vendor/cmock/examples/temp_sensor/src/TemperatureCalculator.c in ceedling-0.28.3 vs vendor/cmock/examples/temp_sensor/src/TemperatureCalculator.c in ceedling-0.29.0

- old
+ new

@@ -1,27 +1,27 @@ -#include "Types.h" -#include "TemperatureCalculator.h" -#include <math.h> - -#ifndef logl -#define logl log -#endif - -float TemperatureCalculator_Calculate(uint16 millivolts) -{ - const double supply_voltage = 3.0; - const double series_resistance = 5000; - const double coefficient_A = 316589.698; - const double coefficient_B = -0.1382009; - double sensor_voltage = ((double)millivolts / 1000); - double resistance; - - if (millivolts == 0) - { - return -INFINITY; - } - - // Series resistor is 5k Ohms; Reference voltage is 3.0V - // R(t) = A * e^(B*t); R is resistance of thermisor; t is temperature in C - resistance = ((supply_voltage * series_resistance) / sensor_voltage) - series_resistance; - return (float)(logl(resistance / coefficient_A) / coefficient_B); -} +#include "Types.h" +#include "TemperatureCalculator.h" +#include <math.h> + +#ifndef logl +#define logl log +#endif + +float TemperatureCalculator_Calculate(uint16 millivolts) +{ + const double supply_voltage = 3.0; + const double series_resistance = 5000; + const double coefficient_A = 316589.698; + const double coefficient_B = -0.1382009; + double sensor_voltage = ((double)millivolts / 1000); + double resistance; + + if (millivolts == 0) + { + return -INFINITY; + } + + // Series resistor is 5k Ohms; Reference voltage is 3.0V + // R(t) = A * e^(B*t); R is resistance of thermisor; t is temperature in C + resistance = ((supply_voltage * series_resistance) / sensor_voltage) - series_resistance; + return (float)(logl(resistance / coefficient_A) / coefficient_B); +}