Fix C++ floating point literal formatting (#2114)

Found formatting errors with this regex
"([^a-z0-9\.]\.[0-9]|[^a-z0-9\.][0-9]\.[^a-z0-9\.])" and ignored false
positives.

Fixes #2112.

wpilibcExamples/src/main/cpp/examples/Frisbeebot/cpp/subsystems/DriveSubsystem.cpp

@@ -35,7 +35,7 @@ void DriveSubsystem::ResetEncoders() {
 }
 
 double DriveSubsystem::GetAverageEncoderDistance() {
-  return (m_leftEncoder.GetDistance() + m_rightEncoder.GetDistance()) / 2.;
+  return (m_leftEncoder.GetDistance() + m_rightEncoder.GetDistance()) / 2.0;
 }
 
 frc::Encoder& DriveSubsystem::GetLeftEncoder() { return m_leftEncoder; }

wpilibcExamples/src/main/cpp/examples/Frisbeebot/include/Constants.h

@@ -43,7 +43,7 @@ constexpr bool kEncoderReversed = false;
 constexpr int kEncoderCPR = 1024;
 constexpr double kEncoderDistancePerPulse =
     // Distance units will be rotations
-    1. / static_cast<double>(kEncoderCPR);
+    1.0 / static_cast<double>(kEncoderCPR);
 
 constexpr int kShooterMotorPort = 4;
 constexpr int kFeederMotorPort = 5;
@@ -58,12 +58,12 @@ constexpr double kD = 0;
 
 // On a real robot the feedforward constants should be empirically determined;
 // these are reasonable guesses.
-constexpr auto kS = .05_V;
+constexpr auto kS = 0.05_V;
 constexpr auto kV =
     // Should have value 12V at free speed...
     12_V / kShooterFreeRPS;
 
-constexpr double kFeederSpeed = .5;
+constexpr double kFeederSpeed = 0.5;
 }  // namespace ShooterConstants
 
 namespace AutoConstants {

wpilibcExamples/src/main/cpp/examples/Frisbeebot/include/RobotContainer.h

@@ -90,7 +90,7 @@ class RobotContainer {
   frc2::InstantCommand m_stopFeeder{[this] { m_shooter.StopFeeder(); },
                                     {&m_shooter}};
 
-  frc2::InstantCommand m_driveHalfSpeed{[this] { m_drive.SetMaxOutput(.5); },
+  frc2::InstantCommand m_driveHalfSpeed{[this] { m_drive.SetMaxOutput(0.5); },
                                         {}};
   frc2::InstantCommand m_driveFullSpeed{[this] { m_drive.SetMaxOutput(1); },
                                         {}};

wpilibcExamples/src/main/cpp/examples/GyroDriveCommands/cpp/subsystems/DriveSubsystem.cpp

@@ -35,7 +35,7 @@ void DriveSubsystem::ResetEncoders() {
 }
 
 double DriveSubsystem::GetAverageEncoderDistance() {
-  return (m_leftEncoder.GetDistance() + m_rightEncoder.GetDistance()) / 2.;
+  return (m_leftEncoder.GetDistance() + m_rightEncoder.GetDistance()) / 2.0;
 }
 
 frc::Encoder& DriveSubsystem::GetLeftEncoder() { return m_leftEncoder; }
@@ -47,9 +47,9 @@ void DriveSubsystem::SetMaxOutput(double maxOutput) {
 }
 
 double DriveSubsystem::GetHeading() {
-  return std::remainder(m_gyro.GetAngle(), 360) * (kGyroReversed ? -1. : 1.);
+  return std::remainder(m_gyro.GetAngle(), 360) * (kGyroReversed ? -1.0 : 1.0);
 }
 
 double DriveSubsystem::GetTurnRate() {
-  return m_gyro.GetRate() * (kGyroReversed ? -1. : 1.);
+  return m_gyro.GetRate() * (kGyroReversed ? -1.0 : 1.0);
 }

wpilibcExamples/src/main/cpp/examples/GyroDriveCommands/include/Constants.h

@@ -38,7 +38,7 @@ constexpr double kEncoderDistancePerPulse =
 constexpr bool kGyroReversed = true;
 
 constexpr double kStabilizationP = 1;
-constexpr double kStabilizationI = .5;
+constexpr double kStabilizationI = 0.5;
 constexpr double kStabilizationD = 0;
 
 constexpr double kTurnP = 1;
@@ -52,7 +52,7 @@ constexpr double kTurnRateToleranceDegPerS = 10;  // degrees per second
 namespace AutoConstants {
 constexpr double kAutoDriveDistanceInches = 60;
 constexpr double kAutoBackupDistanceInches = 20;
-constexpr double kAutoDriveSpeed = .5;
+constexpr double kAutoDriveSpeed = 0.5;
 }  // namespace AutoConstants
 
 namespace OIConstants {

wpilibcExamples/src/main/cpp/examples/GyroDriveCommands/include/RobotContainer.h

@@ -68,7 +68,7 @@ class RobotContainer {
       // Require the robot drive
       {&m_drive}};
 
-  frc2::InstantCommand m_driveHalfSpeed{[this] { m_drive.SetMaxOutput(.5); },
+  frc2::InstantCommand m_driveHalfSpeed{[this] { m_drive.SetMaxOutput(0.5); },
                                         {}};
   frc2::InstantCommand m_driveFullSpeed{[this] { m_drive.SetMaxOutput(1); },
                                         {}};

wpilibcExamples/src/main/cpp/examples/HatchbotInlined/cpp/subsystems/DriveSubsystem.cpp

@@ -35,7 +35,7 @@ void DriveSubsystem::ResetEncoders() {
 }
 
 double DriveSubsystem::GetAverageEncoderDistance() {
-  return (m_leftEncoder.GetDistance() + m_rightEncoder.GetDistance()) / 2.;
+  return (m_leftEncoder.GetDistance() + m_rightEncoder.GetDistance()) / 2.0;
 }
 
 frc::Encoder& DriveSubsystem::GetLeftEncoder() { return m_leftEncoder; }

wpilibcExamples/src/main/cpp/examples/HatchbotInlined/include/Constants.h

@@ -44,7 +44,7 @@ constexpr int kHatchSolenoidPorts[]{0, 1};
 namespace AutoConstants {
 constexpr double kAutoDriveDistanceInches = 60;
 constexpr double kAutoBackupDistanceInches = 20;
-constexpr double kAutoDriveSpeed = .5;
+constexpr double kAutoDriveSpeed = 0.5;
 }  // namespace AutoConstants
 
 namespace OIConstants {

wpilibcExamples/src/main/cpp/examples/HatchbotInlined/include/RobotContainer.h

@@ -63,7 +63,7 @@ class RobotContainer {
   frc2::InstantCommand m_grabHatch{[this] { m_hatch.GrabHatch(); }, {&m_hatch}};
   frc2::InstantCommand m_releaseHatch{[this] { m_hatch.ReleaseHatch(); },
                                       {&m_hatch}};
-  frc2::InstantCommand m_driveHalfSpeed{[this] { m_drive.SetMaxOutput(.5); },
+  frc2::InstantCommand m_driveHalfSpeed{[this] { m_drive.SetMaxOutput(0.5); },
                                         {}};
   frc2::InstantCommand m_driveFullSpeed{[this] { m_drive.SetMaxOutput(1); },
                                         {}};

wpilibcExamples/src/main/cpp/examples/HatchbotTraditional/cpp/commands/HalveDriveSpeed.cpp

@@ -10,6 +10,6 @@
 HalveDriveSpeed::HalveDriveSpeed(DriveSubsystem* subsystem)
     : m_drive(subsystem) {}
 
-void HalveDriveSpeed::Initialize() { m_drive->SetMaxOutput(.5); }
+void HalveDriveSpeed::Initialize() { m_drive->SetMaxOutput(0.5); }
 
 void HalveDriveSpeed::End(bool interrupted) { m_drive->SetMaxOutput(1); }

wpilibcExamples/src/main/cpp/examples/HatchbotTraditional/cpp/subsystems/DriveSubsystem.cpp

@@ -35,7 +35,7 @@ void DriveSubsystem::ResetEncoders() {
 }
 
 double DriveSubsystem::GetAverageEncoderDistance() {
-  return (m_leftEncoder.GetDistance() + m_rightEncoder.GetDistance()) / 2.;
+  return (m_leftEncoder.GetDistance() + m_rightEncoder.GetDistance()) / 2.0;
 }
 
 frc::Encoder& DriveSubsystem::GetLeftEncoder() { return m_leftEncoder; }

wpilibcExamples/src/main/cpp/examples/HatchbotTraditional/include/Constants.h

@@ -44,7 +44,7 @@ constexpr int kHatchSolenoidPorts[]{0, 1};
 namespace AutoConstants {
 constexpr double kAutoDriveDistanceInches = 60;
 constexpr double kAutoBackupDistanceInches = 20;
-constexpr double kAutoDriveSpeed = .5;
+constexpr double kAutoDriveSpeed = 0.5;
 }  // namespace AutoConstants
 
 namespace OIConstants {

wpilibcExamples/src/main/cpp/examples/RamseteCommand/cpp/subsystems/DriveSubsystem.cpp

@@ -47,7 +47,7 @@ void DriveSubsystem::ResetEncoders() {
 }
 
 double DriveSubsystem::GetAverageEncoderDistance() {
-  return (m_leftEncoder.GetDistance() + m_rightEncoder.GetDistance()) / 2.;
+  return (m_leftEncoder.GetDistance() + m_rightEncoder.GetDistance()) / 2.0;
 }
 
 frc::Encoder& DriveSubsystem::GetLeftEncoder() { return m_leftEncoder; }
@@ -59,11 +59,11 @@ void DriveSubsystem::SetMaxOutput(double maxOutput) {
 }
 
 double DriveSubsystem::GetHeading() {
-  return std::remainder(m_gyro.GetAngle(), 360) * (kGyroReversed ? -1. : 1.);
+  return std::remainder(m_gyro.GetAngle(), 360) * (kGyroReversed ? -1.0 : 1.0);
 }
 
 double DriveSubsystem::GetTurnRate() {
-  return m_gyro.GetRate() * (kGyroReversed ? -1. : 1.);
+  return m_gyro.GetRate() * (kGyroReversed ? -1.0 : 1.0);
 }
 
 frc::Pose2d DriveSubsystem::GetPose() { return m_odometry.GetPose(); }

wpilibcExamples/src/main/cpp/examples/RamseteCommand/include/Constants.h

@@ -32,7 +32,7 @@ constexpr int kRightEncoderPorts[]{2, 3};
 constexpr bool kLeftEncoderReversed = false;
 constexpr bool kRightEncoderReversed = true;
 
-constexpr auto kTrackwidth = .6_m;
+constexpr auto kTrackwidth = 0.6_m;
 constexpr frc::DifferentialDriveKinematics kDriveKinematics(kTrackwidth);
 
 constexpr int kEncoderCPR = 1024;
@@ -49,11 +49,11 @@ constexpr bool kGyroReversed = true;
 // Toolsuite provides a convenient tool for obtaining these values for your
 // robot.
 constexpr auto ks = 1_V;
-constexpr auto kv = .8 * 1_V * 1_s / 1_m;
-constexpr auto ka = .15 * 1_V * 1_s * 1_s / 1_m;
+constexpr auto kv = 0.8 * 1_V * 1_s / 1_m;
+constexpr auto ka = 0.15 * 1_V * 1_s * 1_s / 1_m;
 
 // Example value only - as above, this must be tuned for your drive!
-constexpr double kPDriveVel = .5;
+constexpr double kPDriveVel = 0.5;
 }  // namespace DriveConstants
 
 namespace AutoConstants {
@@ -63,7 +63,7 @@ constexpr auto kMaxAcceleration = 3_mps_sq;
 // Reasonable baseline values for a RAMSETE follower in units of meters and
 // seconds
 constexpr double kRamseteB = 2;
-constexpr double kRamseteZeta = .7;
+constexpr double kRamseteZeta = 0.7;
 }  // namespace AutoConstants
 
 namespace OIConstants {

wpilibcExamples/src/main/cpp/examples/RamseteCommand/include/RobotContainer.h

@@ -41,7 +41,7 @@ class RobotContainer {
   // The robot's subsystems
   DriveSubsystem m_drive;
 
-  frc2::InstantCommand m_driveHalfSpeed{[this] { m_drive.SetMaxOutput(.5); },
+  frc2::InstantCommand m_driveHalfSpeed{[this] { m_drive.SetMaxOutput(0.5); },
                                         {}};
   frc2::InstantCommand m_driveFullSpeed{[this] { m_drive.SetMaxOutput(1); },
                                         {}};