From 6fde02e83874b4806b90f12d26034f6a912318c4 Mon Sep 17 00:00:00 2001 From: Carlos Pereira Atencio Date: Mon, 25 Nov 2024 19:04:04 +0000 Subject: [PATCH] Ensure float literals and float versions of math functions are used. --- source/driver-models/Accelerometer.cpp | 4 ++-- source/driver-models/Compass.cpp | 16 ++++++++-------- source/streams/LevelDetectorSPL.cpp | 4 ++-- source/streams/StreamNormalizer.cpp | 2 +- source/streams/Synthesizer.cpp | 2 +- 5 files changed, 14 insertions(+), 14 deletions(-) diff --git a/source/driver-models/Accelerometer.cpp b/source/driver-models/Accelerometer.cpp index 2b6072af..61036bdf 100644 --- a/source/driver-models/Accelerometer.cpp +++ b/source/driver-models/Accelerometer.cpp @@ -426,7 +426,7 @@ int Accelerometer::getZ() */ int Accelerometer::getPitch() { - return (int) ((360*getPitchRadians()) / (2*PI)); + return (int) ((360.0f*getPitchRadians()) / (2.0f*(float)PI)); } /** @@ -458,7 +458,7 @@ float Accelerometer::getPitchRadians() */ int Accelerometer::getRoll() { - return (int) ((360*getRollRadians()) / (2*PI)); + return (int) ((360.0f*getRollRadians()) / (2.0f*(float)PI)); } /** diff --git a/source/driver-models/Compass.cpp b/source/driver-models/Compass.cpp index 18a4a6bc..9b2123fc 100644 --- a/source/driver-models/Compass.cpp +++ b/source/driver-models/Compass.cpp @@ -371,16 +371,16 @@ int Compass::tiltCompensatedBearing() float z = (float) s.z; // Precompute cos and sin of pitch and roll angles to make the calculation a little more efficient. - float sinPhi = sin(phi); - float cosPhi = cos(phi); - float sinTheta = sin(theta); - float cosTheta = cos(theta); + float sinPhi = sinf(phi); + float cosPhi = cosf(phi); + float sinTheta = sinf(theta); + float cosTheta = cosf(theta); // Calculate the tilt compensated bearing, and convert to degrees. - float bearing = (360*atan2(x*cosTheta + y*sinTheta*sinPhi + z*sinTheta*cosPhi, z*sinPhi - y*cosPhi)) / (2*PI); + float bearing = (360.0f*atan2f(x*cosTheta + y*sinTheta*sinPhi + z*sinTheta*cosPhi, z*sinPhi - y*cosPhi)) / (2.0f*(float)PI); // Handle the 90 degree offset caused by the NORTH_EAST_DOWN based calculation. - bearing = 90 - bearing; + bearing = 90.0f - bearing; // Ensure the calculated bearing is in the 0..359 degree range. if (bearing < 0) @@ -399,10 +399,10 @@ int Compass::basicBearing() float x = (float) cs.x; float y = (float) cs.y; - float bearing = (atan2(x,y))*180/PI; + float bearing = (atan2f(x,y))*180.0f/(float)PI; if (bearing < 0) - bearing += 360.0; + bearing += 360.0f; return (int)bearing; } diff --git a/source/streams/LevelDetectorSPL.cpp b/source/streams/LevelDetectorSPL.cpp index 39032716..e4cfc56f 100644 --- a/source/streams/LevelDetectorSPL.cpp +++ b/source/streams/LevelDetectorSPL.cpp @@ -131,13 +131,13 @@ int LevelDetectorSPL::pullRequest() sumSquares += v * v; ptr += skip; } - float rms = sqrt(sumSquares / count); + float rms = sqrtf(sumSquares / count); /******************************* * CALCULATE SPL ******************************/ float conv = ((float) maxVal * multiplier) / ((1 << 15) - 1) * gain; - conv = 20 * log10(conv / pref); + conv = 20.0f * log10f(conv / pref); if (conv < minValue) level = minValue; diff --git a/source/streams/StreamNormalizer.cpp b/source/streams/StreamNormalizer.cpp index 9b8a04b8..703ba520 100644 --- a/source/streams/StreamNormalizer.cpp +++ b/source/streams/StreamNormalizer.cpp @@ -209,7 +209,7 @@ ManagedBuffer StreamNormalizer::pull() { float calculatedZeroOffset = (float)z / (float)samples; - zeroOffset = zeroOffsetValid ? zeroOffset*0.5 + calculatedZeroOffset*0.5 : calculatedZeroOffset; + zeroOffset = zeroOffsetValid ? zeroOffset*0.5f + calculatedZeroOffset*0.5f : calculatedZeroOffset; zeroOffsetValid = true; if (stabilisation == 0 || abs((int)zeroOffset - zo) < stabilisation) diff --git a/source/streams/Synthesizer.cpp b/source/streams/Synthesizer.cpp index 6497287e..62632c9d 100644 --- a/source/streams/Synthesizer.cpp +++ b/source/streams/Synthesizer.cpp @@ -152,7 +152,7 @@ int Synthesizer::setFrequency(float frequency, int period, int envelopeStart, in return DEVICE_BUSY; // record our new intended frequency. - newPeriodNs = frequency == 0.0 ? 0 : (uint32_t) (1000000000.0f / frequency); + newPeriodNs = frequency == 0.0f ? 0 : (uint32_t) (1000000000.0f / frequency); if (period == 0) {