util.isa revision 2239
1// -*- mode:c++ -*- 2 3let {{ 4def LoadStoreBase(name, Name, ea_code, memacc_code, mem_flags, inst_flags, 5 postacc_code = '', base_class = 'Memory', 6 decode_template = BasicDecode, exec_template_base = ''): 7 # Make sure flags are in lists (convert to lists if not). 8 mem_flags = makeList(mem_flags) 9 inst_flags = makeList(inst_flags) 10 11 # add hook to get effective addresses into execution trace output. 12 ea_code += '\nif (traceData) { traceData->setAddr(EA); }\n' 13 14 # generate code block objects 15 ea_cblk = CodeBlock(ea_code) 16 memacc_cblk = CodeBlock(memacc_code) 17 postacc_cblk = CodeBlock(postacc_code) 18 19 # Some CPU models execute the memory operation as an atomic unit, 20 # while others want to separate them into an effective address 21 # computation and a memory access operation. As a result, we need 22 # to generate three StaticInst objects. Note that the latter two 23 # are nested inside the larger "atomic" one. 24 25 # generate InstObjParams for EAComp object 26 ea_iop = InstObjParams(name, Name, base_class, ea_cblk, inst_flags) 27 28 # generate InstObjParams for MemAcc object 29 memacc_iop = InstObjParams(name, Name, base_class, memacc_cblk, inst_flags) 30 # in the split execution model, the MemAcc portion is responsible 31 # for the post-access code. 32 memacc_iop.postacc_code = postacc_cblk.code 33 34 # generate InstObjParams for InitiateAcc, CompleteAcc object 35 # The code used depends on the template being used 36 if (exec_template_base == 'Load'): 37 initiateacc_cblk = CodeBlock(ea_code + memacc_code) 38 completeacc_cblk = CodeBlock(memacc_code + postacc_code) 39 elif (exec_template_base == 'Store'): 40 initiateacc_cblk = CodeBlock(ea_code + memacc_code) 41 completeacc_cblk = CodeBlock(postacc_code) 42 else: 43 initiateacc_cblk = '' 44 completeacc_cblk = '' 45 46 initiateacc_iop = InstObjParams(name, Name, base_class, initiateacc_cblk, 47 inst_flags) 48 49 completeacc_iop = InstObjParams(name, Name, base_class, completeacc_cblk, 50 inst_flags) 51 52 if (exec_template_base == 'Load'): 53 initiateacc_iop.ea_code = ea_cblk.code 54 initiateacc_iop.memacc_code = memacc_cblk.code 55 completeacc_iop.memacc_code = memacc_cblk.code 56 completeacc_iop.postacc_code = postacc_cblk.code 57 elif (exec_template_base == 'Store'): 58 initiateacc_iop.ea_code = ea_cblk.code 59 initiateacc_iop.memacc_code = memacc_cblk.code 60 completeacc_iop.postacc_code = postacc_cblk.code 61 62 # generate InstObjParams for unified execution 63 cblk = CodeBlock(ea_code + memacc_code + postacc_code) 64 iop = InstObjParams(name, Name, base_class, cblk, inst_flags) 65 66 iop.ea_constructor = ea_cblk.constructor 67 iop.ea_code = ea_cblk.code 68 iop.memacc_constructor = memacc_cblk.constructor 69 iop.memacc_code = memacc_cblk.code 70 iop.postacc_code = postacc_cblk.code 71 72 if mem_flags: 73 s = '\n\tmemAccessFlags = ' + string.join(mem_flags, '|') + ';' 74 iop.constructor += s 75 memacc_iop.constructor += s 76 77 # select templates 78 memAccExecTemplate = eval(exec_template_base + 'MemAccExecute') 79 fullExecTemplate = eval(exec_template_base + 'Execute') 80 initiateAccTemplate = eval(exec_template_base + 'InitiateAcc') 81 completeAccTemplate = eval(exec_template_base + 'CompleteAcc') 82 83 # (header_output, decoder_output, decode_block, exec_output) 84 return (LoadStoreDeclare.subst(iop), LoadStoreConstructor.subst(iop), 85 decode_template.subst(iop), 86 EACompExecute.subst(ea_iop) 87 + memAccExecTemplate.subst(memacc_iop) 88 + fullExecTemplate.subst(iop) 89 + initiateAccTemplate.subst(initiateacc_iop) 90 + completeAccTemplate.subst(completeacc_iop)) 91}}; 92 93 94output exec {{ 95 96using namespace MipsISA; 97 98 99 /// CLEAR ALL CPU INST/EXE HAZARDS 100 inline void 101 clear_exe_inst_hazards() 102 { 103 //CODE HERE 104 } 105 106 107 /// Check "FP enabled" machine status bit. Called when executing any FP 108 /// instruction in full-system mode. 109 /// @retval Full-system mode: NoFault if FP is enabled, FenFault 110 /// if not. Non-full-system mode: always returns NoFault. 111#if FULL_SYSTEM 112 inline Fault checkFpEnableFault(%(CPU_exec_context)s *xc) 113 { 114 Fault fault = NoFault; // dummy... this ipr access should not fault 115 if (!Mips34k::ICSR_FPE(xc->readIpr(MipsISA::IPR_ICSR, fault))) { 116 fault = FloatEnableFault; 117 } 118 return fault; 119 } 120#else 121 inline Fault checkFpEnableFault(%(CPU_exec_context)s *xc) 122 { 123 return NoFault; 124 } 125#endif 126 127 double convert_and_round(float w, int x, int y, int z) 128 { 129 double temp = .34000; 130 131 return temp; 132 } 133 134 enum FPTypes{ 135 FP_SINGLE, 136 FP_DOUBLE, 137 FP_LONG, 138 FP_PS_LO, 139 FP_PS_HI, 140 FP_WORD, 141 RND_NEAREST, 142 RND_ZERO, 143 RND_UP, 144 RND_DOWN 145 }; 146}}; 147 148 149