Java/java/lang/Float_static.fz
# Fuzion interface to static members of Java class 'java.lang.Float'
#
# !!!!!! DO NOT EDIT, GENERATED CODE !!!!!!
#
# This code was generated automatically using the fzjava tool V0.087 called
# as follows:
#
# ./build/bin/fzjava java.base -to=build/modules/java.base -verbose=0
#
public Java.java.lang.Float_static is
# call Java static method 'public static int java.lang.Float.compare(float,float)':
#
public compare_FF(arg0 f32, arg1 f32) i32 =>
fuzion.java.call_static (i32) "java.lang.Float" "compare" "(FF)I" [(fuzion.java.f32_to_java_object Java.java.lang.Float_static.compare_FF.this.arg0); (fuzion.java.f32_to_java_object Java.java.lang.Float_static.compare_FF.this.arg1)]
# call Java static method 'public static float java.lang.Float.float16ToFloat(short)':
#
public float16ToFloat_S(arg0 i16) f32 =>
fuzion.java.call_static (f32) "java.lang.Float" "float16ToFloat" "(S)F" [(fuzion.java.i16_to_java_object Java.java.lang.Float_static.float16ToFloat_S.this.arg0)]
# call Java static method 'public static short java.lang.Float.floatToFloat16(float)':
#
public floatToFloat16_F(arg0 f32) i16 =>
fuzion.java.call_static (i16) "java.lang.Float" "floatToFloat16" "(F)S" [(fuzion.java.f32_to_java_object Java.java.lang.Float_static.floatToFloat16_F.this.arg0)]
# call Java static method 'public static int java.lang.Float.floatToIntBits(float)':
#
public floatToIntBits_F(arg0 f32) i32 =>
fuzion.java.call_static (i32) "java.lang.Float" "floatToIntBits" "(F)I" [(fuzion.java.f32_to_java_object Java.java.lang.Float_static.floatToIntBits_F.this.arg0)]
# call Java static method 'public static native int java.lang.Float.floatToRawIntBits(float)':
#
public floatToRawIntBits_F(arg0 f32) i32 =>
fuzion.java.call_static (i32) "java.lang.Float" "floatToRawIntBits" "(F)I" [(fuzion.java.f32_to_java_object Java.java.lang.Float_static.floatToRawIntBits_F.this.arg0)]
# call Java static method 'public static int java.lang.Float.hashCode(float)':
#
public hashCode_F(arg0 f32) i32 =>
fuzion.java.call_static (i32) "java.lang.Float" "hashCode" "(F)I" [(fuzion.java.f32_to_java_object Java.java.lang.Float_static.hashCode_F.this.arg0)]
# call Java static method 'public static native float java.lang.Float.intBitsToFloat(int)':
#
public intBitsToFloat_I(arg0 i32) f32 =>
fuzion.java.call_static (f32) "java.lang.Float" "intBitsToFloat" "(I)F" [(fuzion.java.i32_to_java_object Java.java.lang.Float_static.intBitsToFloat_I.this.arg0)]
# call Java static method 'public static boolean java.lang.Float.isFinite(float)':
#
public isFinite_F(arg0 f32) bool =>
fuzion.java.call_static (bool) "java.lang.Float" "isFinite" "(F)Z" [(fuzion.java.f32_to_java_object Java.java.lang.Float_static.isFinite_F.this.arg0)]
# call Java static method 'public static boolean java.lang.Float.isInfinite(float)':
#
public isInfinite_F(arg0 f32) bool =>
fuzion.java.call_static (bool) "java.lang.Float" "isInfinite" "(F)Z" [(fuzion.java.f32_to_java_object Java.java.lang.Float_static.isInfinite_F.this.arg0)]
# call Java static method 'public static boolean java.lang.Float.isNaN(float)':
#
public isNaN_F(arg0 f32) bool =>
fuzion.java.call_static (bool) "java.lang.Float" "isNaN" "(F)Z" [(fuzion.java.f32_to_java_object Java.java.lang.Float_static.isNaN_F.this.arg0)]
# call Java static method 'public static float java.lang.Float.max(float,float)':
#
public max_FF(arg0 f32, arg1 f32) f32 =>
fuzion.java.call_static (f32) "java.lang.Float" "max" "(FF)F" [(fuzion.java.f32_to_java_object Java.java.lang.Float_static.max_FF.this.arg0); (fuzion.java.f32_to_java_object Java.java.lang.Float_static.max_FF.this.arg1)]
# call Java static method 'public static float java.lang.Float.min(float,float)':
#
public min_FF(arg0 f32, arg1 f32) f32 =>
fuzion.java.call_static (f32) "java.lang.Float" "min" "(FF)F" [(fuzion.java.f32_to_java_object Java.java.lang.Float_static.min_FF.this.arg0); (fuzion.java.f32_to_java_object Java.java.lang.Float_static.min_FF.this.arg1)]
# call Java static method 'public static float java.lang.Float.parseFloat(java.lang.String) throws java.lang.NumberFormatException':
#
public parseFloat_Ljava_7_lang_7_String_s_(arg0 String) outcome (f32) =>
fuzion.java.call_static (outcome (f32)) "java.lang.Float" "parseFloat" "(Ljava/lang/String;)F" [(fuzion.java.string_to_java_object Java.java.lang.Float_static.parseFloat_Ljava_7_lang_7_String_s_.this.arg0)]
# call Java static method 'public static float java.lang.Float.sum(float,float)':
#
public sum_FF(arg0 f32, arg1 f32) f32 =>
fuzion.java.call_static (f32) "java.lang.Float" "sum" "(FF)F" [(fuzion.java.f32_to_java_object Java.java.lang.Float_static.sum_FF.this.arg0); (fuzion.java.f32_to_java_object Java.java.lang.Float_static.sum_FF.this.arg1)]
# call Java static method 'public static java.lang.String java.lang.Float.toHexString(float)':
#
public toHexString_F(arg0 f32) Java.java.lang.__jString =>
fuzion.java.call_static (Java.java.lang.__jString) "java.lang.Float" "toHexString" "(F)Ljava/lang/String;" [(fuzion.java.f32_to_java_object Java.java.lang.Float_static.toHexString_F.this.arg0)]
# call Java static method 'public static java.lang.String java.lang.Float.toString(float)':
#
public toString_F(arg0 f32) Java.java.lang.__jString =>
fuzion.java.call_static (Java.java.lang.__jString) "java.lang.Float" "toString" "(F)Ljava/lang/String;" [(fuzion.java.f32_to_java_object Java.java.lang.Float_static.toString_F.this.arg0)]
# call Java static method 'public static java.lang.Float java.lang.Float.valueOf(float)':
#
public valueOf_F(arg0 f32) Java.java.lang.Float =>
fuzion.java.call_static (Java.java.lang.Float) "java.lang.Float" "valueOf" "(F)Ljava/lang/Float;" [(fuzion.java.f32_to_java_object Java.java.lang.Float_static.valueOf_F.this.arg0)]
# call Java static method 'public static java.lang.Float java.lang.Float.valueOf(java.lang.String) throws java.lang.NumberFormatException':
#
public valueOf_Ljava_7_lang_7_String_s_(arg0 String) outcome (Java.java.lang.Float) =>
fuzion.java.call_static (outcome (Java.java.lang.Float)) "java.lang.Float" "valueOf" "(Ljava/lang/String;)Ljava/lang/Float;" [(fuzion.java.string_to_java_object Java.java.lang.Float_static.valueOf_Ljava_7_lang_7_String_s_.this.arg0)]
# short-hand to call Java method 'public static int java.lang.Float.compare(float,float)':
#
public compare(arg0 f32, arg1 f32) (i32) =>
compare_FF Java.java.lang.Float_static.compare.this.arg0 Java.java.lang.Float_static.compare.this.arg1
# short-hand to call Java method 'public static float java.lang.Float.float16ToFloat(short)':
#
public float16ToFloat(arg0 i16) (f32) =>
float16ToFloat_S Java.java.lang.Float_static.float16ToFloat.this.arg0
# short-hand to call Java method 'public static short java.lang.Float.floatToFloat16(float)':
#
public floatToFloat16(arg0 f32) (i16) =>
floatToFloat16_F Java.java.lang.Float_static.floatToFloat16.this.arg0
# short-hand to call Java method 'public static int java.lang.Float.floatToIntBits(float)':
#
public floatToIntBits(arg0 f32) (i32) =>
floatToIntBits_F Java.java.lang.Float_static.floatToIntBits.this.arg0
# short-hand to call Java method 'public static native int java.lang.Float.floatToRawIntBits(float)':
#
public floatToRawIntBits(arg0 f32) (i32) =>
floatToRawIntBits_F Java.java.lang.Float_static.floatToRawIntBits.this.arg0
# short-hand to call Java method 'public static int java.lang.Float.hashCode(float)':
#
public hashCode(arg0 f32) (i32) =>
hashCode_F Java.java.lang.Float_static.hashCode.this.arg0
# short-hand to call Java method 'public static native float java.lang.Float.intBitsToFloat(int)':
#
public intBitsToFloat(arg0 i32) (f32) =>
intBitsToFloat_I Java.java.lang.Float_static.intBitsToFloat.this.arg0
# short-hand to call Java method 'public static boolean java.lang.Float.isFinite(float)':
#
public isFinite(arg0 f32) (bool) =>
isFinite_F Java.java.lang.Float_static.isFinite.this.arg0
# short-hand to call Java method 'public static boolean java.lang.Float.isInfinite(float)':
#
public isInfinite(arg0 f32) (bool) =>
isInfinite_F Java.java.lang.Float_static.isInfinite.this.arg0
# short-hand to call Java method 'public static boolean java.lang.Float.isNaN(float)':
#
public isNaN(arg0 f32) (bool) =>
isNaN_F Java.java.lang.Float_static.isNaN.this.arg0
# short-hand to call Java method 'public static float java.lang.Float.max(float,float)':
#
public max(arg0 f32, arg1 f32) (f32) =>
max_FF Java.java.lang.Float_static.max.this.arg0 Java.java.lang.Float_static.max.this.arg1
# short-hand to call Java method 'public static float java.lang.Float.min(float,float)':
#
public min(arg0 f32, arg1 f32) (f32) =>
min_FF Java.java.lang.Float_static.min.this.arg0 Java.java.lang.Float_static.min.this.arg1
# short-hand to call Java method 'public static float java.lang.Float.parseFloat(java.lang.String) throws java.lang.NumberFormatException':
#
public parseFloat(arg0 String) (outcome (f32)) =>
parseFloat_Ljava_7_lang_7_String_s_ Java.java.lang.Float_static.parseFloat.this.arg0
# short-hand to call Java method 'public static float java.lang.Float.sum(float,float)':
#
public sum(arg0 f32, arg1 f32) (f32) =>
sum_FF Java.java.lang.Float_static.sum.this.arg0 Java.java.lang.Float_static.sum.this.arg1
# short-hand to call Java method 'public static java.lang.String java.lang.Float.toHexString(float)':
#
public toHexString(arg0 f32) (Java.java.lang.__jString) =>
toHexString_F Java.java.lang.Float_static.toHexString.this.arg0
# short-hand to call Java method 'public static java.lang.String java.lang.Float.toString(float)':
#
public toString(arg0 f32) (Java.java.lang.__jString) =>
toString_F Java.java.lang.Float_static.toString.this.arg0
# short-hand to call Java method 'public static java.lang.Float java.lang.Float.valueOf(java.lang.String) throws java.lang.NumberFormatException':
#
public valueOf(arg0 String) (outcome (Java.java.lang.Float)) =>
valueOf_Ljava_7_lang_7_String_s_ Java.java.lang.Float_static.valueOf.this.arg0
# read static Java field 'public static final int java.lang.Float.BYTES':
#
public BYTES i32 =>
fuzion.java.get_static_field (i32) "java.lang.Float" "BYTES"
# read static Java field 'public static final int java.lang.Float.MAX_EXPONENT':
#
public MAX__EXPONENT i32 =>
fuzion.java.get_static_field (i32) "java.lang.Float" "MAX_EXPONENT"
# read static Java field 'public static final float java.lang.Float.MAX_VALUE':
#
public MAX__VALUE f32 =>
fuzion.java.get_static_field (f32) "java.lang.Float" "MAX_VALUE"
# read static Java field 'public static final int java.lang.Float.MIN_EXPONENT':
#
public MIN__EXPONENT i32 =>
fuzion.java.get_static_field (i32) "java.lang.Float" "MIN_EXPONENT"
# read static Java field 'public static final float java.lang.Float.MIN_NORMAL':
#
public MIN__NORMAL f32 =>
fuzion.java.get_static_field (f32) "java.lang.Float" "MIN_NORMAL"
# read static Java field 'public static final float java.lang.Float.MIN_VALUE':
#
public MIN__VALUE f32 =>
fuzion.java.get_static_field (f32) "java.lang.Float" "MIN_VALUE"
# read static Java field 'public static final float java.lang.Float.NEGATIVE_INFINITY':
#
public NEGATIVE__INFINITY f32 =>
fuzion.java.get_static_field (f32) "java.lang.Float" "NEGATIVE_INFINITY"
# read static Java field 'public static final float java.lang.Float.NaN':
#
public NaN f32 =>
fuzion.java.get_static_field (f32) "java.lang.Float" "NaN"
# read static Java field 'public static final float java.lang.Float.POSITIVE_INFINITY':
#
public POSITIVE__INFINITY f32 =>
fuzion.java.get_static_field (f32) "java.lang.Float" "POSITIVE_INFINITY"
# read static Java field 'public static final int java.lang.Float.PRECISION':
#
public PRECISION i32 =>
fuzion.java.get_static_field (i32) "java.lang.Float" "PRECISION"
# read static Java field 'public static final int java.lang.Float.SIZE':
#
public SIZE i32 =>
fuzion.java.get_static_field (i32) "java.lang.Float" "SIZE"
# read static Java field 'public static final java.lang.Class java.lang.Float.TYPE':
#
public TYPE Java.java.lang.Class =>
fuzion.java.get_static_field (Java.java.lang.Class) "java.lang.Float" "TYPE"
# call Java constructor 'public java.lang.Float(java.lang.String) throws java.lang.NumberFormatException':
#
public new_Ljava_7_lang_7_String_s_(arg0 String) outcome (Java.java.lang.Float) =>
fuzion.java.call_constructor (outcome (Java.java.lang.Float)) "java.lang.Float" "(Ljava/lang/String;)V" [(fuzion.java.string_to_java_object Java.java.lang.Float_static.new_Ljava_7_lang_7_String_s_.this.arg0)]
# call Java constructor 'public java.lang.Float(double)':
#
public new_D(arg0 f64) Java.java.lang.Float =>
fuzion.java.call_constructor (Java.java.lang.Float) "java.lang.Float" "(D)V" [(fuzion.java.f64_to_java_object Java.java.lang.Float_static.new_D.this.arg0)]
# call Java constructor 'public java.lang.Float(float)':
#
public new_F(arg0 f32) Java.java.lang.Float =>
fuzion.java.call_constructor (Java.java.lang.Float) "java.lang.Float" "(F)V" [(fuzion.java.f32_to_java_object Java.java.lang.Float_static.new_F.this.arg0)]
# short-hand to call Java constructor 'public java.lang.Float(java.lang.String) throws java.lang.NumberFormatException':
#
public new(arg0 String) (outcome (Java.java.lang.Float)) =>
new_Ljava_7_lang_7_String_s_ Java.java.lang.Float_static.new.this.arg0