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/*
* Copyright (c) 1999-2008 Mark D. Hill and David A. Wood
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met: redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer;
* redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution;
* neither the name of the copyright holders nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/*
* ChipComponentAccessAST.C
*
* Description: See ChipComponentAccessAST.hh
*
* $Id: ChipComponentAccessAST.C 1.9 04/06/18 21:00:08-00:00 beckmann@cottons.cs.wisc.edu $
*
*/
#include "mem/slicc/ast/ChipComponentAccessAST.hh"
ChipComponentAccessAST::ChipComponentAccessAST(VarExprAST* machine, ExprAST* mach_version, VarExprAST* component, string* proc_name, Vector<ExprAST*>* expr_vec_ptr)
: ExprAST()
{
m_chip_ver_expr_ptr = NULL;
m_mach_var_ptr = machine;
m_comp_var_ptr = component;
m_mach_ver_expr_ptr = mach_version;
m_expr_vec_ptr = expr_vec_ptr;
m_proc_name_ptr = proc_name;
m_field_name_ptr = NULL;
}
ChipComponentAccessAST::ChipComponentAccessAST(VarExprAST* machine, ExprAST* mach_version, VarExprAST* component, string* field_name)
: ExprAST()
{
m_chip_ver_expr_ptr = NULL;
m_mach_var_ptr = machine;
m_comp_var_ptr = component;
m_mach_ver_expr_ptr = mach_version;
m_expr_vec_ptr = NULL;
m_proc_name_ptr = NULL;
m_field_name_ptr = field_name;
}
ChipComponentAccessAST::ChipComponentAccessAST(ExprAST* chip_version, VarExprAST* machine, ExprAST* mach_version, VarExprAST* component, string* proc_name, Vector<ExprAST*>* expr_vec_ptr)
: ExprAST()
{
m_chip_ver_expr_ptr = chip_version;
m_mach_var_ptr = machine;
m_comp_var_ptr = component;
m_mach_ver_expr_ptr = mach_version;
m_expr_vec_ptr = expr_vec_ptr;
m_proc_name_ptr = proc_name;
m_field_name_ptr = NULL;
}
ChipComponentAccessAST::ChipComponentAccessAST(ExprAST* chip_version, VarExprAST* machine, ExprAST* mach_version, VarExprAST* component, string* field_name)
: ExprAST()
{
m_chip_ver_expr_ptr = chip_version;
m_mach_var_ptr = machine;
m_comp_var_ptr = component;
m_mach_ver_expr_ptr = mach_version;
m_expr_vec_ptr = NULL;
m_proc_name_ptr = NULL;
m_field_name_ptr = field_name;
}
ChipComponentAccessAST::~ChipComponentAccessAST()
{
if (m_expr_vec_ptr != NULL) {
int size = m_expr_vec_ptr->size();
for(int i=0; i<size; i++) {
delete (*m_expr_vec_ptr)[i];
}
}
delete m_mach_var_ptr;
delete m_comp_var_ptr;
delete m_mach_ver_expr_ptr;
if (m_proc_name_ptr != NULL) {
delete m_proc_name_ptr;
}
if (m_field_name_ptr != NULL) {
delete m_field_name_ptr;
}
if (m_chip_ver_expr_ptr != NULL) {
delete m_chip_ver_expr_ptr;
}
}
Type* ChipComponentAccessAST::generate(string& code) const
{
Type* void_type_ptr = g_sym_table.getType("void");
Type* ret_type_ptr;
code += "(";
Var* v = g_sym_table.getMachComponentVar(m_mach_var_ptr->getName(), m_comp_var_ptr->getName());
string orig_code = v->getCode();
string working_code;
if (m_chip_ver_expr_ptr != NULL) {
// replace m_chip_ptr with specified chip
unsigned int t = orig_code.find("m_chip_ptr");
assert(t != string::npos);
string code_temp0 = orig_code.substr(0, t);
string code_temp1 = orig_code.substr(t+10);
working_code += code_temp0;
working_code += "g_system_ptr->getChip(";
m_chip_ver_expr_ptr->generate(working_code);
working_code += ")";
working_code += code_temp1;
}
else {
working_code += orig_code;
}
// replace default "m_version" with the version we really want
unsigned int tmp_uint = working_code.find("m_version");
assert(tmp_uint != string::npos);
string code_temp2 = working_code.substr(0, tmp_uint);
string code_temp3 = working_code.substr(tmp_uint+9);
code += code_temp2;
code += "(";
m_mach_ver_expr_ptr->generate(code);
code += ")";
code += code_temp3;
code += ")";
if (m_proc_name_ptr != NULL) {
// method call
code += ".";
Vector <Type*> paramTypes;
// generate code
int actual_size = m_expr_vec_ptr->size();
code += (*m_proc_name_ptr) + "(";
for(int i=0; i<actual_size; i++) {
if (i != 0) {
code += ", ";
}
// Check the types of the parameter
Type* actual_type_ptr = (*m_expr_vec_ptr)[i]->generate(code);
paramTypes.insertAtBottom(actual_type_ptr);
}
code += ")";
Type* obj_type_ptr = v->getType();
string methodId = obj_type_ptr->methodId(*m_proc_name_ptr, paramTypes);
// Verify that this is a method of the object
if (!obj_type_ptr->methodExist(methodId)) {
error("Invalid method call: Type '" + obj_type_ptr->toString() + "' does not have a method '" + methodId + "'");
}
int expected_size = obj_type_ptr->methodParamType(methodId).size();
if (actual_size != expected_size) {
// Right number of parameters
ostringstream err;
err << "Wrong number of parameters for function name: '" << *m_proc_name_ptr << "'";
err << ", expected: ";
err << expected_size;
err << ", actual: ";
err << actual_size;
error(err.str());
}
for(int i=0; i<actual_size; i++) {
// Check the types of the parameter
Type* actual_type_ptr = paramTypes[i];
Type* expected_type_ptr = obj_type_ptr->methodParamType(methodId)[i];
if (actual_type_ptr != expected_type_ptr) {
(*m_expr_vec_ptr)[i]->error("Type mismatch: expected: " + expected_type_ptr->toString() +
" actual: " + actual_type_ptr->toString());
}
}
// Return the return type of the method
ret_type_ptr = obj_type_ptr->methodReturnType(methodId);
}
else if (m_field_name_ptr != NULL) {
Type* obj_type_ptr = v->getType();
code += ").m_" + (*m_field_name_ptr);
// Verify that this is a valid field name for this type
if (!obj_type_ptr->dataMemberExist(*m_field_name_ptr)) {
error("Invalid object field: Type '" + obj_type_ptr->toString() + "' does not have data member " + *m_field_name_ptr);
}
// Return the type of the field
ret_type_ptr = obj_type_ptr->dataMemberType(*m_field_name_ptr);
}
else {
assert(0);
}
return ret_type_ptr;
}
void ChipComponentAccessAST::findResources(Map<Var*, string>& resource_list) const
{
}
void ChipComponentAccessAST::print(ostream& out) const
{
out << "[ChipAccessExpr: " << *m_expr_vec_ptr << "]";
}
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