From: Gabe Black Date: Tue, 12 Jun 2007 16:25:47 +0000 (+0000) Subject: Use objects to pass around output code, and fix/implement a few things. X-Git-Tag: m5_2.0_beta4~359^2~6 X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=7a52faa39bf1bc9a961c98a382afa520eb2d0c87;p=gem5.git Use objects to pass around output code, and fix/implement a few things. src/arch/x86/isa/formats/multi.isa: Make the formats use objects to pass around output code. --HG-- extra : convert_revision : 428915bda22e848befac15097f56375c1818426e --- diff --git a/src/arch/x86/isa/formats/multi.isa b/src/arch/x86/isa/formats/multi.isa index 8648800b4..f951dc28a 100644 --- a/src/arch/x86/isa/formats/multi.isa +++ b/src/arch/x86/isa/formats/multi.isa @@ -62,12 +62,16 @@ ////////////////////////////////////////////////////////////////////////// def format Inst(*opTypeSet) {{ - decode_block = specializeInst(Name, list(opTypeSet), EmulEnv()) + blocks = specializeInst(Name, list(opTypeSet), EmulEnv()) + (header_output, decoder_output, + decode_block, exec_output) = blocks.makeList() }}; def format MultiInst(switchVal, *opTypeSets) {{ switcher = {} for (count, opTypeSet) in zip(xrange(len(opTypeSets)), opTypeSets): switcher[count] = (opTypeSet, EmulEnv()) - decode_block = doSplitDecode(Name, specializeInst, switchVal, switcher) + blocks = doSplitDecode(Name, specializeInst, switchVal, switcher) + (header_output, decoder_output, + decode_block, exec_output) = blocks.makeList() }}; diff --git a/src/arch/x86/isa/specialize.isa b/src/arch/x86/isa/specialize.isa index 79b785ecf..3b4e09daa 100644 --- a/src/arch/x86/isa/specialize.isa +++ b/src/arch/x86/isa/specialize.isa @@ -67,17 +67,20 @@ let {{ # builder is called on the exploded contents of "vals" values to generate # whatever code should be used. def doSplitDecode(Name, builder, switchVal, vals, default = None): - decode_block = 'switch(%s) {\n' % switchVal + blocks = OutputBlocks() + blocks.decode_block = 'switch(%s) {\n' % switchVal for (val, todo) in vals.items(): - new_block = builder(Name, *todo) - new_block = '\tcase %s: %s\n' % (val, new_block) - decode_block += new_block + new_blocks = builder(Name, *todo) + new_blocks.decode_block = \ + '\tcase %s: %s\n' % (val, new_blocks.decode_block) + blocks.append(new_blocks) if default: - new_block = builder(Name, *default) - new_block = '\tdefault: %s\n' % new_block - decode_block += new_block - decode_block += '}\n' - return decode_block + new_blocks = builder(Name, *default) + new_blocks.decode_block = \ + '\tdefault: %s\n' % new_blocks.decode_block + blocks.append(new_blocks) + blocks.decode_block += '}\n' + return blocks }}; let {{ @@ -95,18 +98,18 @@ let {{ # This function specializes the given piece of code to use a particular # set of argument types described by "opTypes". def specializeInst(Name, opTypes, env): + print "Specializing %s with opTypes %s" % (Name, opTypes) while len(opTypes): - # print "Building a composite op with tags", opTypes - # print "And code", code - opNum = len(opTypes) - 1 - # Parse the operand type string we're working with - opType = OpType(opTypes[opNum]) + opType = OpType(opTypes[0]) if opType.reg: #Figure out what to do with fixed register operands #This is the index to use, so we should stick it some place. - print "INTREG_R%s" % (opType.reg + opType.size.upper()) + if opType.reg in ("A", "B", "C", "D"): + env.addReg("INTREG_R%sX" % opType.reg) + else: + env.addReg("INTREG_R%s" % opType.reg) if opType.size: if opType.rsize in ("l", "h", "b"): print "byte" @@ -118,23 +121,23 @@ let {{ raise Exception, "Problem parsing operand tag: %s" % opType.tag elif opType.tag in ("C", "D", "G", "P", "S", "T", "V"): # Use the "reg" field of the ModRM byte to select the register - print "(uint8_t)MODRM_REG" + env.addReg("(uint8_t)MODRM_REG") elif opType.tag in ("E", "Q", "W"): # This might refer to memory or to a register. We need to # divide it up farther. - print "(uint8_t)MODRM_RM" regTypes = copy.copy(opTypes) regTypes.pop(0) regEnv = copy.copy(env) + regEnv.addReg("(uint8_t)MODRM_RM") # This needs to refer to memory, but we'll fill in the details # later. It needs to take into account unaligned memory # addresses. - print "%0" memTypes = copy.copy(opTypes) memTypes.pop(0) memEnv = copy.copy(env) + print "%0" return doSplitDecode(Name, specializeInst, "MODRM_MOD", - {"3" : (regTypes, memEnv)}, (memTypes, memEnv)) + {"3" : (regTypes, regEnv)}, (memTypes, memEnv)) elif opType.tag in ("I", "J"): # Immediates print "IMMEDIATE" @@ -146,7 +149,7 @@ let {{ elif opType.tag in ("PR", "R", "VR"): # There should probably be a check here to verify that mod # is equal to 11b - print "(uint8_t)MODRM_RM" + env.addReg("(uint8_t)MODRM_RM") else: raise Exception, "Unrecognized tag %s." % opType.tag opTypes.pop(0)