From: Andrew Cagney Date: Mon, 2 Feb 1998 08:25:33 +0000 (+0000) Subject: Always compile FP code (test for FP at run-time). X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=192ae475f9d3c3bddaab0d8274112643ccdcb03a;p=binutils-gdb.git Always compile FP code (test for FP at run-time). Remove dependance of interp.c on gencode.c's output. --- diff --git a/sim/mips/ChangeLog b/sim/mips/ChangeLog index c7205d6b77c..ff698cd471a 100644 --- a/sim/mips/ChangeLog +++ b/sim/mips/ChangeLog @@ -1,3 +1,15 @@ +Mon Feb 2 17:43:15 1998 Andrew Cagney + + * interp.c (oengine.h): Do not include when building with IGEN. + (sim_open): Replace GPRLEN by WITH_TARGET_WORD_BITSIZE. + (sim_info): Ditto for PROCESSOR_64BIT. + (sim_monitor): Replace ut_reg with unsigned_word. + (*): Ditto for t_reg. + (LOADDRMASK): Define. + (sim_open): Remove defunct check that host FP is IEEE compliant, + using software to emulate floating point. + (value_fpr, ...): Always compile, was conditional on HASFPU. + Sun Feb 1 11:15:29 1998 Andrew Cagney * sim-main.h (sim_state): Make the cpu array MAX_NR_PROCESSORS in diff --git a/sim/mips/interp.c b/sim/mips/interp.c index cc61dc68a69..5b2f43f8dc9 100644 --- a/sim/mips/interp.c +++ b/sim/mips/interp.c @@ -75,9 +75,13 @@ char* pr_uword64 PARAMS ((uword64 addr)); /* Get the simulator engine description, without including the code: */ +#if (WITH_IGEN) +#define LOADDRMASK (WITH_TARGET_WORD_BITSIZE == 64 ? 0x7 : 0x3) +#else #define SIM_MANIFESTS #include "oengine.c" #undef SIM_MANIFESTS +#endif /* Within interp.c we refer to the sim_state and sim_cpu directly. */ #define SD sd @@ -331,45 +335,17 @@ sim_open (kind, cb, abfd, argv) SIM_ASSERT (sizeof(int) == (4 * sizeof(char))); SIM_ASSERT (sizeof(word64) == (8 * sizeof(char))); -#if defined(HASFPU) - /* Check that the host FPU conforms to IEEE 754-1985 for the SINGLE - and DOUBLE binary formats. This is a bit nasty, requiring that we - trust the explicit manifests held in the source: */ - /* TODO: We need to cope with the simulated target and the host not - having the same endianness. This will require the high and low - words of a (double) to be swapped when converting between the - host and the simulated target. */ - { - union { - unsigned int i[2]; - double d; - float f[2]; - } s; - - s.d = (double)523.2939453125; - - if ((s.i[0] == 0 && (s.f[1] != (float)4.01102924346923828125 - || s.i[1] != 0x40805A5A)) - || (s.i[1] == 0 && (s.f[0] != (float)4.01102924346923828125 - || s.i[0] != 0x40805A5A))) - { - fprintf(stderr,"The host executing the simulator does not seem to have IEEE 754-1985 std FP\n"); - return 0; - } - } -#endif /* HASFPU */ - /* This is NASTY, in that we are assuming the size of specific registers: */ { int rn; for (rn = 0; (rn < (LAST_EMBED_REGNUM + 1)); rn++) { if (rn < 32) - cpu->register_widths[rn] = GPRLEN; + cpu->register_widths[rn] = WITH_TARGET_WORD_BITSIZE; else if ((rn >= FGRIDX) && (rn < (FGRIDX + 32))) - cpu->register_widths[rn] = GPRLEN; + cpu->register_widths[rn] = WITH_TARGET_WORD_BITSIZE; else if ((rn >= 33) && (rn <= 37)) - cpu->register_widths[rn] = GPRLEN; + cpu->register_widths[rn] = WITH_TARGET_WORD_BITSIZE; else if ((rn == SRIDX) || (rn == FCR0IDX) || (rn == FCR31IDX) || ((rn >= 72) && (rn <= 89))) cpu->register_widths[rn] = 32; else @@ -627,7 +603,7 @@ sim_info (sd,verbose) { sim_io_printf (sd, "MIPS %d-bit %s endian simulator\n", - (PROCESSOR_64BIT ? 64 : 32), + WITH_TARGET_WORD_BITSIZE, (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN ? "Big" : "Little")); #if !defined(FASTSIM) @@ -788,7 +764,7 @@ sim_monitor (SIM_DESC sd, case 2: /* Densan monitor: char inbyte(int waitflag) */ { if (A0 == 0) /* waitflag == NOWAIT */ - V0 = (ut_reg)-1; + V0 = (unsigned_word)-1; } /* Drop through to case 11 */ @@ -798,10 +774,10 @@ sim_monitor (SIM_DESC sd, if (sim_io_read_stdin (sd, &tmp, sizeof(char)) != sizeof(char)) { sim_io_error(sd,"Invalid return from character read"); - V0 = (ut_reg)-1; + V0 = (unsigned_word)-1; } else - V0 = (ut_reg)tmp; + V0 = (unsigned_word)tmp; break; } @@ -967,7 +943,7 @@ store_word (SIM_DESC sd, sim_cpu *cpu, address_word cia, uword64 vaddr, - t_reg val) + signed_word val) { address_word paddr; int uncached; @@ -994,7 +970,7 @@ store_word (SIM_DESC sd, /* Load a word from memory. */ -static t_reg +static signed_word load_word (SIM_DESC sd, sim_cpu *cpu, address_word cia, @@ -1054,7 +1030,7 @@ mips16_entry (SIM_DESC sd, if (aregs < 5) { int i; - t_reg tsp; + signed_word tsp; /* This is the entry pseudo-instruction. */ @@ -1079,7 +1055,7 @@ mips16_entry (SIM_DESC sd, else { int i; - t_reg tsp; + signed_word tsp; /* This is the exit pseudo-instruction. */ @@ -1099,23 +1075,25 @@ mips16_entry (SIM_DESC sd, SP += 32; -#if defined(HASFPU) - if (aregs == 5) - { - FGR[0] = WORD64LO (GPR[4]); - FPR_STATE[0] = fmt_uninterpreted; - } - else if (aregs == 6) + if (CURRENT_FLOATING_POINT == HARD_FLOATING_POINT) { - FGR[0] = WORD64LO (GPR[5]); - FGR[1] = WORD64LO (GPR[4]); - FPR_STATE[0] = fmt_uninterpreted; - FPR_STATE[1] = fmt_uninterpreted; - } -#endif /* defined(HASFPU) */ + if (aregs == 5) + { + FGR[0] = WORD64LO (GPR[4]); + FPR_STATE[0] = fmt_uninterpreted; + } + else if (aregs == 6) + { + FGR[0] = WORD64LO (GPR[5]); + FGR[1] = WORD64LO (GPR[4]); + FPR_STATE[0] = fmt_uninterpreted; + FPR_STATE[1] = fmt_uninterpreted; + } + } PC = RA; } + } /*-- trace support ----------------------------------------------------------*/ @@ -1926,8 +1904,6 @@ cache_op (SIM_DESC sd, /*-- FPU support routines ---------------------------------------------------*/ -#if defined(HASFPU) /* Only needed when building FPU aware simulators */ - /* Numbers are held in normalized form. The SINGLE and DOUBLE binary formats conform to ANSI/IEEE Std 754-1985. */ /* SINGLE precision floating: @@ -2846,7 +2822,6 @@ convert (SIM_DESC sd, return(result64); } -#endif /* HASFPU */ /*-- co-processor support routines ------------------------------------------*/ @@ -2867,23 +2842,25 @@ cop_lw (SIM_DESC sd, int coproc_reg, unsigned int memword) { - switch (coproc_num) { -#if defined(HASFPU) + switch (coproc_num) + { case 1: + if (CURRENT_FLOATING_POINT == HARD_FLOATING_POINT) + { #ifdef DEBUG - printf("DBG: COP_LW: memword = 0x%08X (uword64)memword = 0x%s\n",memword,pr_addr(memword)); + printf("DBG: COP_LW: memword = 0x%08X (uword64)memword = 0x%s\n",memword,pr_addr(memword)); #endif - StoreFPR(coproc_reg,fmt_word,(uword64)memword); - FPR_STATE[coproc_reg] = fmt_uninterpreted; - break; -#endif /* HASFPU */ + StoreFPR(coproc_reg,fmt_word,(uword64)memword); + FPR_STATE[coproc_reg] = fmt_uninterpreted; + break; + } default: #if 0 /* this should be controlled by a configuration option */ - sim_io_printf(sd,"COP_LW(%d,%d,0x%08X) at PC = 0x%s : TODO (architecture specific)\n",coproc_num,coproc_reg,memword,pr_addr(cia)); + sim_io_printf(sd,"COP_LW(%d,%d,0x%08X) at PC = 0x%s : TODO (architecture specific)\n",coproc_num,coproc_reg,memword,pr_addr(cia)); #endif - break; - } + break; + } return; } @@ -2897,11 +2874,12 @@ cop_ld (SIM_DESC sd, uword64 memword) { switch (coproc_num) { -#if defined(HASFPU) case 1: - StoreFPR(coproc_reg,fmt_uninterpreted,memword); - break; -#endif /* HASFPU */ + if (CURRENT_FLOATING_POINT == HARD_FLOATING_POINT) + { + StoreFPR(coproc_reg,fmt_uninterpreted,memword); + break; + } default: #if 0 /* this message should be controlled by a configuration option */ @@ -2922,36 +2900,25 @@ cop_sw (SIM_DESC sd, { unsigned int value = 0; - switch (coproc_num) { -#if defined(HASFPU) + switch (coproc_num) + { case 1: -#if 1 - { - FP_formats hold; - hold = FPR_STATE[coproc_reg]; - FPR_STATE[coproc_reg] = fmt_word; - value = (unsigned int)ValueFPR(coproc_reg,fmt_uninterpreted); - FPR_STATE[coproc_reg] = hold; - } -#else -#if 1 - value = (unsigned int)ValueFPR(coproc_reg,FPR_STATE[coproc_reg]); -#else -#ifdef DEBUG - printf("DBG: COP_SW: reg in format %s (will be accessing as single)\n",DOFMT(FPR_STATE[coproc_reg])); -#endif /* DEBUG */ - value = (unsigned int)ValueFPR(coproc_reg,fmt_single); -#endif -#endif - break; -#endif /* HASFPU */ + if (CURRENT_FLOATING_POINT == HARD_FLOATING_POINT) + { + FP_formats hold; + hold = FPR_STATE[coproc_reg]; + FPR_STATE[coproc_reg] = fmt_word; + value = (unsigned int)ValueFPR(coproc_reg,fmt_uninterpreted); + FPR_STATE[coproc_reg] = hold; + break; + } default: #if 0 /* should be controlled by configuration option */ - sim_io_printf(sd,"COP_SW(%d,%d) at PC = 0x%s : TODO (architecture specific)\n",coproc_num,coproc_reg,pr_addr(cia)); + sim_io_printf(sd,"COP_SW(%d,%d) at PC = 0x%s : TODO (architecture specific)\n",coproc_num,coproc_reg,pr_addr(cia)); #endif - break; - } + break; + } return(value); } @@ -2964,30 +2931,21 @@ cop_sd (SIM_DESC sd, int coproc_reg) { uword64 value = 0; - switch (coproc_num) { -#if defined(HASFPU) + switch (coproc_num) + { case 1: -#if 1 - value = ValueFPR(coproc_reg,fmt_uninterpreted); -#else -#if 1 - value = ValueFPR(coproc_reg,FPR_STATE[coproc_reg]); -#else -#ifdef DEBUG - printf("DBG: COP_SD: reg in format %s (will be accessing as double)\n",DOFMT(FPR_STATE[coproc_reg])); -#endif /* DEBUG */ - value = ValueFPR(coproc_reg,fmt_double); -#endif -#endif - break; -#endif /* HASFPU */ + if (CURRENT_FLOATING_POINT == HARD_FLOATING_POINT) + { + value = ValueFPR(coproc_reg,fmt_uninterpreted); + break; + } default: #if 0 /* should be controlled by configuration option */ - sim_io_printf(sd,"COP_SD(%d,%d) at PC = 0x%s : TODO (architecture specific)\n",coproc_num,coproc_reg,pr_addr(cia)); + sim_io_printf(sd,"COP_SD(%d,%d) at PC = 0x%s : TODO (architecture specific)\n",coproc_num,coproc_reg,pr_addr(cia)); #endif - break; - } + break; + } return(value); } @@ -3376,22 +3334,25 @@ sim_engine_run (sd, next_cpu_nr, nr_cpus, siggnal) printf("pending_slot_reg[%d] = %d\n",index,PENDING_SLOT_REG[index]); printf("pending_slot_value[%d] = 0x%s\n",index,pr_addr(PENDING_SLOT_VALUE[index])); #endif /* DEBUG */ - if (PENDING_SLOT_REG[index] == COCIDX) { -#if defined(HASFPU) - SETFCC(0,((FCR31 & (1 << 23)) ? 1 : 0)); -#else - ; -#endif - } else { - REGISTERS[PENDING_SLOT_REG[index]] = PENDING_SLOT_VALUE[index]; -#if defined(HASFPU) - /* The only time we have PENDING updates to FPU - registers, is when performing binary transfers. This - means we should update the register type field. */ - if ((PENDING_SLOT_REG[index] >= FGRIDX) && (PENDING_SLOT_REG[index] < (FGRIDX + 32))) - FPR_STATE[PENDING_SLOT_REG[index] - FGRIDX] = fmt_uninterpreted; -#endif /* HASFPU */ - } + if (PENDING_SLOT_REG[index] == COCIDX) + { + if (CURRENT_FLOATING_POINT == HARD_FLOATING_POINT) + { + SETFCC(0,((FCR31 & (1 << 23)) ? 1 : 0)); + } + } + else + { + REGISTERS[PENDING_SLOT_REG[index]] = PENDING_SLOT_VALUE[index]; + if (CURRENT_FLOATING_POINT == HARD_FLOATING_POINT) + { + /* The only time we have PENDING updates to FPU + registers, is when performing binary transfers. This + means we should update the register type field. */ + if ((PENDING_SLOT_REG[index] >= FGRIDX) && (PENDING_SLOT_REG[index] < (FGRIDX + 32))) + FPR_STATE[PENDING_SLOT_REG[index] - FGRIDX] = fmt_uninterpreted; + } + } #ifdef DEBUG printf("registers[%d] = 0x%s\n",PENDING_SLOT_REG[index],pr_addr(REGISTERS[PENDING_SLOT_REG[index]])); #endif /* DEBUG */