X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=compiler%2FnativeGen%2FX86%2FRegs.hs;h=b9a23a6510c7e1f83f4218d6829b49916db1aead;hp=697528d6d1eda49720c31d7db667104712d58278;hb=49a8e5c021009430d373d6224b29004c7d18c408;hpb=65b6152984ef04346806241585db59387759c642 diff --git a/compiler/nativeGen/X86/Regs.hs b/compiler/nativeGen/X86/Regs.hs index 697528d..b9a23a6 100644 --- a/compiler/nativeGen/X86/Regs.hs +++ b/compiler/nativeGen/X86/Regs.hs @@ -25,7 +25,7 @@ module X86.Regs ( EABase(..), EAIndex(..), addrModeRegs, eax, ebx, ecx, edx, esi, edi, ebp, esp, - fake0, fake1, fake2, fake3, fake4, fake5, + fake0, fake1, fake2, fake3, fake4, fake5, firstfake, rax, rbx, rcx, rdx, rsi, rdi, rbp, rsp, r8, r9, r10, r11, r12, r13, r14, r15, @@ -40,7 +40,6 @@ module X86.Regs ( freeReg, globalRegMaybe, - get_GlobalReg_reg_or_addr, allocatableRegs ) @@ -54,7 +53,6 @@ where import Reg import RegClass -import CgUtils ( get_GlobalReg_addr ) import BlockId import Cmm import CLabel ( CLabel ) @@ -105,7 +103,7 @@ realRegSqueeze cls rr RcInteger -> case rr of RealRegSingle regNo - | regNo < firstfake -> _ILIT(1) -- first fake reg is 16 + | regNo < firstfake -> _ILIT(1) | otherwise -> _ILIT(0) RealRegPair{} -> _ILIT(0) @@ -218,13 +216,21 @@ spRel _ = panic "X86.Regs.spRel: not defined for this architecture" #endif +-- The register numbers must fit into 32 bits on x86, so that we can +-- use a Word32 to represent the set of free registers in the register +-- allocator. + firstfake, lastfake :: RegNo firstfake = 16 lastfake = 21 firstxmm, lastxmm :: RegNo firstxmm = 24 +#if i386_TARGET_ARCH +lastxmm = 31 +#else lastxmm = 39 +#endif lastint :: RegNo #if i386_TARGET_ARCH @@ -296,7 +302,7 @@ Intel x86 architecture: - Only ebx, esi, edi and esp are available across a C call (they are callee-saves). - Registers 0-7 have 16-bit counterparts (ax, bx etc.) - Registers 0-3 have 8 bit counterparts (ah, bh etc.) -- Registers 8-13 are fakes; we pretend x86 has 6 conventionally-addressable +- Registers fake0..fake5 are fakes; we pretend x86 has 6 conventionally-addressable fp registers, and 3-operand insns for them, and we translate this into real stack-based x86 fp code after register allocation. @@ -372,7 +378,7 @@ xmm14 = regSingle 38 xmm15 = regSingle 39 allFPArgRegs :: [Reg] -allFPArgRegs = map regSingle [24 .. 31] +allFPArgRegs = map regSingle [firstxmm .. firstxmm+7] ripRel :: Displacement -> AddrMode ripRel imm = AddrBaseIndex EABaseRip EAIndexNone imm @@ -391,7 +397,7 @@ esp = rsp -} xmm :: RegNo -> Reg -xmm n = regSingle (24+n) +xmm n = regSingle (firstxmm+n) @@ -458,7 +464,6 @@ callClobberedRegs :: [Reg] #define xmm14 38 #define xmm15 39 - #if i386_TARGET_ARCH freeReg esp = fastBool False -- %esp is the C stack pointer #endif @@ -655,20 +660,6 @@ callClobberedRegs = panic "X86.Regs.globalRegMaybe: not defined" #endif --- We map STG registers onto appropriate CmmExprs. Either they map --- to real machine registers or stored as offsets from BaseReg. Given --- a GlobalReg, get_GlobalReg_reg_or_addr produces either the real --- register it is in, on this platform, or a CmmExpr denoting the --- address in the register table holding it. --- (See also get_GlobalReg_addr in CgUtils.) - -get_GlobalReg_reg_or_addr :: GlobalReg -> Either RealReg CmmExpr -get_GlobalReg_reg_or_addr mid - = case globalRegMaybe mid of - Just rr -> Left rr - Nothing -> Right (get_GlobalReg_addr mid) - - -- allocatableRegs is allMachRegNos with the fixed-use regs removed. -- i.e., these are the regs for which we are prepared to allow the -- register allocator to attempt to map VRegs to.