Commit b83c2fba authored by Bryan Cazabonne's avatar Bryan Cazabonne

Deleted French words.

parent 08d2d427
......@@ -250,7 +250,7 @@ public class GlobalMappingFunctionModel implements MappingFunction {
final double sinE = FastMath.sin(elevation);
// Numerator
final double numMP = 1 + a / (1 + b / (1 + c));
// Denominateur
// Denominator
final double denMP = sinE + a / (sinE + b / (sinE + c));
final double felevation = numMP / denMP;
......@@ -270,7 +270,7 @@ public class GlobalMappingFunctionModel implements MappingFunction {
final T sinE = FastMath.sin(elevation);
// Numerator
final T numMP = a.divide(b.divide(c.add(1.0)).add(1.0)).add(1.0);
// Denominateur
// Denominator
final T denMP = a.divide(b.divide(c.add(sinE)).add(sinE)).add(sinE);
final T felevation = numMP.divide(denMP);
......
......@@ -258,7 +258,7 @@ public class MendesPavlisModel implements DiscreteTroposphericModel {
// Numerator
final double numMP = 1 + a1 / (1 + a2 / (1 + a3));
// Denominateur
// Denominator
final double denMP = sinE + a1 / (sinE + a2 / (sinE + a3));
final double factor = numMP / denMP;
......@@ -292,7 +292,7 @@ public class MendesPavlisModel implements DiscreteTroposphericModel {
// Numerator
final T numMP = a1.divide(a2.divide(a3.add(1.0)).add(1.0)).add(1.0);
// Denominateur
// Denominator
final T denMP = a1.divide(a2.divide(a3.add(sinE)).add(sinE)).add(sinE);
final T factor = numMP.divide(denMP);
......
......@@ -232,7 +232,7 @@ public class NiellMappingFunctionModel implements MappingFunction {
final double sinE = FastMath.sin(elevation);
// Numerator
final double numMP = 1 + a / (1 + b / (1 + c));
// Denominateur
// Denominator
final double denMP = sinE + a / (sinE + b / (sinE + c));
final double felevation = numMP / denMP;
......@@ -252,7 +252,7 @@ public class NiellMappingFunctionModel implements MappingFunction {
final T sinE = FastMath.sin(elevation);
// Numerator
final T numMP = a.divide(b.divide(c.add(1.0)).add(1.0)).add(1.0);
// Denominateur
// Denominator
final T denMP = a.divide(b.divide(c.add(sinE)).add(sinE)).add(sinE);
final T felevation = numMP.divide(denMP);
......
......@@ -222,7 +222,7 @@ public class ViennaOneModel implements DiscreteTroposphericModel {
final double sinE = FastMath.sin(elevation);
// Numerator
final double numMP = 1 + a / (1 + b / (1 + c));
// Denominateur
// Denominator
final double denMP = sinE + a / (sinE + b / (sinE + c));
final double felevation = numMP / denMP;
......@@ -242,7 +242,7 @@ public class ViennaOneModel implements DiscreteTroposphericModel {
final T sinE = FastMath.sin(elevation);
// Numerator
final T numMP = a.divide(b.divide(c.add(1.0)).add(1.0)).add(1.0);
// Denominateur
// Denominator
final T denMP = a.divide(b.divide(c.add(sinE)).add(sinE)).add(sinE);
final T felevation = numMP.divide(denMP);
......
......@@ -310,7 +310,7 @@ public class ViennaThreeModel implements DiscreteTroposphericModel {
final double sinE = FastMath.sin(elevation);
// Numerator
final double numMP = 1 + a / (1 + b / (1 + c));
// Denominateur
// Denominator
final double denMP = sinE + a / (sinE + b / (sinE + c));
final double felevation = numMP / denMP;
......@@ -330,7 +330,7 @@ public class ViennaThreeModel implements DiscreteTroposphericModel {
final T sinE = FastMath.sin(elevation);
// Numerator
final T numMP = a.divide(b.divide(c.add(1.0)).add(1.0)).add(1.0);
// Denominateur
// Denominator
final T denMP = a.divide(b.divide(c.add(sinE)).add(sinE)).add(sinE);
final T felevation = numMP.divide(denMP);
......
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