GY-63_MS5611/libraries/MCP23S17/test/unit_test_001.cpp

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//
// FILE: unit_test_001.cpp
// AUTHOR: Rob Tillaart
// DATE: 2021-12-30
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// PURPOSE: unit tests for the MCP23S17
// https://github.com/RobTillaart/MCP23S17
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// https://github.com/Arduino-CI/arduino_ci/blob/master/REFERENCE.md
//
// supported assertions
// ----------------------------
// assertEqual(expected, actual); // a == b
// assertNotEqual(unwanted, actual); // a != b
// assertComparativeEquivalent(expected, actual); // abs(a - b) == 0 or (!(a > b) && !(a < b))
// assertComparativeNotEquivalent(unwanted, actual); // abs(a - b) > 0 or ((a > b) || (a < b))
// assertLess(upperBound, actual); // a < b
// assertMore(lowerBound, actual); // a > b
// assertLessOrEqual(upperBound, actual); // a <= b
// assertMoreOrEqual(lowerBound, actual); // a >= b
// assertTrue(actual);
// assertFalse(actual);
// assertNull(actual);
// // special cases for floats
// assertEqualFloat(expected, actual, epsilon); // fabs(a - b) <= epsilon
// assertNotEqualFloat(unwanted, actual, epsilon); // fabs(a - b) >= epsilon
// assertInfinity(actual); // isinf(a)
// assertNotInfinity(actual); // !isinf(a)
// assertNAN(arg); // isnan(a)
// assertNotNAN(arg); // !isnan(a)
#include <ArduinoUnitTests.h>
#include "Arduino.h"
#include "MCP23S17.h"
unittest_setup()
{
fprintf(stderr, "MCP23S17_LIB_VERSION: %s\n", (char *) MCP23S17_LIB_VERSION);
}
unittest_teardown()
{
}
unittest(test_constants)
{
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assertEqual(MCP23S17_OK , 0x00);
assertEqual(MCP23S17_PIN_ERROR , 0x81);
assertEqual(MCP23S17_SPI_ERROR , 0x82);
assertEqual(MCP23S17_VALUE_ERROR , 0x83);
assertEqual(MCP23S17_PORT_ERROR , 0x84);
assertEqual(MCP23S17_REGISTER_ERROR, 0xFF);
assertEqual(MCP23S17_INVALID_READ , 0xFF);
fprintf(stderr, "\nSPI-speed\n");
assertEqual(MCP23S17_TYP_SPI_SPEED , 8000000);
assertEqual(MCP23S17_MAX_SPI_SPEED , 10000000);
}
unittest(test_SW_constructor)
{
MCP23S17 mcp_sw(10, 11, 12, 13); // default address 0x00
assertEqual(0x00, mcp_sw.getAddress());
assertFalse(mcp_sw.usesHWSPI());
assertEqual(MCP23S17_OK, mcp_sw.lastError());
for (int addr = 0; addr < 8; addr++)
{
MCP23S17 mcp_sw(10, 11, 12, 13, addr);
assertEqual(addr, mcp_sw.getAddress());
}
}
unittest(test_HW_constructors)
{
MCP23S17 mcp_hw0(10);
assertEqual(0x00, mcp_hw0.getAddress());
assertTrue(mcp_hw0.usesHWSPI());
assertEqual(MCP23S17_OK, mcp_hw0.lastError());
for (int addr = 0; addr < 8; addr++)
{
MCP23S17 mcp_hw(10, addr);
assertEqual(addr, mcp_hw.getAddress());
}
MCP23S17 mcp_hw1(10, &SPI);
assertEqual(0x00, mcp_hw1.getAddress());
assertTrue(mcp_hw1.usesHWSPI());
for (int addr = 0; addr < 8; addr++)
{
MCP23S17 mcp_hw(10, addr, &SPI);
assertEqual(addr, mcp_hw.getAddress());
assertTrue(mcp_hw.usesHWSPI());
}
}
////////////////////////////////////////////////////////////
//
// 1 bit interface
//
unittest(test_pinMode)
{
MCP23S17 mcp_hw(10);
assertEqual(MCP23S17_OK, mcp_hw.lastError());
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assertFalse(mcp_hw.pinMode1(16, INPUT));
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assertEqual(MCP23S17_PIN_ERROR, mcp_hw.lastError());
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assertFalse(mcp_hw.pinMode1(0, 4));
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assertEqual(MCP23S17_VALUE_ERROR, mcp_hw.lastError());
}
unittest(test_digitalWrite)
{
MCP23S17 mcp_hw(10);
assertEqual(MCP23S17_OK, mcp_hw.lastError());
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assertFalse(mcp_hw.write1(16, 0));
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assertEqual(MCP23S17_PIN_ERROR, mcp_hw.lastError());
}
unittest(test_digitalRead)
{
MCP23S17 mcp_hw(10);
assertEqual(MCP23S17_OK, mcp_hw.lastError());
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assertEqual(MCP23S17_INVALID_READ, mcp_hw.read1(16));
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assertEqual(MCP23S17_PIN_ERROR, mcp_hw.lastError());
}
unittest(test_Polarity)
{
bool flag;
MCP23S17 mcp_hw(10);
assertEqual(MCP23S17_OK, mcp_hw.lastError());
assertFalse(mcp_hw.setPolarity(16, true));
assertEqual(MCP23S17_PIN_ERROR, mcp_hw.lastError());
assertFalse(mcp_hw.getPolarity(16, flag));
assertEqual(MCP23S17_PIN_ERROR, mcp_hw.lastError());
}
unittest(test_Pullup)
{
bool flag;
MCP23S17 mcp_hw(10);
assertEqual(MCP23S17_OK, mcp_hw.lastError());
assertFalse(mcp_hw.setPullup(16, true));
assertEqual(MCP23S17_PIN_ERROR, mcp_hw.lastError());
assertFalse(mcp_hw.getPullup(16, flag));
assertEqual(MCP23S17_PIN_ERROR, mcp_hw.lastError());
}
////////////////////////////////////////////////////////////
//
// 8 bit interface
//
unittest(test_pinMode8)
{
MCP23S17 mcp_hw(10);
assertEqual(MCP23S17_OK, mcp_hw.lastError());
assertFalse(mcp_hw.pinMode8(2, 0xFF));
assertEqual(MCP23S17_PORT_ERROR, mcp_hw.lastError());
}
unittest(test_Write8)
{
MCP23S17 mcp_hw(10);
assertEqual(MCP23S17_OK, mcp_hw.lastError());
assertFalse(mcp_hw.write8(2, HIGH));
assertEqual(MCP23S17_PORT_ERROR, mcp_hw.lastError());
}
unittest(test_Read8)
{
MCP23S17 mcp_hw(10);
assertEqual(MCP23S17_OK, mcp_hw.lastError());
assertEqual(MCP23S17_INVALID_READ, mcp_hw.read8(2));
assertEqual(MCP23S17_PORT_ERROR, mcp_hw.lastError());
}
unittest(test_Polarity8)
{
uint8_t mask;
MCP23S17 mcp_hw(10);
assertEqual(MCP23S17_OK, mcp_hw.lastError());
assertFalse(mcp_hw.setPolarity8(2, 0xFF));
assertEqual(MCP23S17_PORT_ERROR, mcp_hw.lastError());
assertFalse(mcp_hw.getPolarity8(2, mask));
assertEqual(MCP23S17_PORT_ERROR, mcp_hw.lastError());
}
unittest(test_Pullup8)
{
uint8_t mask;
MCP23S17 mcp_hw(10);
assertEqual(MCP23S17_OK, mcp_hw.lastError());
assertFalse(mcp_hw.setPullup8(2, 0xFF));
assertEqual(MCP23S17_PORT_ERROR, mcp_hw.lastError());
assertFalse(mcp_hw.getPullup8(2, mask));
assertEqual(MCP23S17_PORT_ERROR, mcp_hw.lastError());
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}
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////////////////////////////////////////////////////////////
//
// 16 bit interface
//
// no testable calls yet.
////////////////////////////////////////////////////////////
//
// MISC
//
unittest(test_SPIspeed)
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{
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MCP23S17 mcp_hw(10);
assertEqual(MCP23S17_OK, mcp_hw.lastError());
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for (uint32_t speed = 1000000; speed < 16000000; speed += 1000000)
{
mcp_hw.setSPIspeed(speed);
assertEqual(speed, mcp_hw.getSPIspeed());
}
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}
unittest_main()
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// -- END OF FILE --