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/*****************************************************************************
Licensed to Accellera Systems Initiative Inc. (Accellera) under one or
more contributor license agreements. See the NOTICE file distributed
with this work for additional information regarding copyright ownership.
Accellera licenses this file to you under the Apache License, Version 2.0
(the "License"); you may not use this file except in compliance with the
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http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
implied. See the License for the specific language governing
permissions and limitations under the License.
*****************************************************************************/
/*****************************************************************************
sharing.cpp --
Original Author: Rocco Jonack, Synopsys, Inc., 1999-07-30
*****************************************************************************/
/*****************************************************************************
MODIFICATION LOG - modifiers, enter your name, affiliation, date and
changes you are making here.
Name, Affiliation, Date:
Description of Modification:
*****************************************************************************/
#include "sharing.h"
#define true 1
#define false 0
void sharing::entry()
{
sc_bigint<8> tmp1;
sc_bigint<8> tmp1r;
sc_biguint<8> tmp2;
sc_biguint<8> tmp2r;
long tmp3;
long tmp3r;
int tmp4;
int tmp4r;
short tmp5;
short tmp5r;
char tmp6;
char tmp6r;
// define 1 dimensional array
unsigned int tmp7[2];
char tmp8[2];
// define sc_bool_vector
sc_bv<4> tmp10;
tmp10[3] = 0; tmp10[2] = 1; tmp10[1] = 0; tmp10[0] = 1;
// define 2 dimentional array
sc_bv<1> tmp11[2];
// reset_loop
if (reset.read() == true) {
out_valid.write(false);
out_ack.write(false);
wait();
} else wait();
//
// main loop
//
// initialization of sc_array
tmp7[0] = 3;
tmp7[1] = 12;
tmp8[0] = 'S';
tmp8[1] = 'C';
tmp11[0][0] = "1";
tmp11[1][0] = "0";
while(1) {
while(in_valid.read()==false) wait();
//reading the inputs
tmp1 = in_value1.read();
tmp2 = in_value2.read();
tmp3 = in_value3.read();
tmp4 = in_value4.read();
tmp5 = in_value5.read();
tmp6 = in_value6.read();
out_ack.write(true);
//execute mixed data type shit left operations
tmp1r = tmp1 << (tmp7[0] % 8);
tmp2r = tmp2 << 2;
tmp3r = tmp3 << 1;
tmp4r = tmp4 << (tmp7[1] % 32);
tmp5r = tmp3 << ((unsigned int)tmp1.to_int() % 32);
tmp6r = tmp6 << 1;
//write outputs
out_value1.write(tmp1r);
out_value2.write(tmp2r);
out_value3.write(tmp3r);
out_value4.write(tmp4r);
out_value5.write(tmp5r);
out_value6.write(tmp6r);
out_valid.write(true);
wait();
out_ack.write(false);
out_valid.write(false);
//execute mixed data type shift left operations
tmp1r = tmp1 << (tmp7[0] % 8);
tmp2r = tmp2 << (tmp4 % 8);
tmp3r = tmp3 << (tmp5 % 32);
tmp4r = tmp4 << 2;
tmp5r = tmp3 << ((unsigned int)(tmp5) % 32);
tmp6r = tmp6 << (tmp2.to_uint() % 8);
//write outputs
out_value1.write(tmp1r);
out_value2.write(tmp2r);
out_value3.write(tmp3r);
out_value4.write(tmp4r);
out_value5.write(tmp5r);
out_value6.write(tmp6r);
out_valid.write(true);
wait();
out_ack.write(false);
out_valid.write(false);
}
} // End