/* Common hooks for IBM RS/6000. Copyright (C) 1991-2015 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 . */ #include "config.h" #include "system.h" #include "coretypes.h" #include "diagnostic-core.h" #include "tm.h" #include "common/common-target.h" #include "common/common-target-def.h" #include "opts.h" #include "flags.h" #include "params.h" /* Implement TARGET_OPTION_OPTIMIZATION_TABLE. */ static const struct default_options rs6000_option_optimization_table[] = { { OPT_LEVELS_1_PLUS, OPT_fomit_frame_pointer, NULL, 1 }, { OPT_LEVELS_NONE, 0, NULL, 0 } }; /* Implement TARGET_OPTION_INIT_STRUCT. */ static void rs6000_option_init_struct (struct gcc_options *opts) { if (DEFAULT_ABI == ABI_DARWIN) /* The Darwin libraries never set errno, so we might as well avoid calling them when that's the only reason we would. */ opts->x_flag_errno_math = 0; /* Enable section anchors by default. */ if (!TARGET_MACHO) opts->x_flag_section_anchors = 1; } /* Implement TARGET_OPTION_DEFAULT_PARAMS. */ static void rs6000_option_default_params (void) { /* Double growth factor to counter reduced min jump length. */ set_default_param_value (PARAM_MAX_GROW_COPY_BB_INSNS, 16); } /* If not otherwise specified by a target, make 'long double' equivalent to 'double'. */ #ifndef RS6000_DEFAULT_LONG_DOUBLE_SIZE #define RS6000_DEFAULT_LONG_DOUBLE_SIZE 64 #endif /* Implement TARGET_HANDLE_OPTION. */ static bool rs6000_handle_option (struct gcc_options *opts, struct gcc_options *opts_set, const struct cl_decoded_option *decoded, location_t loc) { enum fpu_type_t fpu_type = FPU_NONE; char *p, *q; size_t code = decoded->opt_index; const char *arg = decoded->arg; int value = decoded->value; switch (code) { case OPT_mfull_toc: opts->x_rs6000_isa_flags &= ~OPTION_MASK_MINIMAL_TOC; opts->x_TARGET_NO_FP_IN_TOC = 0; opts->x_TARGET_NO_SUM_IN_TOC = 0; opts_set->x_rs6000_isa_flags |= OPTION_MASK_MINIMAL_TOC; #ifdef TARGET_USES_SYSV4_OPT /* Note, V.4 no longer uses a normal TOC, so make -mfull-toc, be just the same as -mminimal-toc. */ opts->x_rs6000_isa_flags |= OPTION_MASK_MINIMAL_TOC; opts_set->x_rs6000_isa_flags |= OPTION_MASK_MINIMAL_TOC; #endif break; #ifdef TARGET_USES_SYSV4_OPT case OPT_mtoc: /* Make -mtoc behave like -mminimal-toc. */ opts->x_rs6000_isa_flags |= OPTION_MASK_MINIMAL_TOC; opts_set->x_rs6000_isa_flags |= OPTION_MASK_MINIMAL_TOC; break; #endif #ifdef TARGET_USES_AIX64_OPT case OPT_maix64: #else case OPT_m64: #endif opts->x_rs6000_isa_flags |= OPTION_MASK_POWERPC64; opts->x_rs6000_isa_flags |= (~opts_set->x_rs6000_isa_flags & OPTION_MASK_PPC_GFXOPT); opts_set->x_rs6000_isa_flags |= OPTION_MASK_POWERPC64; break; #ifdef TARGET_USES_AIX64_OPT case OPT_maix32: #else case OPT_m32: #endif opts->x_rs6000_isa_flags &= ~OPTION_MASK_POWERPC64; opts_set->x_rs6000_isa_flags |= OPTION_MASK_POWERPC64; break; case OPT_mminimal_toc: if (value == 1) { opts->x_TARGET_NO_FP_IN_TOC = 0; opts->x_TARGET_NO_SUM_IN_TOC = 0; } break; case OPT_mpowerpc_gpopt: case OPT_mpowerpc_gfxopt: break; case OPT_mdebug_: p = ASTRDUP (arg); opts->x_rs6000_debug = 0; while ((q = strtok (p, ",")) != NULL) { unsigned mask = 0; bool invert; p = NULL; if (*q == '!') { invert = true; q++; } else invert = false; if (! strcmp (q, "all")) mask = MASK_DEBUG_ALL; else if (! strcmp (q, "stack")) mask = MASK_DEBUG_STACK; else if (! strcmp (q, "arg")) mask = MASK_DEBUG_ARG; else if (! strcmp (q, "reg")) mask = MASK_DEBUG_REG; else if (! strcmp (q, "addr")) mask = MASK_DEBUG_ADDR; else if (! strcmp (q, "cost")) mask = MASK_DEBUG_COST; else if (! strcmp (q, "target")) mask = MASK_DEBUG_TARGET; else if (! strcmp (q, "builtin")) mask = MASK_DEBUG_BUILTIN; else error_at (loc, "unknown -mdebug-%s switch", q); if (invert) opts->x_rs6000_debug &= ~mask; else opts->x_rs6000_debug |= mask; } break; #ifdef TARGET_USES_SYSV4_OPT case OPT_mrelocatable: if (value == 1) { opts->x_rs6000_isa_flags |= OPTION_MASK_MINIMAL_TOC; opts_set->x_rs6000_isa_flags |= OPTION_MASK_MINIMAL_TOC; opts->x_TARGET_NO_FP_IN_TOC = 1; } break; case OPT_mrelocatable_lib: if (value == 1) { opts->x_rs6000_isa_flags |= (OPTION_MASK_RELOCATABLE | OPTION_MASK_MINIMAL_TOC); opts_set->x_rs6000_isa_flags |= (OPTION_MASK_RELOCATABLE | OPTION_MASK_MINIMAL_TOC); opts->x_TARGET_NO_FP_IN_TOC = 1; } else { opts->x_rs6000_isa_flags &= ~OPTION_MASK_RELOCATABLE; opts_set->x_rs6000_isa_flags |= OPTION_MASK_RELOCATABLE; } break; #endif case OPT_mabi_altivec: /* Enabling the AltiVec ABI turns off the SPE ABI. */ opts->x_rs6000_spe_abi = 0; break; case OPT_mabi_spe: opts->x_rs6000_altivec_abi = 0; break; case OPT_mlong_double_: if (value != 64 && value != 128) { error_at (loc, "unknown switch -mlong-double-%s", arg); opts->x_rs6000_long_double_type_size = RS6000_DEFAULT_LONG_DOUBLE_SIZE; return false; } break; case OPT_msingle_float: if (!TARGET_SINGLE_FPU) warning_at (loc, 0, "-msingle-float option equivalent to -mhard-float"); /* -msingle-float implies -mno-double-float and TARGET_HARD_FLOAT. */ opts->x_rs6000_double_float = 0; opts->x_rs6000_isa_flags &= ~OPTION_MASK_SOFT_FLOAT; opts_set->x_rs6000_isa_flags |= OPTION_MASK_SOFT_FLOAT; break; case OPT_mdouble_float: /* -mdouble-float implies -msingle-float and TARGET_HARD_FLOAT. */ opts->x_rs6000_single_float = 1; opts->x_rs6000_isa_flags &= ~OPTION_MASK_SOFT_FLOAT; opts_set->x_rs6000_isa_flags |= OPTION_MASK_SOFT_FLOAT; break; case OPT_msimple_fpu: if (!TARGET_SINGLE_FPU) warning_at (loc, 0, "-msimple-fpu option ignored"); break; case OPT_mhard_float: /* -mhard_float implies -msingle-float and -mdouble-float. */ opts->x_rs6000_single_float = opts->x_rs6000_double_float = 1; break; case OPT_msoft_float: /* -msoft_float implies -mnosingle-float and -mnodouble-float. */ opts->x_rs6000_single_float = opts->x_rs6000_double_float = 0; break; case OPT_mfpu_: fpu_type = (enum fpu_type_t) value; if (fpu_type != FPU_NONE) { /* If -mfpu is not none, then turn off SOFT_FLOAT, turn on HARD_FLOAT. */ opts->x_rs6000_isa_flags &= ~OPTION_MASK_SOFT_FLOAT; opts_set->x_rs6000_isa_flags |= OPTION_MASK_SOFT_FLOAT; opts->x_rs6000_xilinx_fpu = 1; if (fpu_type == FPU_SF_LITE || fpu_type == FPU_SF_FULL) opts->x_rs6000_single_float = 1; if (fpu_type == FPU_DF_LITE || fpu_type == FPU_DF_FULL) opts->x_rs6000_single_float = opts->x_rs6000_double_float = 1; if (fpu_type == FPU_SF_LITE || fpu_type == FPU_DF_LITE) opts->x_rs6000_simple_fpu = 1; } else { /* -mfpu=none is equivalent to -msoft-float. */ opts->x_rs6000_isa_flags |= OPTION_MASK_SOFT_FLOAT; opts_set->x_rs6000_isa_flags |= OPTION_MASK_SOFT_FLOAT; opts->x_rs6000_single_float = opts->x_rs6000_double_float = 0; } break; case OPT_mrecip: opts->x_rs6000_recip_name = (value) ? "default" : "none"; break; } return true; } #undef TARGET_HANDLE_OPTION #define TARGET_HANDLE_OPTION rs6000_handle_option #undef TARGET_OPTION_INIT_STRUCT #define TARGET_OPTION_INIT_STRUCT rs6000_option_init_struct #undef TARGET_OPTION_DEFAULT_PARAMS #define TARGET_OPTION_DEFAULT_PARAMS rs6000_option_default_params #undef TARGET_OPTION_OPTIMIZATION_TABLE #define TARGET_OPTION_OPTIMIZATION_TABLE rs6000_option_optimization_table struct gcc_targetm_common targetm_common = TARGETM_COMMON_INITIALIZER;