Mercurial > lcfOS
view python/c3/codegenerator.py @ 269:5f8c04a8d26b
Towards better modularity
| author | Windel Bouwman |
|---|---|
| date | Sun, 18 Aug 2013 17:43:18 +0200 |
| parents | 5ec7580976d9 |
| children | e64bae57cda8 |
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import logging import ir from . import astnodes from .scope import boolType, intType from ppci import CompilerError from .typecheck import theType class CodeGenerator(ir.Builder): """ Generates intermediate code from a package """ def __init__(self): self.logger = logging.getLogger('c3cgen') def gencode(self, pkg): self.prepare() assert type(pkg) is astnodes.Package self.logger.info('Generating ir-code for {}'.format(pkg.name)) self.varMap = {} # Maps variables to storage locations. self.funcMap = {} self.m = ir.Module(pkg.name) self.genModule(pkg) return self.m # inner helpers: def genModule(self, pkg): # Take care of forward declarations: for s in pkg.innerScope.Functions: f = self.newFunction(s.name) self.funcMap[s] = f for s in pkg.innerScope: if type(s) is astnodes.Variable: #v = self.builder.newTmp(s.name) self.varMap[s] = self.newTemp() pass elif type(s) is astnodes.Function: self.genFunction(s) else: raise NotImplementedError(str(s)) def genFunction(self, fn): # TODO: handle arguments f = self.funcMap[fn] # TODO reserve room for stack, this can be done at later point? self.setFunction(f) l2 = self.newBlock() self.emit(ir.Jump(l2)) self.setBlock(l2) # generate room for locals: for sym in fn.innerScope: # TODO: handle parameters different v = self.newTemp() # TODO: make this ssa here?? self.varMap[sym] = v self.genCode(fn.body) # TODO handle return? self.emit(ir.Jump(f.epiloog)) #self.emit(ir.Return(ir.Const(0))) self.setFunction(None) def genCode(self, code): assert isinstance(code, astnodes.Statement) self.setLoc(code.loc) if type(code) is astnodes.CompoundStatement: for s in code.statements: self.genCode(s) elif type(code) is astnodes.Assignment: rval = self.genExprCode(code.rval) lval = self.genExprCode(code.lval) self.emit(ir.Move(lval, rval)) elif type(code) is astnodes.ExpressionStatement: self.genExprCode(code.ex) elif type(code) is astnodes.IfStatement: bbtrue = self.newBlock() bbfalse = self.newBlock() te = self.newBlock() self.genCondCode(code.condition, bbtrue, bbfalse) self.setBlock(bbtrue) self.genCode(code.truestatement) self.emit(ir.Jump(te)) self.setBlock(bbfalse) if code.falsestatement: self.genCode(code.falsestatement) self.emit(ir.Jump(te)) self.setBlock(te) elif type(code) is astnodes.ReturnStatement: if code.expr: re = self.genExprCode(code.expr) self.emit(ir.Return(re)) else: self.builder.addIns(ir.Return()) elif type(code) is astnodes.WhileStatement: bbdo = self.newBlock() bbtest = self.newBlock() te = self.newBlock() self.emit(ir.Jump(bbtest)) self.setBlock(bbtest) self.genCondCode(code.condition, bbdo, te) self.setBlock(bbdo) self.genCode(code.statement) self.emit(ir.Jump(bbtest)) self.setBlock(te) else: raise NotImplementedError('Unknown stmt {}'.format(code)) def genCondCode(self, expr, bbtrue, bbfalse): # Implement sequential logical operators assert expr.typ == boolType if type(expr) is astnodes.Binop: if expr.op == 'or': l2 = self.newBlock() self.genCondCode(expr.a, bbtrue, l2) self.setBlock(l2) self.genCondCode(expr.b, bbtrue, bbfalse) elif expr.op == 'and': l2 = self.newBlock() self.genCondCode(expr.a, l2, bbfalse) self.setBlock(l2) self.genCondCode(expr.b, bbtrue, bbfalse) elif expr.op in ['==', '>', '<']: ta = self.genExprCode(expr.a) tb = self.genExprCode(expr.b) self.emit(ir.CJump(ta, expr.op, tb, bbtrue, bbfalse)) else: raise NotImplementedError('Unknown condition {}'.format(expr)) elif type(expr) is astnodes.Literal: if expr.val: self.emit(ir.Jump(bbtrue)) else: self.emit(ir.Jump(bbfalse)) else: raise NotImplementedError('Unknown cond {}'.format(expr)) def genExprCode(self, expr): assert isinstance(expr, astnodes.Expression) if type(expr) is astnodes.Binop and expr.op in ir.Binop.ops: ra = self.genExprCode(expr.a) rb = self.genExprCode(expr.b) return ir.Binop(ra, expr.op, rb) elif type(expr) is astnodes.Unop and expr.op == '&': ra = self.genExprCode(expr.a) # TODO: Make this work? return ra elif type(expr) is astnodes.VariableUse: return self.varMap[expr.target] elif type(expr) is astnodes.Deref: # dereference pointer type: addr = self.genExprCode(expr.ptr) return ir.Mem(addr) elif type(expr) is astnodes.FieldRef: b = self.genExprCode(expr.base) #b = b.e bt = theType(expr.base.typ) offset = ir.Const(bt.fieldOffset(expr.field)) return ir.Mem(ir.Binop(b, '+', offset)) elif type(expr) is astnodes.Literal: return ir.Const(expr.val) elif type(expr) is astnodes.TypeCast: # TODO: improve this mess: ar = self.genExprCode(expr.a) tt = theType(expr.to_type) if isinstance(tt, astnodes.PointerType): if expr.a.typ is intType: return ar elif isinstance(expr.a.typ, astnodes.PointerType): return ar else: raise Exception() else: raise NotImplementedError("not implemented") elif type(expr) is astnodes.FunctionCall: args = [self.genExprCode(e) for e in expr.args] fn = self.funcMap[expr.proc] return ir.Call(fn, args) else: raise NotImplementedError('Unknown expr {}'.format(expr))