residual))
- emit_label (label);
- }
-}
-
-
-/* Adjust the stack pointer by minus SIZE (an rtx for a number of bytes)
- while probing it. This pushes when SIZE is positive. SIZE need not
- be constant. If ADJUST_BACK is true, adjust back the stack pointer
- by plus SIZE at the end. */
-
-void
-anti_adjust_stack_and_probe (rtx size, bool adjust_back)
-{
- /* We skip the probe for the first interval + a small dope of 4 words and
- probe that many bytes past the specified size to maintain a protection
- area at the botton of the stack. */
- const int dope = 4 * UNITS_PER_WORD;
-
- /* First ensure SIZE is Pmode. */
- if (GET_MODE (size) != VOIDmode && GET_MODE (size) != Pmode)
- size = convert_to_mode (Pmode, size, 1);
-
- /* If we have a constant small number of probes to generate, that's the
- easy case. */
- if (CONST_INT_P (size) && INTVAL (size) < 7 * PROBE_INTERVAL)
- {
- HOST_WIDE_INT isize = INTVAL (size), i;
- bool first_probe = true;
-
- /* Adjust SP and probe at PROBE_INTERVAL + N * PROBE_INTERVAL for
- values of N from 1 until it exceeds SIZE. If only one probe is
- needed, this will not generate any code. Then adjust and probe
- to PROBE_INTERVAL + SIZE. */
- for (i = PROBE_INTERVAL; i < isize; i += PROBE_INTERVAL)
- {
- if (first_probe)
- {
- anti_adjust_stack (GEN_INT (2 * PROBE_INTERVAL + dope));
- first_probe = false;
- }
- else
- anti_adjust_stack (GEN_INT (PROBE_INTERVAL));
- emit_stack_probe (stack_pointer_rtx);
- }
-
- if (first_probe)
- anti_adjust_stack (plus_constant (Pmode, size, PROBE_INTERVAL + dope));
- else
- anti_adjust_stack (plus_constant (Pmode, size, PROBE_INTERVAL - i));
- emit_stack_probe (stack_pointer_rtx);
- }
-
- /* In the variable case, do the same as above, but in a loop. Note that we
- must be extra careful with variables wrapping around because we might be
- at the very top (or the very bottom) of the address space and we have to
- be able to handle this case properly; in particular, we use an equality
- test for the loop condition. */
- else
- {
- rtx rounded_size, rounded_size_op, last_addr, temp;
- rtx_code_label *loop_lab = gen_label_rtx ();
- rtx_code_label *end_lab = gen_label_rtx ();
-
-
- /* Step 1: round SIZE to the previous multiple of the interval. */
-
- /* ROUNDED_SIZE = SIZE & -PROBE_INTERVAL */
- rounded_size
- = simplify_gen_binary (AND, Pmode, size,
- gen_int_mode (-PROBE_INTERVAL, Pmode));
- rounded_size_op = force_operand (rounded_size, NULL_RTX);
-
-
- /* Step 2: compute initial and final value of the loop counter. */
-
- /* SP = SP_0 + PROBE_INTERVAL. */
- anti_adjust_stack (GEN_INT (PROBE_INTERVAL + dope));
-
- /* LAST_ADDR = SP_0 + PROBE_INTERVAL + ROUNDED_SIZE. */
- last_addr = force_operand (gen_rtx_fmt_ee (STACK_GROW_OP, Pmode,
- stack_pointer_rtx,
- rounded_size_op), NULL_RTX);
-
-
- /* Step 3: the loop
-
- while (SP != LAST_ADDR)
- {
- SP = SP + PROBE_INTERVAL
- probe at SP
- }
-
- adjusts SP and probes at PROBE_INTERVAL + N * PROBE_INTERVAL for
- values of N from 1 until it is equal to ROUNDED_SIZE. */
-
- emit_label (loop_lab);
-
- /* Jump to END_LAB if SP == LAST_ADDR. */
- emit_cmp_and_jump_insns (stack_pointer_rtx, last_addr, EQ, NULL_RTX,
- Pmode, 1, end_lab);
-
- /* SP = SP + PROBE_INTERVAL and probe at SP. */
- anti_adjust_stack (GEN_INT (PROBE_INTERVAL));
- emit_stack_probe (stack_pointer_rtx);
-
- emit_jump (loop_lab);
-
- emit_label (end_lab);
-
-
- /* Step 4: adjust SP and probe at PROBE_INTERVAL + SIZE if we cannot
- assert at compile-time that SIZE is equal to ROUNDED_SIZE. */
-
- /* TEMP = SIZE - ROUNDED_SIZE. */
- temp = simplify_gen_binary (MINUS, Pmode, size, rounded_size);
- if (temp != const0_rtx)
- {
- /* Manual CSE if the difference is not known at compile-time. */
- if (GET_CODE (temp) != CONST_INT)
- temp = gen_rtx_MINUS (Pmode, size, rounded_size_op);
- anti_adjust_stack (temp);
- emit_stack_probe (stack_pointer_rtx);
- }
- }
-
- /* Adjust back and account for the additional first interval. */
- if (adjust_back)
- adjust_stack (plus_constant (Pmode, size, PROBE_INTERVAL + dope));
- else
- adjust_stack (GEN_INT (PROBE_INTERVAL + dope));
-}
-
-/* Return an rtx representing the register or memory location
- in which a scalar value of data type VALTYPE
- was returned by a function call to function FUNC.
- FUNC is a FUNCTION_DECL, FNTYPE a FUNCTION_TYPE node if the precise
- function is known, otherwise 0.
- OUTGOING is 1 if on a machine with register windows this function
- should return the register in which the function will put its result
- and 0 otherwise. */
-
-rtx
-hard_function_value (const_tree valtype, const_tree func, const_tree fntype,
- int outgoing ATTRIBUTE_UNUSED)
-{
- rtx val;
-
- val = targetm.calls.function_value (valtype, func ? func : fntype, outgoing);
-
- if (REG_P (val)
- && GET_MODE (val) == BLKmode)
- {
- unsigned HOST_WIDE_INT bytes = arg_int_size_in_bytes (valtype);
- opt_scalar_int_mode tmpmode;
-
- /* int_size_in_bytes can return -1. We don't need a check here
- since the value of bytes will then be large enough that no
- mode will match anyway. */
-
- FOR_EACH_MODE_IN_CLASS (tmpmode, MODE_INT)
- {
- /* Have we found a large enough mode? */
- if (GET_MODE_SIZE (tmpmode.require ()) >= bytes)
- break;
- }
-
- PUT_MODE (val, tmpmode.require ());
- }
- return val;
-}
-
-/* Return an rtx representing the register or memory location
- in which a scalar value of mode MODE was returned by a library call. */
-
-rtx
-hard_libcall_value (machine_mode mode, rtx fun)
-{
- return targetm.calls.libcall_value (mode, fun);
-}
-
-/* Look up the tree code for a given rtx code
- to provide the arithmetic operation for real_arithmetic.
- The function returns an int because the caller may not know
- what `enum tree_code' means. */
-
-int
-rtx_to_tree_code (enum rtx_code code)
-{
- enum tree_code tcode;
-
- switch (code)
- {
- case PLUS:
- tcode = PLUS_EXPR;
- break;
- case MINUS:
- tcode = MINUS_EXPR;
- break;
- case MULT:
- tcode = MULT_EXPR;
- break;
- case DIV:
- tcode = RDIV_EXPR;
- break;
- case SMIN:
- tcode = MIN_EXPR;
- break;
- case SMAX:
- tcode = MAX_EXPR;
- break;
- default:
- tcode = LAST_AND_UNUSED_TREE_CODE;
- break;
- }
- return ((int) tcode);
-}
-
-#include "gt-explow.h"
generated by cgit v1.1 at 2025-09-02 21:36:43 +0000