Mercurial > lcfOS
view python/codegenarm.py @ 266:649884d9dc61 Working chain 1
Test
author | Windel Bouwman |
---|---|
date | Fri, 09 Aug 2013 16:49:29 +0200 |
parents | ed14e077124c |
children | 5ec7580976d9 |
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import logging import ir from target import Label, Comment, Alignment, LabelRef, Imm32, DebugInfo import cortexm3 as arm from ppci import CompilerError import irmach class InstructionSelector: pass class RegisterAllocator: pass class ArmCodeGenerator: """ Simple code generator Ad hoc implementation """ def __init__(self, out): self.outs = out self.logger = logging.getLogger('codegenarm') def emit(self, item): self.outs.emit(item) def generate(self, ircode): assert isinstance(ircode, ir.Module) self.logger.info('Generating arm code for {}'.format(ircode.name)) self.available_regs = {arm.r3, arm.r4, arm.r5, arm.r6, arm.r7} self.regmap = {} # TODO: get these from linker descriptor? self.outs.getSection('code').address = 0x08000000 self.outs.getSection('data').address = 0x20000000 self.outs.selectSection('data') for gvar in ircode.Variables: self.emit(Label(gvar.name)) # TODO: use initial value: self.dcd(0) self.imms = [] # list with immediates relative to PC. self.outs.selectSection('code') # Manually inserted startup code: self.dcd(0x20000678) # initial stack ptr # TODO: use label here: #self.emit(arm.dcd_ins(LabelRef('reset'))) # reset vector self.dcd(0x08000009) # reset vector, lsb indicates thumb mode self.emit(arm.bl_ins(LabelRef('main'))) self.emit(Label('reset')) for f in ircode.Functions: self.localVars = [] # Add global variable addresses to immediate list: for gvar in ircode.Variables: pass #self.imms.append(( self.stack_frame = [] self.emit(Label(f.name)) # Save some registers: self.emit(arm.push_ins(arm.RegisterSet({arm.r3, arm.r4, arm.r5, arm.r6,arm.r7,arm.lr}))) for bb in f.BasicBlocks: self.emit(Label(bb.name)) for ins in bb.Instructions: self.generateInstruction(ins) self.align() while self.imms: l, v = self.imms.pop() self.emit(Label(l)) self.dcd(v) self.align() self.outs.backpatch() self.outs.backpatch() codesize = self.outs.getSection('code').Size self.logger.info('Generated {} bytes code'.format(codesize)) def dcd(self, x): self.emit(arm.dcd_ins(Imm32(x))) def align(self): self.outs.emit(Alignment(4)) # Helper functions: def getStack(self, v): off = self.stack_frame.index(v) return off * 4 def addStack(self, v): self.stack_frame.append(v) return self.getStack(v) def getGlobal(self, r, g): _global_address = g.name + '__global' self.emit(arm.ldr_pcrel(r, LabelRef(_global_address))) def loadStack(self, reg, val): self.emit(arm.ldr_sprel(reg, arm.MemSpRel(self.getStack(val)))) def getreg(self, v): if not v in self.regmap: self.regmap[v] = self.available_regs.pop() return self.regmap[v] def freereg(self, v, ins): if v.lastUse(ins): r = self.regmap.pop(v) assert r not in self.regmap.values() self.available_regs.add(r) def comment(self, txt): self.emit(Comment(txt)) def debugInfo(self, loc): if loc: self.emit(DebugInfo(loc)) def generateInstruction(self, ins): self.comment(str(ins)) if hasattr(ins, 'debugLoc'): self.debugInfo(ins.debugLoc) if type(ins) is ir.Branch: tgt = LabelRef(ins.target.name) self.emit(arm.b_ins(tgt)) elif type(ins) is ir.ImmLoad: lname = ins.target.name + '_ivalue' r0 = self.getreg(ins.target) self.emit(arm.ldr_pcrel(r0, LabelRef(lname))) self.imms.append((lname, ins.value)) elif type(ins) is ir.Store: # Load value in r0: r0 = self.getreg(ins.value) # store in memory: # TODO: split globals and locals?? #self.getGlobal(arm.r1, ins.location) # Horrible hack with localVars if ins.location in self.localVars: # The value was alloc'ed self.emit(arm.str_sprel(r0, arm.MemSpRel(self.getStack(ins.location)))) else: r1 = self.getreg(ins.location) self.emit(arm.storeimm5_ins(r0, arm.MemR8Rel(r1, 0))) self.freereg(ins.location, ins) self.freereg(ins.value, ins) elif type(ins) is ir.Load: # TODO: differ global and local?? #self.getGlobal(arm.r0, ins.location) r0 = self.getreg(ins.value) if ins.location in self.localVars: self.emit(arm.ldr_sprel(r0, arm.MemSpRel(self.getStack(ins.location)))) else: r2 = self.getreg(ins.location) self.emit(arm.loadimm5_ins(r0, arm.MemR8Rel(r2, 0))) self.freereg(ins.location, ins) elif type(ins) is ir.BinaryOperator: # Load operands: r0 = self.getreg(ins.value1) r1 = self.getreg(ins.value2) r2 = self.getreg(ins.result) # do operation: if ins.operation == '+': self.emit(arm.addregs_ins(r2, r0, r1)) elif ins.operation == '<<': self.emit(arm.movregreg_ins(r2, r0)) self.emit(arm.lslregs_ins(r2, r1)) elif ins.operation == '|': self.emit(arm.movregreg_ins(r2, r0)) self.emit(arm.orrregs_ins(r2, r1)) else: raise NotImplementedError('operation {} not implemented'.format(ins.operation)) self.freereg(ins.value1, ins) self.freereg(ins.value2, ins) elif type(ins) is ir.Call: # TODO: prep parameters: self.emit(arm.bl_ins(LabelRef(ins.callee.name))) elif type(ins) is ir.Return: self.emit(arm.pop_ins(arm.RegisterSet({arm.r3, arm.r4, arm.r5, arm.r6, arm.r7, arm.pc}))) elif type(ins) is ir.ConditionalBranch: r0 = self.getreg(ins.a) r1 = self.getreg(ins.b) self.emit(arm.cmp_ins(r1, r0)) tgt_yes = LabelRef(ins.lab1.name) if ins.cond == '==': self.emit(arm.beq_ins(tgt_yes)) elif ins.cond == '<': self.emit(arm.blt_ins(tgt_yes)) elif ins.cond == '>': self.emit(arm.bgt_ins(tgt_yes)) else: raise NotImplementedError('"{}" not covered'.format(ins.cond)) tgt_no = LabelRef(ins.lab2.name) self.emit(arm.b_ins(tgt_no)) self.freereg(ins.a, ins) self.freereg(ins.b, ins) elif type(ins) is ir.Alloc: # Local variables are added to stack self.addStack(ins.value) self.localVars.append(ins.value) # load address into variable: else: raise NotImplementedError('IR "{}" not covered'.format(ins))