protected void standardSteadyProcessing() { JStatement steadyBlock = joiner_code.getSteadyBlock(); // helper has now been used for the last time, so we can write the basic code. // write code deemed useful by the helper into the corrrect ComputeCodeStore. // write only once if multiple calls for steady state. if (!basicCodeWritten.containsKey(inputNode)) { codeStore.addFields(joiner_code.getUsefulFields()); codeStore.addMethods(joiner_code.getUsefulMethods()); basicCodeWritten.put(inputNode, true); } codeStore.addSteadyLoopStatement(steadyBlock); }
/** * Get code for a joiner. If code not yet made then makes it. * * @param joiner * @param backEndBits * @return */ public static CodeStoreHelper getJoinerCode(InputSliceNode joiner, BackEndFactory backEndBits) { CodeStoreHelper joiner_code = CodeStoreHelper.findHelperForSliceNode(joiner); if (joiner_code == null) { joiner_code = backEndBits.getCodeStoreHelper(joiner); if (backEndBits.sliceNeedsJoinerCode(joiner.getParent())) { makeJoinerCode(joiner, backEndBits, joiner_code); } if (backEndBits.sliceNeedsJoinerWorkFunction(joiner.getParent())) { makeJoinerWork(joiner, backEndBits, joiner_code); } CodeStoreHelper.addHelperForSliceNode(joiner, joiner_code); } return joiner_code; }
protected void setJoinerCode() { joiner_code = CodeStoreHelper.findHelperForSliceNode(inputNode); if (joiner_code == null) { joiner_code = getJoinerCode(inputNode, backEndBits); } }
protected void standardInitProcessing() { // Have the main function for the CodeStore call our init if any codeStore.addInitFunctionCall(joiner_code.getInitMethod()); JMethodDeclaration workAtInit = joiner_code.getInitStageMethod(); if (workAtInit != null) { // if there are calls to work needed at init time then add // method to general pool of methods codeStore.addMethod(workAtInit); // and add call to list of calls made at init time. // Note: these calls must execute in the order of the // initialization schedule -- so caller of this routine // must follow order of init schedule. codeStore.addInitStatement( new JExpressionStatement( null, new JMethodCallExpression( null, new JThisExpression(null), workAtInit.getName(), new JExpression[0]), null)); } }
protected void standardPrimePumpProcessing() { JMethodDeclaration primePump = joiner_code.getPrimePumpMethod(); if (primePump != null && !codeStore.hasMethod(primePump)) { // Add method -- but only once codeStore.addMethod(primePump); } if (primePump != null) { // for each time this method is called, it adds another call // to the primePump routine to the initialization. codeStore.addInitStatement( new JExpressionStatement( null, new JMethodCallExpression( null, new JThisExpression(null), primePump.getName(), new JExpression[0]), null)); } }
/** * Make a work function for a joiner * * @param joiner the InputSliceNode that we are generating code for. * @param backEndBits way to refer to other portions of backend * @param joiner_code place to put code */ public static void makeJoinerWork( InputSliceNode joiner, BackEndFactory backEndBits, CodeStoreHelper joiner_code) { JMethodDeclaration joinerWork; // the work function will need a temporary variable ALocalVariable t = ALocalVariable.makeTmp(joiner.getEdgeToNext().getType()); Channel downstream = backEndBits.getChannel(joiner.getEdgeToNext()); // the body of the work method JBlock body = new JBlock(); if (backEndBits.sliceNeedsJoinerCode(joiner.getParent())) { // There should be generated code for the joiner // state machine in the CodeStoreHelper as the only method. // // generated code is // T tmp; // tmp = joiner_code(); // push(tmp); // // TODO: inline the joiner code at the call site, // if inlining, delete joiner code after inlining leaving // only this method in the helper. assert joiner_code.getMethods().length == 1; JMethodDeclaration callable_joiner = joiner_code.getMethods()[0]; body.addStatement(t.getDecl()); body.addStatement( new JExpressionStatement( new JAssignmentExpression( t.getRef(), new JMethodCallExpression(callable_joiner.getName(), new JExpression[0])))); body.addStatement( new JExpressionStatement( new JMethodCallExpression( downstream.pushMethodName(), new JExpression[] {t.getRef()}))); } else { // slice does not need joiner code, so just transfer from upstream // to downstream buffer. // // generated code is // T tmp; // tmp = pop(); // push(tmp); // assert joiner.getWidth() == 1; Channel upstream = backEndBits.getChannel(joiner.getSingleEdge()); body.addStatement(t.getDecl()); body.addStatement( new JExpressionStatement( new JAssignmentExpression( t.getRef(), new JMethodCallExpression(upstream.popMethodName(), new JExpression[0])))); body.addStatement( new JExpressionStatement( new JMethodCallExpression( downstream.pushMethodName(), new JExpression[] {t.getRef()}))); } joinerWork = new JMethodDeclaration( CStdType.Void, "_joinerWork_" + joiner.getNextFilter().getFilter().getName(), JFormalParameter.EMPTY, body); joiner_code.setWorkMethod(joinerWork); joiner_code.addMethod(joinerWork); }
/** * Create fields and code for a joiner, as follows. Do not create a joiner if all weights are 0: * this code fails rather than creating nonsensical kopi code. Note that this <b>always</b> * creates code, if you want to reuse any existing code call {@link #getJoinerCode(InputSliceNode, * BackEndFactory) getJoinerCode} instead. * * <pre> * joiner as a state machine, driven off arrays: * * / * joiner (unless single edge, just delegated to a channel * arity (4) and weight s but not duplication. * / * * T pop_1_M() {fprintf(stderr, "pop_1_M\n"); return 0;} * T pop_2_M() {fprintf(stderr, "pop_2_M\n"); return 0;} * T pop_4_M() {fprintf(stderr, "pop_4_M\n"); return 0;} * * * static int joiner_M_edge = 4 - 1; * static int joiner_M_weight = 0; * * static inline T joiner_M() { * * / * attempt to place const either applies it to function, or gives parse error * do we need to move this to file scope to convince inliner to work on joiner_M? * / * static T (*pops[4])() = { * pop_1_M, * pop_2_M, * 0, / * 0-weight edge * / * pop_4_M * }; * * static const int weights[4] = {2, 1, 0, 2}; * * while (joiner_M_weight == 0) { / * "if" if do not generate for 0-length edges. * / * joiner_M_edge = (joiner_M_edge + 1) % 4; * joiner_M_weight = weights[joiner_M_edge]; * } * joiner_M_weight--; * * return pops[joiner_M_edge](); * } * * joiner as a case statement, which is what we implement: * * * static int joiner_M_unrolled_edge = 3 - 1; * static int joiner_M_unrolled_weight = 0; * * static inline T joiner_M_unrolled() { * * static const int weights[3] = {2-1, 1-1, 2-1}; * * if (--joiner_M_unrolled_weight < 0) { * joiner_M_unrolled_edge = (joiner_M_unrolled_edge + 1) % 3; * joiner_M_unrolled_weight = weights[joiner_M_unrolled_edge]; * } * * switch (joiner_M_unrolled_edge) { * case 0: * return pop_1_M(); * case 1: * return pop_2_M(); * case 2: * return pop_4_M(); * } * } * </pre> * * @param joiner An InputSliceNode specifying joiner weights and edges. * @param backEndBits to get info from appropriate BackEndFactory * @param helper CodeStoreHelper to get the fields and method implementing the joiner */ private static void makeJoinerCode( InputSliceNode joiner, BackEndFactory backEndBits, CodeStoreHelper helper) { String joiner_name = "_joiner_" + ProcessFilterSliceNode.getUid(); String joiner_method_name = joiner_name + joiner.getNextFilter().getFilter().getName(); // size is number of edges with non-zero weight. int size = 0; for (int w : joiner.getWeights()) { if (w != 0) { size++; } } assert size > 0 : "asking for code generation for null joiner"; String edge_name = joiner_name + "_edge"; String weight_name = joiner_name + "_weight"; JVariableDefinition edgeVar = new JVariableDefinition( at.dms.kjc.Constants.ACC_STATIC, CStdType.Integer, edge_name, new JIntLiteral(size - 1)); JFieldDeclaration edgeDecl = new JFieldDeclaration(edgeVar); JFieldAccessExpression edgeExpr = new JFieldAccessExpression(edge_name); JVariableDefinition weightVar = new JVariableDefinition( at.dms.kjc.Constants.ACC_STATIC, CStdType.Integer, weight_name, new JIntLiteral(0)); JFieldDeclaration weightDecl = new JFieldDeclaration(weightVar); JFieldAccessExpression weightExpr = new JFieldAccessExpression(weight_name); JIntLiteral[] weightVals = new JIntLiteral[size]; { int i = 0; for (int w : joiner.getWeights()) { if (w != 0) { weightVals[i++] = new JIntLiteral(w - 1); } } } JVariableDefinition weightsArray = new JVariableDefinition( at.dms.kjc.Constants.ACC_STATIC | at.dms.kjc.Constants.ACC_FINAL, // static const in C new CArrayType(CStdType.Integer, 1, new JExpression[] {new JIntLiteral(size)}), "weights", new JArrayInitializer(weightVals)); JLocalVariableExpression weightsExpr = new JLocalVariableExpression(weightsArray); JStatement next_edge_weight_stmt = new JIfStatement( null, new JRelationalExpression( at.dms.kjc.Constants.OPE_LT, new JPrefixExpression(null, at.dms.kjc.Constants.OPE_PREDEC, weightExpr), new JIntLiteral(0)), new JBlock( new JStatement[] { new JExpressionStatement( new JAssignmentExpression( edgeExpr, new JModuloExpression( null, new JAddExpression(edgeExpr, new JIntLiteral(1)), new JIntLiteral(size)))), new JExpressionStatement( new JAssignmentExpression( weightExpr, new JArrayAccessExpression(weightsExpr, edgeExpr))) }), new JEmptyStatement(), null); JSwitchGroup[] cases = new JSwitchGroup[size]; // fill in later. JStatement switch_on_edge_stmt = new JSwitchStatement(null, edgeExpr, cases, null); { int i = 0; for (int j = 0; j < joiner.getWeights().length; j++) { if (joiner.getWeights()[j] != 0) { JMethodCallExpression pop = new JMethodCallExpression( backEndBits.getChannel(joiner.getSources()[j]).popMethodName(), new JExpression[0]); pop.setType(joiner.getType()); cases[i] = new JSwitchGroup( null, new JSwitchLabel[] {new JSwitchLabel(null, new JIntLiteral(i))}, new JStatement[] {new JReturnStatement(null, pop, null)}); i++; } } } JMethodDeclaration joiner_method = new JMethodDeclaration( null, at.dms.kjc.Constants.ACC_STATIC | at.dms.kjc.Constants.ACC_INLINE, joiner.getType(), joiner_method_name, new JFormalParameter[] {}, new CClassType[] {}, new JBlock(), null, null); JBlock joiner_block = joiner_method.getBody(); joiner_block.addStatement( new JVariableDeclarationStatement(new JVariableDefinition[] {weightsArray})); joiner_block.addStatement(next_edge_weight_stmt); joiner_block.addStatement(switch_on_edge_stmt); helper.addFields(new JFieldDeclaration[] {edgeDecl, weightDecl}); helper.addMethod(joiner_method); }