Mercurial > lcfOS
view python/ks/irgenerator.py @ 191:6b2bec5653f1
Added assembler testset
author | Windel Bouwman |
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date | Sun, 26 May 2013 15:28:07 +0200 |
parents | 4fd075e8259c |
children |
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""" Generates ir code from ast tree. """ from .nodes import * from .builtin import real, integer, boolean, char, void def coreType(typ): """ Return the correct core type given a type """ if type(typ) is BaseType: if typ is integer: return core.i32 if typ is void: return core.void elif type(typ) is ProcedureType: rType = coreType(typ.returntype) fpTypes = [coreType(p.typ) for p in typ.parameters] return core.FunctionType(rType, fpTypes) print(typ) raise NotImplementedError() class KsIrGenerator: def __init__(self): self.builder = core.IRBuilder() # Code generation functions: def genexprcode(self, node): """ Generate code for expressions! """ if isinstance(node, Binop): """ Handle a binary operation (two arguments) of some kind """ lhs = self.genexprcode(node.a) rhs = self.genexprcode(node.b) if node.op == '*': if node.typ.isType(integer): return self.builder.createMul(lhs, rhs) elif node.op == '+': if node.typ.isType(integer): return self.builder.createAdd(lhs, rhs) elif node.op == '-': if node.typ.isType(integer): return self.builder.createSub(lhs, rhs) Error('Unknown binop or type {0}'.format(node)) elif isinstance(node, Designator): # dereference, array index. Make sure that the result comes into a register if len(node.selectors) > 0: Error('Only integer types implemented') else: # No selectors, load variable directly print(node) #Error('Cannot load variable type {0}'.format(node.typ)) elif type(node) is Constant: return core.Constant(node.value, coreType(node.typ)) else: Error('Cannot generate expression code for: {0}'.format(node)) def gencode(self, node): """ Code generation function for AST nodes """ if isinstance(node, Module): # Create module: self.mod = core.Module(node.name) globs = node.symtable.getAllLocal(Variable) for g in globs: print('global:', g) # Loop over all functions: print(node.symtable) node.symtable.printTable() funcs = node.symtable.getAllLocal(Procedure) for f in funcs: self.gencode(f) # Create a function called init for this module: self.mod.dump() return self.mod elif type(node) is Procedure: ftype = coreType(node.typ) print('function', node, ftype) func = core.Function(ftype, node.name, self.mod) bb = core.BasicBlock() func.basicblocks.append(bb) self.builder.setInsertPoint(bb) self.gencode(node.block) self.builder.setInsertPoint(None) variables = node.symtable.getAllLocal(Variable) print(variables) elif isinstance(node, StatementSequence): for s in node.statements: self.gencode(s) elif type(node) is ProcedureCall: # Prepare parameters on the stack: print("TODO") elif type(node) is Assignment: if node.lval.typ.isType(integer): print('assign') rhs = self.genexprcode(node.rval) # Calculate the value that has to be stored. #self.gencode(node.lval) print("TODO: assigment") else: Error('Assignments of other types not implemented') elif type(node) is IfStatement: self.genexprcode(node.condition) print("TODO IF") if node.falsestatement: # If with else clause pass else: # If without else clause pass elif isinstance(node, WhileStatement): self.genexprcode(node.condition) self.gencode(node.dostatements) elif type(node) is ForStatement: # Initial load of iterator variable: self.genexprcode(node.begin) self.genexprcode(node.end) self.gencode(node.statements) Error('No implementation of FOR statement') elif isinstance(node, EmptyStatement): pass # That was easy :) elif type(node) is StringConstant: self.strings.append(node) elif type(node) is Designator: Error('Can only gencode for designator with selectors') else: print('not generating code for {0}'.format(node)) def generateIr(self, context, ast): """ ir generation front end """ # Create a new context for this code. self.context = context return self.gencode(ast)