07b79693af
ByteBuffer::align() does not work as expected on some RTEMS targets where malloc() returns buffers aligned only to 4 bytes. SerializableControl::alignBuffer() and DeserializableControl::alignData() are implemented, but never called, in this module and pvAccessCPP. ByteBuffer::align() is only needed to implement these two methods. Leave non-pure virtual stubs to assist in migration.
287 lines
6.9 KiB
C++
287 lines
6.9 KiB
C++
/*
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* Copyright information and license terms for this software can be
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* found in the file LICENSE that is included with the distribution
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*/
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/*
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* testByteBuffer.cpp
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*
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* Created on: Oct 20, 2010
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* Author: Miha Vitorovic
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*/
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#include <iostream>
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#include <fstream>
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#include <cstring>
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#include <memory>
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#include <testMain.h>
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#include <pv/pvUnitTest.h>
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#include <pv/byteBuffer.h>
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#include <pv/pvIntrospect.h>
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using namespace epics::pvData;
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static
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void testBasicOperations() {
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epics::auto_ptr<ByteBuffer> buff(new ByteBuffer(32));
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testOk1(buff->getSize()==32);
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testOk1(buff->getPosition()==0);
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testOk1(buff->getLimit()==32);
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testOk1(buff->getRemaining()==32);
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buff->putBoolean(true);
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testOk1(buff->getPosition()==1);
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testOk1(buff->getRemaining()==31);
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buff->putByte(-12);
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testOk1(buff->getPosition()==2);
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testOk1(buff->getRemaining()==30);
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buff->putShort(10516);
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testOk1(buff->getPosition()==4);
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testOk1(buff->getRemaining()==28);
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buff->putInt(0x1937628B);
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testOk1(buff->getPosition()==8);
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testOk1(buff->getRemaining()==24);
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buff->putLong(2345678123LL);
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testOk1(buff->getPosition()==16);
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testOk1(buff->getRemaining()==16);
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float testFloat = 34.67f;
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buff->putFloat(testFloat);
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testOk1(buff->getPosition()==20);
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testOk1(buff->getRemaining()==12);
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double testDouble = -512.23974;
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buff->putDouble(testDouble);
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testOk1(buff->getPosition()==28);
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testOk1(buff->getRemaining()==4);
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// testing direct reads
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testOk1(buff->getBoolean(0)==true);
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testOk1(buff->getByte(1)==-12);
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testOk1(buff->getShort(2)==10516);
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testOk1(buff->getInt(4)==0x1937628B);
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testOk1(buff->getLong(8)==2345678123LL);
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testOk1(buff->getFloat(16)==testFloat);
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testOk1(buff->getDouble(20)==testDouble);
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buff->flip();
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testOk1(buff->getLimit()==28);
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testOk1(buff->getPosition()==0);
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testOk1(buff->getRemaining()==28);
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testOk1(buff->getBoolean()==true);
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testOk1(buff->getPosition()==1);
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testOk1(buff->getByte()==-12);
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testOk1(buff->getPosition()==2);
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testOk1(buff->getShort()==10516);
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testOk1(buff->getPosition()==4);
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testOk1(buff->getInt()==0x1937628B);
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testOk1(buff->getPosition()==8);
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testOk1(buff->getLong()==2345678123LL);
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testOk1(buff->getPosition()==16);
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testOk1(buff->getFloat()==testFloat);
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testOk1(buff->getPosition()==20);
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testOk1(buff->getDouble()==testDouble);
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testOk1(buff->getPosition()==28);
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buff->clear();
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testOk1(buff->getPosition()==0);
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testOk1(buff->getLimit()==32);
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testOk1(buff->getRemaining()==32);
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buff->setPosition(4);
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testOk1(buff->getPosition()==4);
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testOk1(buff->getLimit()==32);
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testOk1(buff->getRemaining()==(32-4));
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buff->setPosition(13);
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testOk1(buff->getPosition()==13);
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testOk1(buff->getLimit()==32);
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testOk1(buff->getRemaining()==(32-13));
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// testing absolute puts
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buff->clear();
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buff->setPosition(28);
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buff->putBoolean(0, true);
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buff->putByte(1, -12);
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buff->putShort(2, 10516);
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buff->putInt(4, 0x1937628B);
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buff->putLong(8, 2345678123LL);
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buff->putFloat(16, testFloat);
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buff->putDouble(20, testDouble);
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buff->flip();
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testOk1(buff->getLimit()==28);
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testOk1(buff->getPosition()==0);
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testOk1(buff->getRemaining()==28);
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testOk1(buff->getBoolean()==true);
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testOk1(buff->getPosition()==1);
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testOk1(buff->getByte()==-12);
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testOk1(buff->getPosition()==2);
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testOk1(buff->getShort()==10516);
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testOk1(buff->getPosition()==4);
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testOk1(buff->getInt()==0x1937628B);
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testOk1(buff->getPosition()==8);
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testOk1(buff->getLong()==2345678123LL);
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testOk1(buff->getPosition()==16);
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testOk1(buff->getFloat()==testFloat);
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testOk1(buff->getPosition()==20);
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testOk1(buff->getDouble()==testDouble);
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testOk1(buff->getPosition()==28);
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buff->clear();
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testOk1(buff->getPosition()==0);
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testOk1(buff->getLimit()==32);
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testOk1(buff->getRemaining()==32);
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char src[] = { 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l',
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'm' };
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char dst[] = { ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ',
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' ' };
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buff->put(src, 2, 6);
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testOk1(buff->getPosition()==6);
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testOk1(strncmp(buff->getArray(),&src[2],6)==0);
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buff->flip();
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testOk1(buff->getLimit()==6);
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testOk1(buff->getPosition()==0);
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testOk1(buff->getRemaining()==6);
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buff->get(dst, 2, 6);
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testOk1(buff->getLimit()==6);
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testOk1(buff->getPosition()==6);
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testOk1(strncmp(&src[2],&dst[2],6)==0);
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testShow()<<"First 10 characters of destination: >>"<<std::string(dst, 10)<<"<<\n";
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}
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static const char expect_be[] = "abcdef";
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static const char expect_le[] = "bafedc";
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static
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void testInverseEndianness(int order, const char *expect) {
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testDiag("check byte swapping features order=%d", order);
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epics::auto_ptr<ByteBuffer> buf(new ByteBuffer(32,order));
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buf->putShort(0x6162);
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buf->putInt(0x63646566);
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testOk1(strncmp(buf->getArray(),expect,6)==0);
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buf->flip();
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testOk1(buf->getShort()==0x6162);
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testOk1(buf->getInt()==0x63646566);
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}
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static
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void testSwap()
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{
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testDiag("Check epics::pvData::swap<T>(v)");
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testOk1(swap<uint8>(0x80)==0x80);
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testOk1(swap<uint16>(0x7080)==0x8070);
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testOk1(swap<uint32>(0x10203040)==0x40302010);
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uint64 a = 0x10203040,
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b = 0x80706050;
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a <<= 32;
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b <<= 32;
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a |= 0x50607080;
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b |= 0x40302010;
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testOk1(swap<uint64>(a)==b);
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}
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static
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void testUnaligned()
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{
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testDiag("test correctness of unaligned access");
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}
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static
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void testArrayLE()
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{
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testDiag("testArray() LE");
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ByteBuffer buf(8, EPICS_ENDIAN_LITTLE);
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std::vector<uint32> vals;
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vals.push_back(0x12345678);
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vals.push_back(0x01020304);
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buf.putArray(&vals[0], vals.size());
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testEqual(buf.getPosition(), 8u);
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testOk1(memcmp(buf.getBuffer(), "\x78\x56\x34\x12\x04\x03\x02\x01", 8)==0);
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buf.clear();
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buf.put("\x40\x30\x20\x10\xa4\xa3\xa2\xa1", 0, 8);
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buf.flip();
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buf.getArray(&vals[0], 2);
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testEqual(vals[0], 0x10203040u);
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testEqual(vals[1], 0xa1a2a3a4u);
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}
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static
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void testArrayBE()
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{
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testDiag("testArray() BE");
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ByteBuffer buf(8, EPICS_ENDIAN_BIG);
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std::vector<uint32> vals;
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vals.push_back(0x12345678u);
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vals.push_back(0x01020304u);
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buf.putArray(&vals[0], vals.size());
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testEqual(buf.getPosition(), 8u);
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testOk1(memcmp(buf.getBuffer(), "\x12\x34\x56\x78\x01\x02\x03\x04", 8)==0);
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buf.clear();
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buf.put("\x10\x20\x30\x40\xa1\xa2\xa3\xa4", 0, 8);
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buf.flip();
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buf.getArray(&vals[0], 2);
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testEqual(vals[0], 0x10203040u);
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testEqual(vals[1], 0xa1a2a3a4u);
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}
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MAIN(testByteBuffer)
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{
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testPlan(97);
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testDiag("Tests byteBuffer");
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testBasicOperations();
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testInverseEndianness(EPICS_ENDIAN_BIG, expect_be);
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testInverseEndianness(EPICS_ENDIAN_LITTLE, expect_le);
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testSwap();
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testUnaligned();
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testArrayLE();
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testArrayBE();
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return testDone();
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}
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