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[/] [scarts/] [trunk/] [toolchain/] [scarts-binutils/] [binutils-2.19.1/] [cgen/] [cpu/] [sparcfpu.cpu] - Rev 6
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; SPARC 32/64 FPU description. -*- Scheme -*-; This file contains fpu instructions common to both sparc32/sparc64.; It also contains sparc32/64 specific insns, but only when they are a variant; of a collection of common ones (at least that's the current theory).; Copyright (C) 2000 Red Hat, Inc.; This file is part of CGEN.; See file COPYING.CGEN for details.; FP support is defined even for cpu's without an fpu as the instructions; still have to be assembled and the simulator still has to recognize them; so that the appropriate trap can be generated.;; The physical registers are stored as an array of SI values: here `SI'; denotes "set of 32 bits" rather than "32 bit signed integer".;; wip: currently evaluating the various possibilities; Floating point hardware.; The description needs to know whether the fpu is present.; Creating a utility register for this purposes seems reasonable.; Might want an attribute to denote it as such.(dsh h-fpu? "h/w fpu present?" () (register BI))(dnop fpu? "h/w fpu present?" () h-fpu? f-nil)(define-pmacro (build-freg-name n) ((.sym f n) n))(define-hardware(name h-fr32)(semantic-name h-fr)(comment "sparc32 floating point regs")(attrs (MACH32))(type register SI (32))(indices keyword "%" (.map build-freg-name (.iota 32))))(define-hardware(name h-fr64)(semantic-name h-fr)(comment "sparc64 floating point regs")(attrs (MACH64))(type register SI (64))(indices keyword "%" (.map build-freg-name (.iota 64))))(define-hardware(name h-frd32)(semantic-name h-frd)(comment "sparc32 double precision floating point regs")(attrs VIRTUAL (MACH32))(type register DI (16)); ??? This works, but multiple copies of all the register names might be; unpalatable. Another way is to specify a register table plus a constraint.;(indices keyword "%" (.map build-freg-name (.iota 16 0 2)))(get (index) (join DI SI(reg h-fr index)(reg h-fr (add index 1))))(set (index newval)(sequence ()(set (reg h-fr index) (subword SI newval 0))(set (reg h-fr (add index 1)) (subword SI newval 1)))))(define-hardware(name h-frq32)(semantic-name h-frq)(comment "sparc32 quad precision floating point regs")(attrs VIRTUAL (MACH32))(type register TF (8))(indices keyword "%" (.map build-freg-name (.iota 8 0 4)))(get (index) (join TF SI(reg h-fr index)(reg h-fr (add index (const 1)))(reg h-fr (add index (const 2)))(reg h-fr (add index (const 3)))))(set (index newval)(sequence ()(set (reg h-fr index) (subword SI newval 0))(set (reg h-fr (add index (const 1))) (subword SI newval 1))(set (reg h-fr (add index (const 2))) (subword SI newval 2))(set (reg h-fr (add index (const 3))) (subword SI newval 3)))))(define-hardware(name h-frd64)(semantic-name h-frd)(comment "sparc64 double precision floating point regs")(attrs VIRTUAL (MACH64))(type register DF (32))(indices keyword "%" (.map build-freg-name (.iota 32 0 2)))(get (index) (join DF SI(reg h-fr index)(reg h-fr (add index (const 1)))))(set (index newval)(sequence ()(set (reg h-fr index) (subword SI newval 0))(set (reg h-fr (add index (const 1))) (subword SI newval 1)))))(define-hardware(name h-frq64)(semantic-name h-frq)(comment "sparc64 quad precision floating point regs")(attrs VIRTUAL (MACH64))(type register TF (16))(indices keyword "%" (.map build-freg-name (.iota 16 0 4)))(get (index) (join TF SI(reg h-fr index)(reg h-fr (add index (const 1)))(reg h-fr (add index (const 2)))(reg h-fr (add index (const 3)))))(set (index newval)(sequence ()(set (reg h-fr index) (subword SI newval 0))(set (reg h-fr (add index (const 1))) (subword SI newval 1))(set (reg h-fr (add index (const 2))) (subword SI newval 2))(set (reg h-fr (add index (const 3))) (subword SI newval 3))))); fp condition codes(dsh h-fcc0 "%fcc0" () (register (UINT 2)))(dsh h-fcc1 "%fcc1" ((MACH64)) (register (UINT 2)))(dsh h-fcc2 "%fcc2" ((MACH64)) (register (UINT 2)))(dsh h-fcc3 "%fcc3" ((MACH64)) (register (UINT 2))); sparc64 fpu control regs(dsh h-fsr-rd "fsr rounding direction" ((MACH64)) (register UQI))(dsh h-fsr-tem "fsr trap enable mask" ((MACH64)) (register UQI))(dsh h-fsr-ns "fsr nonstandard fp" ((MACH64)) (register BI))(dsh h-fsr-ver "fsr version" ((MACH64)) (register UQI))(dsh h-fsr-ftt "fsr fp trap type" ((MACH64)) (register UQI))(dsh h-fsr-qne "fsr queue not empty" ((MACH64)) (register BI))(dsh h-fsr-aexc "fsr accrued exception" ((MACH64)) (register UQI))(dsh h-fsr-cexc "fsr current exception" ((MACH64)) (register UQI));(dsh h-fsr "floating point state" ((MACH64)) (register UDI))(dsh h-fpsr-fef "fpsr enable fp" ((MACH64)) (register BI))(dsh h-fpsr-du "fpsr dirty upper" ((MACH64)) (register BI))(dsh h-fpsr-dl "fpsr dirty lower" ((MACH64)) (register BI))(define-hardware(name h-fpsr)(comment "fp regs state")(attrs VIRTUAL (MACH64))(type register UQI)(get () (const 0)) ; FIXME(set (newval) (set (raw-reg UQI h-fpsr) (const 0))) ; FIXME); Floating point operands.(define-operand(name frs1s)(comment "single precision floating point source register 1")(type h-fr)(index f-rs1)(mode SF))(define-operand(name frs2s)(comment "single precision floating point source register 2")(type h-fr)(index f-rs2)(mode SF))(define-operand(name frds)(comment "single precision floating point dest'n register")(type h-fr)(index f-rd)(mode SF))(define-operand(name frs1d)(comment "double precision floating point source register 1")(attrs (MACH32))(type h-frd)(index f-rs1)(mode DF))(define-operand(name frs2d)(comment "double precision floating point source register 2")(attrs (MACH32))(type h-frd)(index f-rs2)(mode DF))(define-operand(name frdd)(comment "double precision floating point dest'n register")(attrs (MACH32))(type h-frd)(index f-rd)(mode DF))(dnop frs1q "quad precision floating point source register 1" ((MACH32))h-frq f-rs1)(dnop frs2q "quad precision floating point source register 2" ((MACH32))h-frq f-rs2)(dnop frdq "quad precision floating point dest'n register" ((MACH32))h-frq f-rd); Encoding/decoding of field for sparc64 requires extra effort.; See v9 page 40: 5.1.4.1 Floating-Point Register Number Encoding.(df f-frs1d-64 "rs1 field for sparc64 DF regs" ((MACH64)) 18 5 UINT((value pc) (or INT (srl value (const 5)) (and value (const #x1e))))((value pc) (or INT (sll (and value (const 1)) (const 5))(and value (const #x1e)))))(df f-frs2d-64 "rs2 field for sparc64 DF regs" ((MACH64)) 4 5 UINT((value pc) (or INT (srl value (const 5)) (and value (const #x1e))))((value pc) (or INT (sll (and value (const 1)) (const 5))(and value (const #x1e)))))(df f-frdd-64 "rd field for sparc64 DF regs" ((MACH64)) 29 5 UINT((value pc) (or INT (srl value (const 5)) (and value (const #x1e))))((value pc) (or INT (sll (and value (const 1)) (const 5))(and value (const #x1e)))))(dnop frs1d "double precision floating point source register 1" ((MACH64))h-frd f-frs1d-64)(dnop frs2d "double precision floating point source register 2" ((MACH64))h-frd f-frs2d-64)(dnop frdd "double precision floating point dest'n register" ((MACH64))h-frd f-frdd-64); Encoding/decoding of field for sparc64 requires extra effort.; See v9 page 40: 5.1.4.1 Floating-Point Register Number Encoding.(df f-frs1q-64 "rs1 field for sparc64 TF regs" ((MACH64)) 18 5 UINT((value pc) (or INT (srl value (const 5)) (and value (const #x1e))))((value pc) (or INT (sll (and value (const 1)) (const 5))(and value (const #x1e)))))(df f-frs2q-64 "rs2 field for sparc64 TF regs" ((MACH64)) 4 5 UINT((value pc) (or INT (srl value (const 5)) (and value (const #x1e))))((value pc) (or INT (sll (and value (const 1)) (const 5))(and value (const #x1e)))))(df f-frdq-64 "rd field for sparc64 TF regs" ((MACH64)) 29 5 UINT((value pc) (or INT (srl value (const 5)) (and value (const #x1e))))((value pc) (or INT (sll (and value (const 1)) (const 5))(and value (const #x1e)))))(dnop frs1q "quad precision floating point source register 1" ((MACH64))h-frq f-frs1q-64)(dnop frs2q "quad precision floating point source register 2" ((MACH64))h-frq f-frs2q-64)(dnop frdq "quad precision floating point dest'n register" ((MACH64))h-frq f-frdq-64)(dnop fcc0 "%fcc0" () h-fcc0 f-nil); Misc. support macros.; FIXME: TRAP32 wip; FIXME: sparc32/sparc64 differences; FIXME: trap handling in general (c-call's used until more thought invested); Check if fpu is present and enabled.(define-pmacro (check-fp-enabled); FIXME: more things to check(if (not fpu?)(c-call VOID "@cpu@_hw_trap" pc (c-code INT "TRAP32_FP_DIS")))); Return pointer to FPU.; ??? wip. maybe move `snan?' to language proper?(define-pmacro (current-fpu) (c-call PTR "CGEN_CPU_FPU")); Issue appropriate trap if x is an snan.(define-pmacro (check-sf-snan x)(if (c-raw-call BI "cgen_sf_snan_p" (current-fpu) x)(c-call VOID "@cpu@_hw_trap" pc (c-code INT "TRAP32_FP_DIS"))) ; FIXME)(define-pmacro (check-df-snan x)(if (c-raw-call BI "cgen_df_snan_p" (current-fpu) x)(c-call VOID "@cpu@_hw_trap" pc (c-code INT "TRAP32_FP_DIS"))) ; FIXME); Floating point memory ops.; Note: the startup code uses a load to %f0 to see if an fpu is present.; Other startup code tries to set the EF bit in the PSR.(define-pmacro (fp-ld-op name comment op3 mode dest)(begin(dnmi (.sym name "f-reg") comment ()(.str name " [$rs1],$" dest)(emit (.sym name f-reg+reg) rs1 (rs2 0) dest))(dnmi (.sym name "f-reg+0") comment ()(.str name " [$rs1],$" dest)(emit (.sym name f-reg+imm) rs1 (simm13 0) dest))(dni (.sym name "f-reg+reg") comment ()(.str name " [$rs1+$rs2],$" dest)(+ OP_3 op3 dest rs1 (f-i 0) (f-res-asi 0) rs2)(sequence ()(check-fp-enabled)(set dest (mem mode (add WI rs1 rs2))))())(dni (.sym name "f-reg+imm") comment ()(.str name " [$rs1+$simm13],$" dest)(+ OP_3 op3 dest rs1 (f-i 1) simm13)(sequence ()(check-fp-enabled)(set dest (mem mode (add WI rs1 simm13))))())(dnmi (.sym name "f-reg/asi") comment ()(.str name " [$rs1]$asi,$" dest)(emit (.sym name f-reg+reg/asi) rs1 (rs2 0) asi dest))(dni (.sym name "f-reg+reg/asi") comment ()(.str name " [$rs1+$rs2]$asi,$" dest)(+ OP_3 (.sym op3 A) dest rs1 (f-i 0) asi rs2)(sequence ()(check-fp-enabled)(set dest (mem mode (add WI rs1 rs2))))())))(fp-ld-op ld "fp SF load" OP3_LDF SF frds)(fp-ld-op ldd "fp DF load" OP3_LDDF DF frdd)(define-pmacro (fp-st-op name comment op3 mode src)(begin(dnmi (.sym name "f-reg") comment ()(.str name " $" src ",[$rs1]")(emit (.sym name f-reg+reg) rs1 (rs2 0) src))(dnmi (.sym name "f-reg+0") comment ()(.str name " $" src ",[$rs1]")(emit (.sym name f-reg+imm) rs1 (simm13 0) src))(dni (.sym name "f-reg+reg") comment ()(.str name " $" src ",[$rs1+$rs2]")(+ OP_3 op3 src rs1 (f-i 0) (f-res-asi 0) rs2)(sequence ()(check-fp-enabled)(set (mem mode (add WI rs1 rs2)) src))())(dni (.sym name "f-reg+imm") comment ()(.str name " $" src ",[$rs1+$simm13]")(+ OP_3 op3 src rs1 (f-i 1) simm13)(sequence ()(check-fp-enabled)(set (mem mode (add WI rs1 simm13)) src))())(dnmi (.sym name "f-reg/asi") comment ()(.str name " $" src ",[$rs1]$asi")(emit (.sym name -reg+reg/asi) rs1 (rs2 0) asi src))(dni (.sym name "f-reg+reg/asi") comment ()(.str name " $" src ",[$rs1+$rs2]$asi")(+ OP_3 (.sym op3 A) src rs1 (f-i 0) asi rs2)(sequence ()(check-fp-enabled)(set (mem mode (add WI rs1 rs2)) src))())))(fp-st-op st "fp SF store" OP3_STF SF frds)(fp-st-op std "fp DF store" OP3_STDF DF frdd); SF mode arithmetic ops.(define-pmacro (sf-unary-op name comment op3 fpop1 fn)(begin(dni name comment ()(.str name " $frs1s,$frds")(+ OP_2 op3 fpop1 frds frs1s (f-rs2 0))(sequence ()(check-fp-enabled)(set frds (fn frs1s)); ??? dest is modified if snan, assign to tmp first?; [grep for all check-*-snan's](check-sf-snan frds))())))(define-pmacro (sf-binary-op name comment op3 fpop1 fn)(begin(dni name comment ()(.str name " $frs1s,$frs2s,$frds")(+ OP_2 op3 fpop1 frds frs1s frs2s)(sequence ()(check-fp-enabled)(set frds (fn frs1s frs2s))(check-sf-snan frds))())))(sf-unary-op fnegs "32 bit fp neg" OP3_FPOPS1 FPOPS1_FNEGS neg)(sf-unary-op fabss "32 bit fp abs" OP3_FPOPS1 FPOPS1_FABSS abs)(sf-binary-op fadds "32 bit fp add" OP3_FPOPS1 FPOPS1_FADDS add)(sf-binary-op fsubs "32 bit fp sub" OP3_FPOPS1 FPOPS1_FSUBS sub)(sf-binary-op fmuls "32 bit fp mul" OP3_FPOPS1 FPOPS1_FMULS mul)(sf-binary-op fdivs "32 bit fp div" OP3_FPOPS1 FPOPS1_FDIVS div); ??? floating point compares are wip(dni fp-fcmps "32 bit compare" ()"fcmps $frs1s,$frs2s"(+ OP_2 OP3_FPOPS2 FPOPS2_FCMPS (f-rd 0) frs1s frs2s)(sequence ()(check-fp-enabled)(set fcc0 (c-call UINT "SFCMP" frs1s frs2s)))())(dni fp-fcmpse "32 bit compare, signal if any nans" ()"fcmpse $frs1s,$frs2s"(+ OP_2 OP3_FPOPS2 FPOPS2_FCMPSE (f-rd 0) frs1s frs2s)(sequence ()(check-fp-enabled)(check-sf-snan frs1s)(check-sf-snan frs2s)(set fcc0 (c-call UINT "SFCMP" frs1s frs2s)))()); DF mode arithmetic ops.(define-pmacro (df-unary-op name comment op3 fpop1 fn)(begin(dni name comment ()(.str name " $frs1d,$frdd")(+ OP_2 op3 fpop1 frdd frs1d (f-rs2 0))(sequence ()(check-fp-enabled)(set frdd (fn frs1d))(check-df-snan frdd))())))(define-pmacro (df-binary-op name comment op3 fpop1 fn)(begin(dni name comment ()(.str name " $frs1d,$frs2d,$frdd")(+ OP_2 op3 fpop1 frdd frs1d frs2d)(sequence ()(check-fp-enabled)(set frdd (fn frs1d frs2d))(check-df-snan frdd))())))(df-unary-op fnegd "64 bit fp neg" OP3_FPOPS1 FPOPS1_FNEGD neg)(df-unary-op fabsd "64 bit fp abs" OP3_FPOPS1 FPOPS1_FABSD abs)(df-binary-op faddd "64 bit fp add" OP3_FPOPS1 FPOPS1_FADDD add)(df-binary-op fsubd "64 bit fp sub" OP3_FPOPS1 FPOPS1_FSUBD sub)(df-binary-op fmuld "64 bit fp mul" OP3_FPOPS1 FPOPS1_FMULD mul)(df-binary-op fdivd "64 bit fp div" OP3_FPOPS1 FPOPS1_FDIVD div); ??? floating point compares are wip(dni fp-fcmpd "64 bit compare" ()"fcmpd $frs1d,$frs2d"(+ OP_2 OP3_FPOPS2 FPOPS2_FCMPD (f-rd 0) frs1d frs2d)(sequence ()(check-fp-enabled)(set fcc0 (c-call UINT "DFCMP" frs1d frs2d)))())(dni fp-fcmpde "64 bit compare, signal if any nans" ()"fcmpde $frs1d,$frs2d"(+ OP_2 OP3_FPOPS2 FPOPS2_FCMPDE (f-rd 0) frs1d frs2d)(sequence ()(check-fp-enabled)(check-df-snan frs1d)(check-df-snan frs2d)(set fcc0 (c-call UINT "DFCMP" frs1d frs2d)))()); Branches; CC is one of fcc0,fcc(define-pmacro (ftest-u cc) (eq cc FCC_UN))(define-pmacro (ftest-g cc) (eq cc FCC_GT))(define-pmacro (ftest-ug cc) (orif (eq cc FCC_UN) (eq cc FCC_GT)))(define-pmacro (ftest-l cc) (eq cc FCC_LT))(define-pmacro (ftest-ul cc) (orif (eq cc FCC_UN) (eq cc FCC_LT)))(define-pmacro (ftest-lg cc) (orif (eq cc FCC_LT) (eq cc FCC_GT)))(define-pmacro (ftest-ne cc) (ne cc FCC_EQ))(define-pmacro (ftest-e cc) (eq cc FCC_EQ))(define-pmacro (ftest-ue cc) (orif (eq cc FCC_UN) (eq cc FCC_EQ)))(define-pmacro (ftest-ge cc) (orif (eq cc FCC_GT) (eq cc FCC_EQ)))(define-pmacro (ftest-uge cc) (ne cc FCC_LT))(define-pmacro (ftest-le cc) (orif (eq cc FCC_LT) (eq cc FCC_EQ)))(define-pmacro (ftest-ule cc) (ne cc FCC_GT))(define-pmacro (ftest-o cc) (ne cc FCC_UN))(define-pmacro (fbfcc-branch bname comment cond test br-sem)(begin(dni bname (.str "fp branch " comment) (V9-DEPRECATED)(.str bname "$a $disp22")(+ OP_0 a cond OP2_FBFCC disp22)(br-sem test fcc0)())))(fbfcc-branch fba "always" FCOND_A test-always uncond-br-sem)(fbfcc-branch fbn "never" FCOND_N test-never uncond-br-sem)(fbfcc-branch fbu "unordered" FCOND_U ftest-u cond-br-sem)(fbfcc-branch fbg "greater" FCOND_G ftest-g cond-br-sem)(fbfcc-branch fbug "unordered or greater" FCOND_UG ftest-ug cond-br-sem)(fbfcc-branch fbl "less" FCOND_L ftest-l cond-br-sem)(fbfcc-branch fbul "unordered or less" FCOND_UL ftest-ul cond-br-sem)(fbfcc-branch fblg "less or greater" FCOND_LG ftest-lg cond-br-sem)(fbfcc-branch fbne "not equal" FCOND_NE ftest-ne cond-br-sem)(fbfcc-branch fbe "equal" FCOND_E ftest-e cond-br-sem)(fbfcc-branch fbue "unordered or equal" FCOND_UE ftest-ue cond-br-sem)(fbfcc-branch fbge "greater or equal" FCOND_GE ftest-ge cond-br-sem)(fbfcc-branch fbuge "unordered or greater or equal" FCOND_UGE ftest-uge cond-br-sem)(fbfcc-branch fble "less or equal" FCOND_LE ftest-le cond-br-sem)(fbfcc-branch fbule "unordered or less or equal" FCOND_ULE ftest-ule cond-br-sem)(fbfcc-branch fbo "ordered" FCOND_O ftest-o cond-br-sem)