#include "pid/buildjson.hpp" #include #include namespace pid_control { namespace { TEST(ZoneFromJson, emptyZone) { // There is a zone key, but it's empty. // This is technically invalid. std::map pidConfig; std::map zoneConfig; auto j2 = R"( { "zones": [] } )"_json; std::tie(pidConfig, zoneConfig) = buildPIDsFromJson(j2); EXPECT_TRUE(pidConfig.empty()); EXPECT_TRUE(zoneConfig.empty()); } TEST(ZoneFromJson, oneZoneOnePid) { // Parse a valid configuration with one zone and one PID. std::map pidConfig; std::map zoneConfig; auto j2 = R"( { "zones" : [{ "id": 1, "minThermalOutput": 3000.0, "failsafePercent": 75.0, "pids": [{ "name": "fan1-5", "type": "fan", "inputs": ["fan1", "fan5"], "setpoint": 90.0, "pid": { "samplePeriod": 0.1, "proportionalCoeff": 0.0, "integralCoeff": 0.0, "derivativeCoeff": 0.0, "feedFwdOffsetCoeff": 0.0, "feedFwdGainCoeff": 0.010, "integralLimit_min": 0.0, "integralLimit_max": 0.0, "outLim_min": 30.0, "outLim_max": 100.0, "slewNeg": 0.0, "slewPos": 0.0 } }] }] } )"_json; std::tie(pidConfig, zoneConfig) = buildPIDsFromJson(j2); EXPECT_EQ(pidConfig.size(), static_cast(1)); EXPECT_EQ(zoneConfig.size(), static_cast(1)); EXPECT_EQ(pidConfig[1]["fan1-5"].type, "fan"); EXPECT_DOUBLE_EQ(zoneConfig[1].minThermalOutput, 3000.0); } TEST(ZoneFromJson, oneZoneOnePidWithHysteresis) { // Parse a valid configuration with one zone and one PID and the PID uses // Hysteresis parameters. std::map pidConfig; std::map zoneConfig; auto j2 = R"( { "zones" : [{ "id": 1, "minThermalOutput": 3000.0, "failsafePercent": 75.0, "pids": [{ "name": "fan1-5", "type": "fan", "inputs": ["fan1", "fan5"], "setpoint": 90.0, "pid": { "samplePeriod": 0.1, "proportionalCoeff": 0.0, "integralCoeff": 0.0, "derivativeCoeff": 0.0, "feedFwdOffsetCoeff": 0.0, "feedFwdGainCoeff": 0.010, "integralLimit_min": 0.0, "integralLimit_max": 0.0, "outLim_min": 30.0, "outLim_max": 100.0, "slewNeg": 0.0, "slewPos": 0.0, "positiveHysteresis": 1000.0, "negativeHysteresis": 9000.0 } }] }] } )"_json; std::tie(pidConfig, zoneConfig) = buildPIDsFromJson(j2); EXPECT_EQ(pidConfig.size(), static_cast(1)); EXPECT_EQ(zoneConfig.size(), static_cast(1)); EXPECT_EQ(pidConfig[1]["fan1-5"].type, "fan"); EXPECT_DOUBLE_EQ(pidConfig[1]["fan1-5"].pidInfo.positiveHysteresis, 1000.0); EXPECT_DOUBLE_EQ(zoneConfig[1].minThermalOutput, 3000.0); } TEST(ZoneFromJson, oneZoneOneStepwiseWithHysteresis) { // Parse a valid configuration with one zone and one PID and the PID uses // Hysteresis parameters. std::map pidConfig; std::map zoneConfig; auto j2 = R"( { "zones" : [{ "id": 1, "minThermalOutput": 3000.0, "failsafePercent": 75.0, "pids": [{ "name": "temp1", "type": "stepwise", "inputs": ["temp1"], "setpoint": 30.0, "pid": { "samplePeriod": 0.1, "positiveHysteresis": 1.0, "negativeHysteresis": 1.0, "isCeiling": false, "reading": { "0": 45, "1": 46, "2": 47, "3": 48, "4": 49, "5": 50, "6": 51, "7": 52, "8": 53, "9": 54, "10": 55, "11": 56, "12": 57, "13": 58, "14": 59, "15": 60, "16": 61, "17": 62, "18": 63, "19": 64 }, "output": { "0": 5000, "1": 2400, "2": 2600, "3": 2800, "4": 3000, "5": 3200, "6": 3400, "7": 3600, "8": 3800, "9": 4000, "10": 4200, "11": 4400, "12": 4600, "13": 4800, "14": 5000, "15": 5200, "16": 5400, "17": 5600, "18": 5800, "19": 6000 } } }] }] } )"_json; std::tie(pidConfig, zoneConfig) = buildPIDsFromJson(j2); EXPECT_EQ(pidConfig.size(), static_cast(1)); EXPECT_EQ(zoneConfig.size(), static_cast(1)); EXPECT_EQ(pidConfig[1]["temp1"].type, "stepwise"); EXPECT_DOUBLE_EQ(pidConfig[1]["temp1"].stepwiseInfo.positiveHysteresis, 1.0); EXPECT_DOUBLE_EQ(zoneConfig[1].minThermalOutput, 3000.0); } TEST(ZoneFromJson, getCycleInterval) { // Parse a valid configuration with one zone and one PID and the zone have // cycleIntervalTime and updateThermalsTime parameters. std::map pidConfig; std::map zoneConfig; auto j2 = R"( { "zones" : [{ "id": 1, "minThermalOutput": 3000.0, "failsafePercent": 75.0, "cycleIntervalTimeMS": 1000.0, "updateThermalsTimeMS": 1000.0, "pids": [{ "name": "fan1-5", "type": "fan", "inputs": ["fan1", "fan5"], "setpoint": 90.0, "pid": { "samplePeriod": 0.1, "proportionalCoeff": 0.0, "integralCoeff": 0.0, "derivativeCoeff": 0.0, "feedFwdOffsetCoeff": 0.0, "feedFwdGainCoeff": 0.010, "integralLimit_min": 0.0, "integralLimit_max": 0.0, "outLim_min": 30.0, "outLim_max": 100.0, "slewNeg": 0.0, "slewPos": 0.0 } }] }] } )"_json; std::tie(pidConfig, zoneConfig) = buildPIDsFromJson(j2); EXPECT_EQ(pidConfig.size(), 1); EXPECT_EQ(zoneConfig.size(), 1); EXPECT_EQ(pidConfig[1]["fan1-5"].type, "fan"); EXPECT_EQ(zoneConfig[1].cycleTime.cycleIntervalTimeMS, 1000); // updateThermalsTimeMS would be updated as updateThermalsTimeMS / // cycleIntervalTimeMS EXPECT_EQ(zoneConfig[1].cycleTime.updateThermalsTimeMS, 1); EXPECT_DOUBLE_EQ(zoneConfig[1].minThermalOutput, 3000.0); } } // namespace } // namespace pid_control