diff --git a/core/math/audio_frame.h b/core/math/audio_frame.h
index b3d63c0094f..1a80faaa12a 100644
--- a/core/math/audio_frame.h
+++ b/core/math/audio_frame.h
@@ -48,7 +48,7 @@ static inline float undenormalise(volatile float f) {
}
static const float AUDIO_PEAK_OFFSET = 0.0000000001f;
-static const float AUDIO_MIN_PEAK_DB = -200.0f; // linear2db(AUDIO_PEAK_OFFSET)
+static const float AUDIO_MIN_PEAK_DB = -200.0f; // linear_to_db(AUDIO_PEAK_OFFSET)
struct AudioFrame {
//left and right samples
diff --git a/core/math/math_funcs.h b/core/math/math_funcs.h
index 463e119add7..fd20440663f 100644
--- a/core/math/math_funcs.h
+++ b/core/math/math_funcs.h
@@ -229,11 +229,11 @@ public:
return value;
}
- static _ALWAYS_INLINE_ double deg2rad(double p_y) { return p_y * (Math_PI / 180.0); }
- static _ALWAYS_INLINE_ float deg2rad(float p_y) { return p_y * (float)(Math_PI / 180.0); }
+ static _ALWAYS_INLINE_ double deg_to_rad(double p_y) { return p_y * (Math_PI / 180.0); }
+ static _ALWAYS_INLINE_ float deg_to_rad(float p_y) { return p_y * (float)(Math_PI / 180.0); }
- static _ALWAYS_INLINE_ double rad2deg(double p_y) { return p_y * (180.0 / Math_PI); }
- static _ALWAYS_INLINE_ float rad2deg(float p_y) { return p_y * (float)(180.0 / Math_PI); }
+ static _ALWAYS_INLINE_ double rad_to_deg(double p_y) { return p_y * (180.0 / Math_PI); }
+ static _ALWAYS_INLINE_ float rad_to_deg(float p_y) { return p_y * (float)(180.0 / Math_PI); }
static _ALWAYS_INLINE_ double lerp(double p_from, double p_to, double p_weight) { return p_from + (p_to - p_from) * p_weight; }
static _ALWAYS_INLINE_ float lerp(float p_from, float p_to, float p_weight) { return p_from + (p_to - p_from) * p_weight; }
@@ -331,11 +331,11 @@ public:
static _ALWAYS_INLINE_ double move_toward(double p_from, double p_to, double p_delta) { return abs(p_to - p_from) <= p_delta ? p_to : p_from + SIGN(p_to - p_from) * p_delta; }
static _ALWAYS_INLINE_ float move_toward(float p_from, float p_to, float p_delta) { return abs(p_to - p_from) <= p_delta ? p_to : p_from + SIGN(p_to - p_from) * p_delta; }
- static _ALWAYS_INLINE_ double linear2db(double p_linear) { return Math::log(p_linear) * 8.6858896380650365530225783783321; }
- static _ALWAYS_INLINE_ float linear2db(float p_linear) { return Math::log(p_linear) * (float)8.6858896380650365530225783783321; }
+ static _ALWAYS_INLINE_ double linear_to_db(double p_linear) { return Math::log(p_linear) * 8.6858896380650365530225783783321; }
+ static _ALWAYS_INLINE_ float linear_to_db(float p_linear) { return Math::log(p_linear) * (float)8.6858896380650365530225783783321; }
- static _ALWAYS_INLINE_ double db2linear(double p_db) { return Math::exp(p_db * 0.11512925464970228420089957273422); }
- static _ALWAYS_INLINE_ float db2linear(float p_db) { return Math::exp(p_db * (float)0.11512925464970228420089957273422); }
+ static _ALWAYS_INLINE_ double db_to_linear(double p_db) { return Math::exp(p_db * 0.11512925464970228420089957273422); }
+ static _ALWAYS_INLINE_ float db_to_linear(float p_db) { return Math::exp(p_db * (float)0.11512925464970228420089957273422); }
static _ALWAYS_INLINE_ double round(double p_val) { return ::round(p_val); }
static _ALWAYS_INLINE_ float round(float p_val) { return ::roundf(p_val); }
diff --git a/core/math/projection.cpp b/core/math/projection.cpp
index edf8bf36cd4..863fe6ee79b 100644
--- a/core/math/projection.cpp
+++ b/core/math/projection.cpp
@@ -255,7 +255,7 @@ void Projection::set_perspective(real_t p_fovy_degrees, real_t p_aspect, real_t
}
real_t sine, cotangent, deltaZ;
- real_t radians = Math::deg2rad(p_fovy_degrees / 2.0);
+ real_t radians = Math::deg_to_rad(p_fovy_degrees / 2.0);
deltaZ = p_z_far - p_z_near;
sine = Math::sin(radians);
@@ -282,7 +282,7 @@ void Projection::set_perspective(real_t p_fovy_degrees, real_t p_aspect, real_t
real_t left, right, modeltranslation, ymax, xmax, frustumshift;
- ymax = p_z_near * tan(Math::deg2rad(p_fovy_degrees / 2.0));
+ ymax = p_z_near * tan(Math::deg_to_rad(p_fovy_degrees / 2.0));
xmax = ymax * p_aspect;
frustumshift = (p_intraocular_dist / 2.0) * p_z_near / p_convergence_dist;
@@ -816,7 +816,7 @@ real_t Projection::get_fov() const {
right_plane.normalize();
if ((matrix[8] == 0) && (matrix[9] == 0)) {
- return Math::rad2deg(Math::acos(Math::abs(right_plane.normal.x))) * 2.0;
+ return Math::rad_to_deg(Math::acos(Math::abs(right_plane.normal.x))) * 2.0;
} else {
// our frustum is asymmetrical need to calculate the left planes angle separately..
Plane left_plane = Plane(matrix[3] + matrix[0],
@@ -825,7 +825,7 @@ real_t Projection::get_fov() const {
matrix[15] + matrix[12]);
left_plane.normalize();
- return Math::rad2deg(Math::acos(Math::abs(left_plane.normal.x))) + Math::rad2deg(Math::acos(Math::abs(right_plane.normal.x)));
+ return Math::rad_to_deg(Math::acos(Math::abs(left_plane.normal.x))) + Math::rad_to_deg(Math::acos(Math::abs(right_plane.normal.x)));
}
}
diff --git a/core/math/projection.h b/core/math/projection.h
index a3d2d7720b8..f149d307b39 100644
--- a/core/math/projection.h
+++ b/core/math/projection.h
@@ -96,7 +96,7 @@ struct Projection {
Projection jitter_offseted(const Vector2 &p_offset) const;
static real_t get_fovy(real_t p_fovx, real_t p_aspect) {
- return Math::rad2deg(Math::atan(p_aspect * Math::tan(Math::deg2rad(p_fovx) * 0.5)) * 2.0);
+ return Math::rad_to_deg(Math::atan(p_aspect * Math::tan(Math::deg_to_rad(p_fovx) * 0.5)) * 2.0);
}
real_t get_z_far() const;
diff --git a/core/variant/variant_utility.cpp b/core/variant/variant_utility.cpp
index 21c9c483a5c..964150aa2d0 100644
--- a/core/variant/variant_utility.cpp
+++ b/core/variant/variant_utility.cpp
@@ -396,20 +396,20 @@ struct VariantUtilityFunctions {
return Math::move_toward(from, to, delta);
}
- static inline double deg2rad(double angle_deg) {
- return Math::deg2rad(angle_deg);
+ static inline double deg_to_rad(double angle_deg) {
+ return Math::deg_to_rad(angle_deg);
}
- static inline double rad2deg(double angle_rad) {
- return Math::rad2deg(angle_rad);
+ static inline double rad_to_deg(double angle_rad) {
+ return Math::rad_to_deg(angle_rad);
}
- static inline double linear2db(double linear) {
- return Math::linear2db(linear);
+ static inline double linear_to_db(double linear) {
+ return Math::linear_to_db(linear);
}
- static inline double db2linear(double db) {
- return Math::db2linear(db);
+ static inline double db_to_linear(double db) {
+ return Math::db_to_linear(db);
}
static inline Variant wrap(const Variant &p_x, const Variant &p_min, const Variant &p_max, Callable::CallError &r_error) {
@@ -837,13 +837,13 @@ struct VariantUtilityFunctions {
r_error.error = Callable::CallError::CALL_OK;
}
- static inline String var2str(const Variant &p_var) {
+ static inline String var_to_str(const Variant &p_var) {
String vars;
VariantWriter::write_to_string(p_var, vars);
return vars;
}
- static inline Variant str2var(const String &p_var) {
+ static inline Variant str_to_var(const String &p_var) {
VariantParser::StreamString ss;
ss.s = p_var;
@@ -855,7 +855,7 @@ struct VariantUtilityFunctions {
return ret;
}
- static inline PackedByteArray var2bytes(const Variant &p_var) {
+ static inline PackedByteArray var_to_bytes(const Variant &p_var) {
int len;
Error err = encode_variant(p_var, nullptr, len, false);
if (err != OK) {
@@ -875,7 +875,7 @@ struct VariantUtilityFunctions {
return barr;
}
- static inline PackedByteArray var2bytes_with_objects(const Variant &p_var) {
+ static inline PackedByteArray var_to_bytes_with_objects(const Variant &p_var) {
int len;
Error err = encode_variant(p_var, nullptr, len, true);
if (err != OK) {
@@ -895,7 +895,7 @@ struct VariantUtilityFunctions {
return barr;
}
- static inline Variant bytes2var(const PackedByteArray &p_arr) {
+ static inline Variant bytes_to_var(const PackedByteArray &p_arr) {
Variant ret;
{
const uint8_t *r = p_arr.ptr();
@@ -907,7 +907,7 @@ struct VariantUtilityFunctions {
return ret;
}
- static inline Variant bytes2var_with_objects(const PackedByteArray &p_arr) {
+ static inline Variant bytes_to_var_with_objects(const PackedByteArray &p_arr) {
Variant ret;
{
const uint8_t *r = p_arr.ptr();
@@ -1428,10 +1428,10 @@ void Variant::_register_variant_utility_functions() {
FUNCBINDR(smoothstep, sarray("from", "to", "x"), Variant::UTILITY_FUNC_TYPE_MATH);
FUNCBINDR(move_toward, sarray("from", "to", "delta"), Variant::UTILITY_FUNC_TYPE_MATH);
- FUNCBINDR(deg2rad, sarray("deg"), Variant::UTILITY_FUNC_TYPE_MATH);
- FUNCBINDR(rad2deg, sarray("rad"), Variant::UTILITY_FUNC_TYPE_MATH);
- FUNCBINDR(linear2db, sarray("lin"), Variant::UTILITY_FUNC_TYPE_MATH);
- FUNCBINDR(db2linear, sarray("db"), Variant::UTILITY_FUNC_TYPE_MATH);
+ FUNCBINDR(deg_to_rad, sarray("deg"), Variant::UTILITY_FUNC_TYPE_MATH);
+ FUNCBINDR(rad_to_deg, sarray("rad"), Variant::UTILITY_FUNC_TYPE_MATH);
+ FUNCBINDR(linear_to_db, sarray("lin"), Variant::UTILITY_FUNC_TYPE_MATH);
+ FUNCBINDR(db_to_linear, sarray("db"), Variant::UTILITY_FUNC_TYPE_MATH);
FUNCBINDVR3(wrap, sarray("value", "min", "max"), Variant::UTILITY_FUNC_TYPE_MATH);
FUNCBINDR(wrapi, sarray("value", "min", "max"), Variant::UTILITY_FUNC_TYPE_MATH);
@@ -1479,14 +1479,14 @@ void Variant::_register_variant_utility_functions() {
FUNCBINDVARARGV(push_error, sarray(), Variant::UTILITY_FUNC_TYPE_GENERAL);
FUNCBINDVARARGV(push_warning, sarray(), Variant::UTILITY_FUNC_TYPE_GENERAL);
- FUNCBINDR(var2str, sarray("variable"), Variant::UTILITY_FUNC_TYPE_GENERAL);
- FUNCBINDR(str2var, sarray("string"), Variant::UTILITY_FUNC_TYPE_GENERAL);
+ FUNCBINDR(var_to_str, sarray("variable"), Variant::UTILITY_FUNC_TYPE_GENERAL);
+ FUNCBINDR(str_to_var, sarray("string"), Variant::UTILITY_FUNC_TYPE_GENERAL);
- FUNCBINDR(var2bytes, sarray("variable"), Variant::UTILITY_FUNC_TYPE_GENERAL);
- FUNCBINDR(bytes2var, sarray("bytes"), Variant::UTILITY_FUNC_TYPE_GENERAL);
+ FUNCBINDR(var_to_bytes, sarray("variable"), Variant::UTILITY_FUNC_TYPE_GENERAL);
+ FUNCBINDR(bytes_to_var, sarray("bytes"), Variant::UTILITY_FUNC_TYPE_GENERAL);
- FUNCBINDR(var2bytes_with_objects, sarray("variable"), Variant::UTILITY_FUNC_TYPE_GENERAL);
- FUNCBINDR(bytes2var_with_objects, sarray("bytes"), Variant::UTILITY_FUNC_TYPE_GENERAL);
+ FUNCBINDR(var_to_bytes_with_objects, sarray("variable"), Variant::UTILITY_FUNC_TYPE_GENERAL);
+ FUNCBINDR(bytes_to_var_with_objects, sarray("bytes"), Variant::UTILITY_FUNC_TYPE_GENERAL);
FUNCBINDR(hash, sarray("variable"), Variant::UTILITY_FUNC_TYPE_GENERAL);
diff --git a/doc/classes/@GlobalScope.xml b/doc/classes/@GlobalScope.xml
index bd500f6b358..6e9447eb487 100644
--- a/doc/classes/@GlobalScope.xml
+++ b/doc/classes/@GlobalScope.xml
@@ -66,7 +66,7 @@
Returns the arc cosine of [param x] in radians. Use to get the angle of cosine [param x]. [param x] must be between [code]-1.0[/code] and [code]1.0[/code] (inclusive), otherwise, [method acos] will return [constant @GDScript.NAN].
[codeblock]
- # c is 0.523599 or 30 degrees if converted with rad2deg(c)
+ # c is 0.523599 or 30 degrees if converted with rad_to_deg(c)
var c = acos(0.866025)
[/codeblock]
@@ -77,7 +77,7 @@
Returns the arc sine of [param x] in radians. Use to get the angle of sine [param x]. [param x] must be between [code]-1.0[/code] and [code]1.0[/code] (inclusive), otherwise, [method asin] will return [constant @GDScript.NAN].
[codeblock]
- # s is 0.523599 or 30 degrees if converted with rad2deg(s)
+ # s is 0.523599 or 30 degrees if converted with rad_to_deg(s)
var s = asin(0.5)
[/codeblock]
@@ -117,15 +117,15 @@
Returns the point at the given [param t] on a one-dimnesional [url=https://en.wikipedia.org/wiki/B%C3%A9zier_curve]Bezier curve[/url] defined by the given [param control_1], [param control_2], and [param end] points.
-
+
Decodes a byte array back to a [Variant] value, without decoding objects.
- [b]Note:[/b] If you need object deserialization, see [method bytes2var_with_objects].
+ [b]Note:[/b] If you need object deserialization, see [method bytes_to_var_with_objects].
-
+
@@ -232,9 +232,9 @@
Returns the cosine of angle [param angle_rad] in radians.
[codeblock]
- cos(PI * 2) # Returns 1.0
- cos(PI) # Returns -1.0
- cos(deg2rad(90)) # Returns 0.0
+ cos(PI * 2) # Returns 1.0
+ cos(PI) # Returns -1.0
+ cos(deg_to_rad(90)) # Returns 0.0
[/codeblock]
@@ -275,21 +275,21 @@
It can perform smoother interpolation than [code]cubic_interpolate()[/code] by the time values.
-
+
Converts from decibels to linear energy (audio).
-
+
Converts an angle expressed in degrees to radians.
[codeblock]
# r is 3.141593
- var r = deg2rad(180)
+ var r = deg_to_rad(180)
[/codeblock]
@@ -513,8 +513,8 @@
extends Sprite
var elapsed = 0.0
func _process(delta):
- var min_angle = deg2rad(0.0)
- var max_angle = deg2rad(90.0)
+ var min_angle = deg_to_rad(0.0)
+ var max_angle = deg_to_rad(90.0)
rotation = lerp_angle(min_angle, max_angle, elapsed)
elapsed += delta
[/codeblock]
@@ -534,7 +534,7 @@
See also [method inverse_lerp] which performs the reverse of this operation. To perform eased interpolation with [method lerp], combine it with [method ease] or [method smoothstep].
-
+
@@ -543,7 +543,7 @@
# "Slider" refers to a node that inherits Range such as HSlider or VSlider.
# Its range must be configured to go from 0 to 1.
# Change the bus name if you'd like to change the volume of a specific bus only.
- AudioServer.set_bus_volume_db(AudioServer.get_bus_index("Master"), linear2db($Slider.value))
+ AudioServer.set_bus_volume_db(AudioServer.get_bus_index("Master"), linear_to_db($Slider.value))
[/codeblock]
@@ -787,13 +787,13 @@
[/codeblock]
-
+
Converts an angle expressed in radians to degrees.
[codeblock]
- rad2deg(0.523599) # Returns 30
+ rad_to_deg(0.523599) # Returns 30
[/codeblock]
@@ -974,8 +974,8 @@
Returns the sine of angle [param angle_rad] in radians.
[codeblock]
- sin(0.523599) # Returns 0.5
- sin(deg2rad(90)) # Returns 1.0
+ sin(0.523599) # Returns 0.5
+ sin(deg_to_rad(90)) # Returns 1.0
[/codeblock]
@@ -1054,14 +1054,14 @@
Converts one or more arguments of any type to string in the best way possible.
-
+
- Converts a formatted string that was returned by [method var2str] to the original value.
+ Converts a formatted [param string] that was returned by [method var_to_str] to the original value.
[codeblock]
var a = '{ "a": 1, "b": 2 }'
- var b = str2var(a)
+ var b = str_to_var(a)
print(b["a"]) # Prints 1
[/codeblock]
@@ -1072,7 +1072,7 @@
Returns the tangent of angle [param angle_rad] in radians.
[codeblock]
- tan(deg2rad(45)) # Returns 1
+ tan(deg_to_rad(45)) # Returns 1
[/codeblock]
@@ -1103,29 +1103,29 @@
[/codeblock]
-
+
- Encodes a [Variant] value to a byte array, without encoding objects. Deserialization can be done with [method bytes2var].
- [b]Note:[/b] If you need object serialization, see [method var2bytes_with_objects].
+ Encodes a [Variant] value to a byte array, without encoding objects. Deserialization can be done with [method bytes_to_var].
+ [b]Note:[/b] If you need object serialization, see [method var_to_bytes_with_objects].
-
+
- Encodes a [Variant] value to a byte array. Encoding objects is allowed (and can potentially include code). Deserialization can be done with [method bytes2var_with_objects].
+ Encodes a [Variant] value to a byte array. Encoding objects is allowed (and can potentially include code). Deserialization can be done with [method bytes_to_var_with_objects].
-
+
- Converts a Variant [param variable] to a formatted string that can later be parsed using [method str2var].
+ Converts a Variant [param variable] to a formatted string that can later be parsed using [method str_to_var].
[codeblock]
a = { "a": 1, "b": 2 }
- print(var2str(a))
+ print(var_to_str(a))
[/codeblock]
prints
[codeblock]
diff --git a/doc/classes/CanvasItem.xml b/doc/classes/CanvasItem.xml
index fe1fe498d1b..7f411dce4f5 100644
--- a/doc/classes/CanvasItem.xml
+++ b/doc/classes/CanvasItem.xml
@@ -9,7 +9,7 @@
Canvas items are drawn in tree order. By default, children are on top of their parents so a root [CanvasItem] will be drawn behind everything. This behavior can be changed on a per-item basis.
A [CanvasItem] can also be hidden, which will also hide its children. It provides many ways to change parameters such as modulation (for itself and its children) and self modulation (only for itself), as well as its blend mode.
Ultimately, a transform notification can be requested, which will notify the node that its global position changed in case the parent tree changed.
- [b]Note:[/b] Unless otherwise specified, all methods that have angle parameters must have angles specified as [i]radians[/i]. To convert degrees to radians, use [method @GlobalScope.deg2rad].
+ [b]Note:[/b] Unless otherwise specified, all methods that have angle parameters must have angles specified as [i]radians[/i]. To convert degrees to radians, use [method @GlobalScope.deg_to_rad].
$DOCS_URL/tutorials/2d/2d_transforms.html
diff --git a/doc/classes/Node3D.xml b/doc/classes/Node3D.xml
index 53b93beb402..c8e2f1ac688 100644
--- a/doc/classes/Node3D.xml
+++ b/doc/classes/Node3D.xml
@@ -6,7 +6,7 @@
Most basic 3D game object, with a 3D [Transform3D] and visibility settings. All other 3D game objects inherit from Node3D. Use [Node3D] as a parent node to move, scale, rotate and show/hide children in a 3D project.
Affine operations (rotate, scale, translate) happen in parent's local coordinate system, unless the [Node3D] object is set as top-level. Affine operations in this coordinate system correspond to direct affine operations on the [Node3D]'s transform. The word local below refers to this coordinate system. The coordinate system that is attached to the [Node3D] object itself is referred to as object-local coordinate system.
- [b]Note:[/b] Unless otherwise specified, all methods that have angle parameters must have angles specified as [i]radians[/i]. To convert degrees to radians, use [method @GlobalScope.deg2rad].
+ [b]Note:[/b] Unless otherwise specified, all methods that have angle parameters must have angles specified as [i]radians[/i]. To convert degrees to radians, use [method @GlobalScope.deg_to_rad].
$DOCS_URL/tutorials/3d/introduction_to_3d.html
diff --git a/doc/classes/Vector2.xml b/doc/classes/Vector2.xml
index 19fe2e2bfcf..21979471267 100644
--- a/doc/classes/Vector2.xml
+++ b/doc/classes/Vector2.xml
@@ -304,7 +304,7 @@
- Returns the vector rotated by [param angle] (in radians). See also [method @GlobalScope.deg2rad].
+ Returns the vector rotated by [param angle] (in radians). See also [method @GlobalScope.deg_to_rad].
diff --git a/drivers/gles3/rasterizer_scene_gles3.cpp b/drivers/gles3/rasterizer_scene_gles3.cpp
index 9bbe960d864..cb479dda39d 100644
--- a/drivers/gles3/rasterizer_scene_gles3.cpp
+++ b/drivers/gles3/rasterizer_scene_gles3.cpp
@@ -648,7 +648,7 @@ void RasterizerSceneGLES3::_setup_sky(RID p_env, RID p_render_buffers, const Pag
float angular_diameter = light_storage->light_get_param(base, RS::LIGHT_PARAM_SIZE);
if (angular_diameter > 0.0) {
- angular_diameter = Math::tan(Math::deg2rad(angular_diameter));
+ angular_diameter = Math::tan(Math::deg_to_rad(angular_diameter));
} else {
angular_diameter = 0.0;
}
@@ -1518,7 +1518,7 @@ void RasterizerSceneGLES3::_setup_lights(const RenderDataGLES3 *p_render_data, b
light_data.color[2] = linear_col.b;
float size = light_storage->light_get_param(base, RS::LIGHT_PARAM_SIZE);
- light_data.size = 1.0 - Math::cos(Math::deg2rad(size)); //angle to cosine offset
+ light_data.size = 1.0 - Math::cos(Math::deg_to_rad(size)); //angle to cosine offset
light_data.specular = light_storage->light_get_param(base, RS::LIGHT_PARAM_SPECULAR);
@@ -1645,7 +1645,7 @@ void RasterizerSceneGLES3::_setup_lights(const RenderDataGLES3 *p_render_data, b
light_data.inv_spot_attenuation = 1.0f / light_storage->light_get_param(base, RS::LIGHT_PARAM_SPOT_ATTENUATION);
float spot_angle = light_storage->light_get_param(base, RS::LIGHT_PARAM_SPOT_ANGLE);
- light_data.cos_spot_angle = Math::cos(Math::deg2rad(spot_angle));
+ light_data.cos_spot_angle = Math::cos(Math::deg_to_rad(spot_angle));
light_data.specular_amount = light_storage->light_get_param(base, RS::LIGHT_PARAM_SPECULAR) * 2.0;
diff --git a/drivers/gles3/storage/light_storage.cpp b/drivers/gles3/storage/light_storage.cpp
index 2e4bfdc15bd..e2781bfbc0c 100644
--- a/drivers/gles3/storage/light_storage.cpp
+++ b/drivers/gles3/storage/light_storage.cpp
@@ -318,7 +318,7 @@ AABB LightStorage::light_get_aabb(RID p_light) const {
switch (light->type) {
case RS::LIGHT_SPOT: {
float len = light->param[RS::LIGHT_PARAM_RANGE];
- float size = Math::tan(Math::deg2rad(light->param[RS::LIGHT_PARAM_SPOT_ANGLE])) * len;
+ float size = Math::tan(Math::deg_to_rad(light->param[RS::LIGHT_PARAM_SPOT_ANGLE])) * len;
return AABB(Vector3(-size, -size, -len), Vector3(size * 2, size * 2, len));
};
case RS::LIGHT_OMNI: {
diff --git a/editor/editor_properties.cpp b/editor/editor_properties.cpp
index 84c4c9c877d..8c7cfe32d0d 100644
--- a/editor/editor_properties.cpp
+++ b/editor/editor_properties.cpp
@@ -1458,7 +1458,7 @@ void EditorPropertyFloat::_value_changed(double val) {
}
if (angle_in_radians) {
- val = Math::deg2rad(val);
+ val = Math::deg_to_rad(val);
}
emit_changed(get_edited_property(), val);
}
@@ -1466,7 +1466,7 @@ void EditorPropertyFloat::_value_changed(double val) {
void EditorPropertyFloat::update_property() {
double val = get_edited_object()->get(get_edited_property());
if (angle_in_radians) {
- val = Math::rad2deg(val);
+ val = Math::rad_to_deg(val);
}
setting = true;
spin->set_value(val);
@@ -1988,9 +1988,9 @@ void EditorPropertyVector3::_value_changed(double val, const String &p_name) {
v3.y = spin[1]->get_value();
v3.z = spin[2]->get_value();
if (angle_in_radians) {
- v3.x = Math::deg2rad(v3.x);
- v3.y = Math::deg2rad(v3.y);
- v3.z = Math::deg2rad(v3.z);
+ v3.x = Math::deg_to_rad(v3.x);
+ v3.y = Math::deg_to_rad(v3.y);
+ v3.z = Math::deg_to_rad(v3.z);
}
emit_changed(get_edited_property(), v3, p_name);
}
@@ -2022,9 +2022,9 @@ void EditorPropertyVector3::_update_ratio() {
void EditorPropertyVector3::update_using_vector(Vector3 p_vector) {
if (angle_in_radians) {
- p_vector.x = Math::rad2deg(p_vector.x);
- p_vector.y = Math::rad2deg(p_vector.y);
- p_vector.z = Math::rad2deg(p_vector.z);
+ p_vector.x = Math::rad_to_deg(p_vector.x);
+ p_vector.y = Math::rad_to_deg(p_vector.y);
+ p_vector.z = Math::rad_to_deg(p_vector.z);
}
setting = true;
spin[0]->set_value(p_vector.x);
@@ -2039,9 +2039,9 @@ Vector3 EditorPropertyVector3::get_vector() {
v3.y = spin[1]->get_value();
v3.z = spin[2]->get_value();
if (angle_in_radians) {
- v3.x = Math::deg2rad(v3.x);
- v3.y = Math::deg2rad(v3.y);
- v3.z = Math::deg2rad(v3.z);
+ v3.x = Math::deg_to_rad(v3.x);
+ v3.y = Math::deg_to_rad(v3.y);
+ v3.z = Math::deg_to_rad(v3.z);
}
return v3;
@@ -2643,9 +2643,9 @@ void EditorPropertyQuaternion::_custom_value_changed(double val) {
edit_euler.z = euler[2]->get_value();
Vector3 v;
- v.x = Math::deg2rad(edit_euler.x);
- v.y = Math::deg2rad(edit_euler.y);
- v.z = Math::deg2rad(edit_euler.z);
+ v.x = Math::deg_to_rad(edit_euler.x);
+ v.y = Math::deg_to_rad(edit_euler.y);
+ v.z = Math::deg_to_rad(edit_euler.z);
Quaternion temp_q = Quaternion(v);
spin[0]->set_value(temp_q.x);
@@ -2685,9 +2685,9 @@ void EditorPropertyQuaternion::update_property() {
spin[3]->set_value(val.w);
if (!is_grabbing_euler()) {
Vector3 v = val.normalized().get_euler_yxz();
- edit_euler.x = Math::rad2deg(v.x);
- edit_euler.y = Math::rad2deg(v.y);
- edit_euler.z = Math::rad2deg(v.z);
+ edit_euler.x = Math::rad_to_deg(v.x);
+ edit_euler.y = Math::rad_to_deg(v.y);
+ edit_euler.z = Math::rad_to_deg(v.z);
euler[0]->set_value(edit_euler.x);
euler[1]->set_value(edit_euler.y);
euler[2]->set_value(edit_euler.z);
diff --git a/editor/import/collada.cpp b/editor/import/collada.cpp
index f4d19fe8b68..5b9ed2c1d24 100644
--- a/editor/import/collada.cpp
+++ b/editor/import/collada.cpp
@@ -131,7 +131,7 @@ Transform3D Collada::Node::compute_transform(const Collada &state) const {
switch (xf.op) {
case XForm::OP_ROTATE: {
if (xf.data.size() >= 4) {
- xform_step.rotate(Vector3(xf.data[0], xf.data[1], xf.data[2]), Math::deg2rad(xf.data[3]));
+ xform_step.rotate(Vector3(xf.data[0], xf.data[1], xf.data[2]), Math::deg_to_rad(xf.data[3]));
}
} break;
case XForm::OP_SCALE: {
diff --git a/editor/import/post_import_plugin_skeleton_rest_fixer.cpp b/editor/import/post_import_plugin_skeleton_rest_fixer.cpp
index 685cb16eb13..6f775c7ea87 100644
--- a/editor/import/post_import_plugin_skeleton_rest_fixer.cpp
+++ b/editor/import/post_import_plugin_skeleton_rest_fixer.cpp
@@ -324,7 +324,7 @@ void PostImportPluginSkeletonRestFixer::internal_process(InternalImportCategory
Vector3 src_dir = src_tail - src_head;
// Rotate rest.
- if (Math::abs(Math::rad2deg(src_dir.angle_to(prof_dir))) > float(p_options["retarget/rest_fixer/fix_silhouette/threshold"])) {
+ if (Math::abs(Math::rad_to_deg(src_dir.angle_to(prof_dir))) > float(p_options["retarget/rest_fixer/fix_silhouette/threshold"])) {
// Get rotation difference.
Vector3 up_vec; // Need to rotate other than roll axis.
switch (Vector3(abs(src_dir.x), abs(src_dir.y), abs(src_dir.z)).min_axis_index()) {
diff --git a/editor/import/resource_importer_wav.cpp b/editor/import/resource_importer_wav.cpp
index a1e00f7d308..1dcae2841b2 100644
--- a/editor/import/resource_importer_wav.cpp
+++ b/editor/import/resource_importer_wav.cpp
@@ -390,7 +390,7 @@ Error ResourceImporterWAV::import(const String &p_source_file, const String &p_s
int first = 0;
int last = (frames / format_channels) - 1;
bool found = false;
- float limit = Math::db2linear(TRIM_DB_LIMIT);
+ float limit = Math::db_to_linear(TRIM_DB_LIMIT);
for (int i = 0; i < data.size() / format_channels; i++) {
float ampChannelSum = 0;
diff --git a/editor/plugins/canvas_item_editor_plugin.cpp b/editor/plugins/canvas_item_editor_plugin.cpp
index 2e83e2041f3..b1bcb9f58d0 100644
--- a/editor/plugins/canvas_item_editor_plugin.cpp
+++ b/editor/plugins/canvas_item_editor_plugin.cpp
@@ -223,8 +223,8 @@ public:
grid_step_x->set_value(p_grid_step.x);
grid_step_y->set_value(p_grid_step.y);
primary_grid_steps->set_value(p_primary_grid_steps);
- rotation_offset->set_value(Math::rad2deg(p_rotation_offset));
- rotation_step->set_value(Math::rad2deg(p_rotation_step));
+ rotation_offset->set_value(Math::rad_to_deg(p_rotation_offset));
+ rotation_step->set_value(Math::rad_to_deg(p_rotation_step));
scale_step->set_value(p_scale_step);
}
@@ -232,8 +232,8 @@ public:
p_grid_offset = Point2(grid_offset_x->get_value(), grid_offset_y->get_value());
p_grid_step = Point2(grid_step_x->get_value(), grid_step_y->get_value());
p_primary_grid_steps = int(primary_grid_steps->get_value());
- p_rotation_offset = Math::deg2rad(rotation_offset->get_value());
- p_rotation_step = Math::deg2rad(rotation_step->get_value());
+ p_rotation_offset = Math::deg_to_rad(rotation_offset->get_value());
+ p_rotation_step = Math::deg_to_rad(rotation_step->get_value());
p_scale_step = scale_step->get_value();
}
};
@@ -1447,7 +1447,7 @@ bool CanvasItemEditor::_gui_input_rotate(const Ref &p_event) {
drag_selection,
vformat(TTR("Rotate CanvasItem \"%s\" to %d degrees"),
drag_selection[0]->get_name(),
- Math::rad2deg(drag_selection[0]->_edit_get_rotation())),
+ Math::rad_to_deg(drag_selection[0]->_edit_get_rotation())),
true);
}
@@ -3676,7 +3676,7 @@ void CanvasItemEditor::_draw_transform_message() {
} break;
case DRAG_ROTATE: {
- real_t delta = Math::rad2deg(current_transform.get_rotation() - original_transform.get_rotation());
+ real_t delta = Math::rad_to_deg(current_transform.get_rotation() - original_transform.get_rotation());
transform_message = TTR("Rotating:") + " " + FORMAT(delta) + String::utf8(" °");
} break;
diff --git a/editor/plugins/canvas_item_editor_plugin.h b/editor/plugins/canvas_item_editor_plugin.h
index 2ca495e5d6b..0a840d6fd6c 100644
--- a/editor/plugins/canvas_item_editor_plugin.h
+++ b/editor/plugins/canvas_item_editor_plugin.h
@@ -215,7 +215,7 @@ private:
int primary_grid_steps = 8;
int grid_step_multiplier = 0;
- real_t snap_rotation_step = Math::deg2rad(15.0);
+ real_t snap_rotation_step = Math::deg_to_rad(15.0);
real_t snap_rotation_offset = 0.0;
real_t snap_scale_step = 0.1f;
bool smart_snap_active = false;
diff --git a/editor/plugins/material_editor_plugin.cpp b/editor/plugins/material_editor_plugin.cpp
index 5d59f62f059..54aa6aed512 100644
--- a/editor/plugins/material_editor_plugin.cpp
+++ b/editor/plugins/material_editor_plugin.cpp
@@ -179,8 +179,8 @@ MaterialEditor::MaterialEditor() {
viewport->add_child(box_instance);
Transform3D box_xform;
- box_xform.basis.rotate(Vector3(1, 0, 0), Math::deg2rad(25.0));
- box_xform.basis = box_xform.basis * Basis().rotated(Vector3(0, 1, 0), Math::deg2rad(-25.0));
+ box_xform.basis.rotate(Vector3(1, 0, 0), Math::deg_to_rad(25.0));
+ box_xform.basis = box_xform.basis * Basis().rotated(Vector3(0, 1, 0), Math::deg_to_rad(-25.0));
box_xform.basis.scale(Vector3(0.7, 0.7, 0.7));
box_xform.origin.y = 0.05;
box_instance->set_transform(box_xform);
diff --git a/editor/plugins/mesh_editor_plugin.cpp b/editor/plugins/mesh_editor_plugin.cpp
index 31c9f1e3872..980d2974a09 100644
--- a/editor/plugins/mesh_editor_plugin.cpp
+++ b/editor/plugins/mesh_editor_plugin.cpp
@@ -77,8 +77,8 @@ void MeshEditor::edit(Ref p_mesh) {
mesh = p_mesh;
mesh_instance->set_mesh(mesh);
- rot_x = Math::deg2rad(-15.0);
- rot_y = Math::deg2rad(30.0);
+ rot_x = Math::deg_to_rad(-15.0);
+ rot_y = Math::deg_to_rad(30.0);
_update_rotation();
AABB aabb = mesh->get_aabb();
diff --git a/editor/plugins/node_3d_editor_gizmos.cpp b/editor/plugins/node_3d_editor_gizmos.cpp
index 043848080f5..a2fe32e32fd 100644
--- a/editor/plugins/node_3d_editor_gizmos.cpp
+++ b/editor/plugins/node_3d_editor_gizmos.cpp
@@ -1295,7 +1295,7 @@ static float _find_closest_angle_to_half_pi_arc(const Vector3 &p_from, const Vec
//min_p = p_arc_xform.affine_inverse().xform(min_p);
float a = (Math_PI * 0.5) - Vector2(min_p.x, -min_p.z).angle();
- return Math::rad2deg(a);
+ return Math::rad_to_deg(a);
}
void Light3DGizmoPlugin::set_handle(const EditorNode3DGizmo *p_gizmo, int p_id, bool p_secondary, Camera3D *p_camera, const Point2 &p_point) {
@@ -1421,8 +1421,8 @@ void Light3DGizmoPlugin::redraw(EditorNode3DGizmo *p_gizmo) {
for (int i = 0; i < 120; i++) {
// Create a circle
- const float ra = Math::deg2rad((float)(i * 3));
- const float rb = Math::deg2rad((float)((i + 1) * 3));
+ const float ra = Math::deg_to_rad((float)(i * 3));
+ const float rb = Math::deg_to_rad((float)((i + 1) * 3));
const Point2 a = Vector2(Math::sin(ra), Math::cos(ra)) * r;
const Point2 b = Vector2(Math::sin(rb), Math::cos(rb)) * r;
@@ -1458,13 +1458,13 @@ void Light3DGizmoPlugin::redraw(EditorNode3DGizmo *p_gizmo) {
SpotLight3D *sl = Object::cast_to(light);
float r = sl->get_param(Light3D::PARAM_RANGE);
- float w = r * Math::sin(Math::deg2rad(sl->get_param(Light3D::PARAM_SPOT_ANGLE)));
- float d = r * Math::cos(Math::deg2rad(sl->get_param(Light3D::PARAM_SPOT_ANGLE)));
+ float w = r * Math::sin(Math::deg_to_rad(sl->get_param(Light3D::PARAM_SPOT_ANGLE)));
+ float d = r * Math::cos(Math::deg_to_rad(sl->get_param(Light3D::PARAM_SPOT_ANGLE)));
for (int i = 0; i < 120; i++) {
// Draw a circle
- const float ra = Math::deg2rad((float)(i * 3));
- const float rb = Math::deg2rad((float)((i + 1) * 3));
+ const float ra = Math::deg_to_rad((float)(i * 3));
+ const float rb = Math::deg_to_rad((float)((i + 1) * 3));
const Point2 a = Vector2(Math::sin(ra), Math::cos(ra)) * w;
const Point2 b = Vector2(Math::sin(rb), Math::cos(rb)) * w;
@@ -1545,8 +1545,8 @@ void AudioStreamPlayer3DGizmoPlugin::set_handle(const EditorNode3DGizmo *p_gizmo
float closest_angle = 1e20;
for (int i = 0; i < 180; i++) {
- float a = Math::deg2rad((float)i);
- float an = Math::deg2rad((float)(i + 1));
+ float a = Math::deg_to_rad((float)i);
+ float an = Math::deg_to_rad((float)(i + 1));
Vector3 from(Math::sin(a), 0, -Math::cos(a));
Vector3 to(Math::sin(an), 0, -Math::cos(an));
@@ -1628,8 +1628,8 @@ void AudioStreamPlayer3DGizmoPlugin::redraw(EditorNode3DGizmo *p_gizmo) {
for (int i = 0; i < 120; i++) {
// Create a circle.
- const float ra = Math::deg2rad((float)(i * 3));
- const float rb = Math::deg2rad((float)((i + 1) * 3));
+ const float ra = Math::deg_to_rad((float)(i * 3));
+ const float rb = Math::deg_to_rad((float)((i + 1) * 3));
const Point2 a = Vector2(Math::sin(ra), Math::cos(ra)) * r;
const Point2 b = Vector2(Math::sin(rb), Math::cos(rb)) * r;
@@ -1671,8 +1671,8 @@ void AudioStreamPlayer3DGizmoPlugin::redraw(EditorNode3DGizmo *p_gizmo) {
if (player->is_emission_angle_enabled()) {
const float pc = player->get_emission_angle();
- const float ofs = -Math::cos(Math::deg2rad(pc));
- const float radius = Math::sin(Math::deg2rad(pc));
+ const float ofs = -Math::cos(Math::deg_to_rad(pc));
+ const float radius = Math::sin(Math::deg_to_rad(pc));
Vector points_primary;
points_primary.resize(200);
@@ -1707,7 +1707,7 @@ void AudioStreamPlayer3DGizmoPlugin::redraw(EditorNode3DGizmo *p_gizmo) {
p_gizmo->add_lines(points_secondary, material_secondary);
Vector handles;
- const float ha = Math::deg2rad(player->get_emission_angle());
+ const float ha = Math::deg_to_rad(player->get_emission_angle());
handles.push_back(Vector3(Math::sin(ha), 0, -Math::cos(ha)));
p_gizmo->add_handles(handles, get_material("handles"));
}
@@ -1872,7 +1872,7 @@ void Camera3DGizmoPlugin::redraw(EditorNode3DGizmo *p_gizmo) {
// The real FOV is halved for accurate representation
float fov = camera->get_fov() / 2.0;
- Vector3 side = Vector3(Math::sin(Math::deg2rad(fov)), 0, -Math::cos(Math::deg2rad(fov)));
+ Vector3 side = Vector3(Math::sin(Math::deg_to_rad(fov)), 0, -Math::cos(Math::deg_to_rad(fov)));
Vector3 nside = side;
nside.x = -nside.x;
Vector3 up = Vector3(0, side.x, 0);
@@ -2643,8 +2643,8 @@ void VehicleWheel3DGizmoPlugin::redraw(EditorNode3DGizmo *p_gizmo) {
float r = car_wheel->get_radius();
const int skip = 10;
for (int i = 0; i <= 360; i += skip) {
- float ra = Math::deg2rad((float)i);
- float rb = Math::deg2rad((float)i + skip);
+ float ra = Math::deg_to_rad((float)i);
+ float rb = Math::deg_to_rad((float)i + skip);
Point2 a = Vector2(Math::sin(ra), Math::cos(ra)) * r;
Point2 b = Vector2(Math::sin(rb), Math::cos(rb)) * r;
@@ -3272,8 +3272,8 @@ void GPUParticlesCollision3DGizmoPlugin::redraw(EditorNode3DGizmo *p_gizmo) {
Vector points;
for (int i = 0; i <= 360; i++) {
- float ra = Math::deg2rad((float)i);
- float rb = Math::deg2rad((float)i + 1);
+ float ra = Math::deg_to_rad((float)i);
+ float rb = Math::deg_to_rad((float)i + 1);
Point2 a = Vector2(Math::sin(ra), Math::cos(ra)) * r;
Point2 b = Vector2(Math::sin(rb), Math::cos(rb)) * r;
@@ -4517,8 +4517,8 @@ void CollisionShape3DGizmoPlugin::redraw(EditorNode3DGizmo *p_gizmo) {
Vector points;
for (int i = 0; i <= 360; i++) {
- float ra = Math::deg2rad((float)i);
- float rb = Math::deg2rad((float)i + 1);
+ float ra = Math::deg_to_rad((float)i);
+ float rb = Math::deg_to_rad((float)i + 1);
Point2 a = Vector2(Math::sin(ra), Math::cos(ra)) * r;
Point2 b = Vector2(Math::sin(rb), Math::cos(rb)) * r;
@@ -4589,8 +4589,8 @@ void CollisionShape3DGizmoPlugin::redraw(EditorNode3DGizmo *p_gizmo) {
Vector3 d(0, height * 0.5 - radius, 0);
for (int i = 0; i < 360; i++) {
- float ra = Math::deg2rad((float)i);
- float rb = Math::deg2rad((float)i + 1);
+ float ra = Math::deg_to_rad((float)i);
+ float rb = Math::deg_to_rad((float)i + 1);
Point2 a = Vector2(Math::sin(ra), Math::cos(ra)) * radius;
Point2 b = Vector2(Math::sin(rb), Math::cos(rb)) * radius;
@@ -4660,8 +4660,8 @@ void CollisionShape3DGizmoPlugin::redraw(EditorNode3DGizmo *p_gizmo) {
Vector3 d(0, height * 0.5, 0);
for (int i = 0; i < 360; i++) {
- float ra = Math::deg2rad((float)i);
- float rb = Math::deg2rad((float)i + 1);
+ float ra = Math::deg_to_rad((float)i);
+ float rb = Math::deg_to_rad((float)i + 1);
Point2 a = Vector2(Math::sin(ra), Math::cos(ra)) * radius;
Point2 b = Vector2(Math::sin(rb), Math::cos(rb)) * radius;
@@ -5203,8 +5203,8 @@ void JointGizmosDrawer::draw_cone(const Transform3D &p_offset, const Basis &p_ba
//swing
for (int i = 0; i < 360; i += 10) {
- float ra = Math::deg2rad((float)i);
- float rb = Math::deg2rad((float)i + 10);
+ float ra = Math::deg_to_rad((float)i);
+ float rb = Math::deg_to_rad((float)i + 10);
Point2 a = Vector2(Math::sin(ra), Math::cos(ra)) * w;
Point2 b = Vector2(Math::sin(rb), Math::cos(rb)) * w;
@@ -5221,12 +5221,12 @@ void JointGizmosDrawer::draw_cone(const Transform3D &p_offset, const Basis &p_ba
r_points.push_back(p_offset.translated_local(p_base.xform(Vector3(1, 0, 0))).origin);
/// Twist
- float ts = Math::rad2deg(p_twist);
+ float ts = Math::rad_to_deg(p_twist);
ts = MIN(ts, 720);
for (int i = 0; i < int(ts); i += 5) {
- float ra = Math::deg2rad((float)i);
- float rb = Math::deg2rad((float)i + 5);
+ float ra = Math::deg_to_rad((float)i);
+ float rb = Math::deg_to_rad((float)i + 5);
float c = i / 720.0;
float cn = (i + 5) / 720.0;
Point2 a = Vector2(Math::sin(ra), Math::cos(ra)) * w * c;
diff --git a/editor/plugins/node_3d_editor_plugin.cpp b/editor/plugins/node_3d_editor_plugin.cpp
index 6add9e2e1ed..6f4b6ff96b1 100644
--- a/editor/plugins/node_3d_editor_plugin.cpp
+++ b/editor/plugins/node_3d_editor_plugin.cpp
@@ -342,7 +342,7 @@ void Node3DEditorViewport::_update_camera(real_t p_interp_delta) {
camera->set_global_transform(to_camera_transform(camera_cursor));
if (orthogonal) {
- float half_fov = Math::deg2rad(get_fov()) / 2.0;
+ float half_fov = Math::deg_to_rad(get_fov()) / 2.0;
float height = 2.0 * cursor.distance * Math::tan(half_fov);
camera->set_orthogonal(height, get_znear(), get_zfar());
} else {
@@ -2144,7 +2144,7 @@ void Node3DEditorViewport::_nav_orbit(Ref p_event, cons
}
const real_t degrees_per_pixel = EditorSettings::get_singleton()->get("editors/3d/navigation_feel/orbit_sensitivity");
- const real_t radians_per_pixel = Math::deg2rad(degrees_per_pixel);
+ const real_t radians_per_pixel = Math::deg_to_rad(degrees_per_pixel);
const bool invert_y_axis = EditorSettings::get_singleton()->get("editors/3d/navigation/invert_y_axis");
const bool invert_x_axis = EditorSettings::get_singleton()->get("editors/3d/navigation/invert_x_axis");
@@ -2177,7 +2177,7 @@ void Node3DEditorViewport::_nav_look(Ref p_event, const
// Scale mouse sensitivity with camera FOV scale when zoomed in to make it easier to point at things.
const real_t degrees_per_pixel = real_t(EditorSettings::get_singleton()->get("editors/3d/freelook/freelook_sensitivity")) * MIN(1.0, cursor.fov_scale);
- const real_t radians_per_pixel = Math::deg2rad(degrees_per_pixel);
+ const real_t radians_per_pixel = Math::deg_to_rad(degrees_per_pixel);
const bool invert_y_axis = EditorSettings::get_singleton()->get("editors/3d/navigation/invert_y_axis");
// Note: do NOT assume the camera has the "current" transform, because it is interpolated and may have "lag".
@@ -4546,7 +4546,7 @@ void Node3DEditorViewport::update_transform(Point2 p_mousepos, bool p_shift) {
break;
}
- static const float orthogonal_threshold = Math::cos(Math::deg2rad(87.0f));
+ static const float orthogonal_threshold = Math::cos(Math::deg_to_rad(87.0f));
bool axis_is_orthogonal = ABS(plane.normal.dot(global_axis)) < orthogonal_threshold;
double angle = 0.0f;
@@ -4566,10 +4566,10 @@ void Node3DEditorViewport::update_transform(Point2 p_mousepos, bool p_shift) {
if (_edit.snap || spatial_editor->is_snap_enabled()) {
snap = spatial_editor->get_rotate_snap();
}
- angle = Math::rad2deg(angle) + snap * 0.5; //else it won't reach +180
+ angle = Math::rad_to_deg(angle) + snap * 0.5; //else it won't reach +180
angle -= Math::fmod(angle, snap);
set_message(vformat(TTR("Rotating %s degrees."), String::num(angle, snap_step_decimals)));
- angle = Math::deg2rad(angle);
+ angle = Math::deg_to_rad(angle);
bool local_coords = (spatial_editor->are_local_coords_enabled() && _edit.plane != TRANSFORM_VIEW); // Disable local transformation for TRANSFORM_VIEW
@@ -5737,7 +5737,7 @@ void Node3DEditor::_xform_dialog_action() {
for (int i = 0; i < 3; i++) {
translate[i] = xform_translate[i]->get_text().to_float();
- rotate[i] = Math::deg2rad(xform_rotate[i]->get_text().to_float());
+ rotate[i] = Math::deg_to_rad(xform_rotate[i]->get_text().to_float());
scale[i] = xform_scale[i]->get_text().to_float();
}
@@ -7623,10 +7623,10 @@ void Node3DEditor::_load_default_preview_settings() {
// On any not-tidally-locked planet, a sun would have an angular altitude
// of 60 degrees as the average of all points on the sphere at noon.
// The azimuth choice is arbitrary, but ideally shouldn't be on an axis.
- sun_rotation = Vector2(-Math::deg2rad(60.0), Math::deg2rad(150.0));
+ sun_rotation = Vector2(-Math::deg_to_rad(60.0), Math::deg_to_rad(150.0));
- sun_angle_altitude->set_value(-Math::rad2deg(sun_rotation.x));
- sun_angle_azimuth->set_value(180.0 - Math::rad2deg(sun_rotation.y));
+ sun_angle_altitude->set_value(-Math::rad_to_deg(sun_rotation.x));
+ sun_angle_azimuth->set_value(180.0 - Math::rad_to_deg(sun_rotation.y));
sun_direction->update();
environ_sky_color->set_pick_color(Color(0.385, 0.454, 0.55));
environ_ground_color->set_pick_color(Color(0.2, 0.169, 0.133));
@@ -7669,8 +7669,8 @@ void Node3DEditor::_update_preview_environment() {
}
}
- sun_angle_altitude->set_value(-Math::rad2deg(sun_rotation.x));
- sun_angle_azimuth->set_value(180.0 - Math::rad2deg(sun_rotation.y));
+ sun_angle_altitude->set_value(-Math::rad_to_deg(sun_rotation.x));
+ sun_angle_azimuth->set_value(180.0 - Math::rad_to_deg(sun_rotation.y));
bool disable_env = world_env_count > 0 || environ_button->is_pressed();
@@ -7703,15 +7703,15 @@ void Node3DEditor::_sun_direction_input(const Ref &p_event) {
sun_rotation.x += mm->get_relative().y * (0.02 * EDSCALE);
sun_rotation.y -= mm->get_relative().x * (0.02 * EDSCALE);
sun_rotation.x = CLAMP(sun_rotation.x, -Math_TAU / 4, Math_TAU / 4);
- sun_angle_altitude->set_value(-Math::rad2deg(sun_rotation.x));
- sun_angle_azimuth->set_value(180.0 - Math::rad2deg(sun_rotation.y));
+ sun_angle_altitude->set_value(-Math::rad_to_deg(sun_rotation.x));
+ sun_angle_azimuth->set_value(180.0 - Math::rad_to_deg(sun_rotation.y));
_preview_settings_changed();
}
}
void Node3DEditor::_sun_direction_angle_set() {
- sun_rotation.x = Math::deg2rad(-sun_angle_altitude->get_value());
- sun_rotation.y = Math::deg2rad(180.0 - sun_angle_azimuth->get_value());
+ sun_rotation.x = Math::deg_to_rad(-sun_angle_altitude->get_value());
+ sun_rotation.y = Math::deg_to_rad(180.0 - sun_angle_azimuth->get_value());
_preview_settings_changed();
}
diff --git a/editor/project_converter_3_to_4.cpp b/editor/project_converter_3_to_4.cpp
index 9e3062d3bc5..1eb9777049c 100644
--- a/editor/project_converter_3_to_4.cpp
+++ b/editor/project_converter_3_to_4.cpp
@@ -569,9 +569,23 @@ static const char *gdscript_function_renames[][2] = {
{ "to_utf8", "to_utf8_buffer" }, // String
{ "to_wchar", "to_utf32_buffer" }, // String // TODO - utf32 or utf16?
- // Globals
+ // @GlobalScope
+ { "bytes2var", "bytes_to_var" },
+ { "bytes2var_with_objects", "bytes_to_var_with_objects" },
+ { "db2linear", "db_to_linear" },
+ { "deg2rad", "deg_to_rad" },
+ { "linear2db", "linear_to_db" },
+ { "rad2deg", "rad_to_deg" },
{ "rand_range", "randf_range" },
{ "stepify", "snapped" },
+ { "str2var", "str_to_var" },
+ { "var2str", "var_to_str" },
+ { "var2bytes", "var_to_bytes" },
+ { "var2bytes_with_objects", "var_to_bytes_with_objects" },
+
+ // @GDScript
+ { "dict2inst", "dict_to_inst" },
+ { "inst2dict", "inst_to_dict" },
{ nullptr, nullptr },
};
@@ -958,9 +972,23 @@ static const char *csharp_function_renames[][2] = {
{ "ToUtf8", "ToUtf8Buffer" }, // String
{ "ToWchar", "ToUtf32Buffer" }, // String // TODO - utf32 or utf16?
- // Globals
+ // @GlobalScope
+ { "Bytes2Var", "BytesToVar" },
+ { "Bytes2VarWithObjects", "BytesToVarWithObjects" },
+ { "Db2Linear", "DbToLinear" },
+ { "Deg2Rad", "DegToRad" },
+ { "Linear2Db", "LinearToDb" },
+ { "Rad2Deg", "RadToDeg" },
{ "RandRange", "RandfRange" },
{ "Stepify", "Snapped" },
+ { "Str2Var", "StrToVar" },
+ { "Var2Str", "VarToStr" },
+ { "Var2Bytes", "VarToBytes" },
+ { "Var2BytesWithObjects", "VarToBytesWithObjects" },
+
+ // @GDScript
+ { "Dict2Inst", "DictToInst" },
+ { "Inst2Dict", "InstToDict" },
{ nullptr, nullptr },
};
diff --git a/modules/csg/csg_shape.cpp b/modules/csg/csg_shape.cpp
index 243c23342ed..62947901324 100644
--- a/modules/csg/csg_shape.cpp
+++ b/modules/csg/csg_shape.cpp
@@ -1838,7 +1838,7 @@ CSGBrush *CSGPolygon3D::_build_brush() {
u_step *= curve_length / path_u_distance;
}
double v_step = 1.0 / shape_sides;
- double spin_step = Math::deg2rad(spin_degrees / spin_sides);
+ double spin_step = Math::deg_to_rad(spin_degrees / spin_sides);
double extrusion_step = 1.0 / extrusions;
if (mode == MODE_PATH) {
if (path_joined) {
@@ -1902,7 +1902,7 @@ CSGBrush *CSGPolygon3D::_build_brush() {
}
}
- real_t angle_simplify_dot = Math::cos(Math::deg2rad(path_simplify_angle));
+ real_t angle_simplify_dot = Math::cos(Math::deg_to_rad(path_simplify_angle));
Vector3 previous_simplify_dir = Vector3(0, 0, 0);
int faces_combined = 0;
diff --git a/modules/gdscript/doc_classes/@GDScript.xml b/modules/gdscript/doc_classes/@GDScript.xml
index a44be04b2df..c2301c3e27e 100644
--- a/modules/gdscript/doc_classes/@GDScript.xml
+++ b/modules/gdscript/doc_classes/@GDScript.xml
@@ -74,11 +74,11 @@
[/codeblock]
-
+
- Converts a dictionary (previously created with [method inst2dict]) back to an instance. Useful for deserializing.
+ Converts a [param dictionary] (previously created with [method inst_to_dict]) back to an Object instance. Useful for deserializing.
@@ -102,15 +102,15 @@
[b]Note:[/b] Not supported for calling from threads. Instead, this will return an empty array.
-
+
- Returns the passed instance converted to a dictionary (useful for serializing).
+ Returns the passed [param instance] converted to a Dictionary (useful for serializing).
[codeblock]
var foo = "bar"
func _ready():
- var d = inst2dict(self)
+ var d = inst_to_dict(self)
print(d.keys())
print(d.values())
[/codeblock]
diff --git a/modules/gdscript/gdscript_utility_functions.cpp b/modules/gdscript/gdscript_utility_functions.cpp
index 38893a422d0..bcbe8b8d2bd 100644
--- a/modules/gdscript/gdscript_utility_functions.cpp
+++ b/modules/gdscript/gdscript_utility_functions.cpp
@@ -262,7 +262,7 @@ struct GDScriptUtilityFunctionsDefinitions {
}
}
- static inline void inst2dict(Variant *r_ret, const Variant **p_args, int p_arg_count, Callable::CallError &r_error) {
+ static inline void inst_to_dict(Variant *r_ret, const Variant **p_args, int p_arg_count, Callable::CallError &r_error) {
VALIDATE_ARG_COUNT(1);
if (p_args[0]->get_type() == Variant::NIL) {
@@ -329,7 +329,7 @@ struct GDScriptUtilityFunctionsDefinitions {
}
}
- static inline void dict2inst(Variant *r_ret, const Variant **p_args, int p_arg_count, Callable::CallError &r_error) {
+ static inline void dict_to_inst(Variant *r_ret, const Variant **p_args, int p_arg_count, Callable::CallError &r_error) {
VALIDATE_ARG_COUNT(1);
if (p_args[0]->get_type() != Variant::DICTIONARY) {
@@ -653,8 +653,8 @@ void GDScriptUtilityFunctions::register_functions() {
REGISTER_VARARG_FUNC(str, true, Variant::STRING);
REGISTER_VARARG_FUNC(range, false, Variant::ARRAY);
REGISTER_CLASS_FUNC(load, false, "Resource", ARG("path", Variant::STRING));
- REGISTER_FUNC(inst2dict, false, Variant::DICTIONARY, ARG("instance", Variant::OBJECT));
- REGISTER_FUNC(dict2inst, false, Variant::OBJECT, ARG("dictionary", Variant::DICTIONARY));
+ REGISTER_FUNC(inst_to_dict, false, Variant::DICTIONARY, ARG("instance", Variant::OBJECT));
+ REGISTER_FUNC(dict_to_inst, false, Variant::OBJECT, ARG("dictionary", Variant::DICTIONARY));
REGISTER_FUNC_DEF(Color8, true, 255, Variant::COLOR, ARG("r8", Variant::INT), ARG("g8", Variant::INT), ARG("b8", Variant::INT), ARG("a8", Variant::INT));
REGISTER_VARARG_FUNC(print_debug, false, Variant::NIL);
REGISTER_FUNC_NO_ARGS(print_stack, false, Variant::NIL);
diff --git a/modules/gltf/gltf_document.cpp b/modules/gltf/gltf_document.cpp
index b913a771e16..87ba1d98698 100644
--- a/modules/gltf/gltf_document.cpp
+++ b/modules/gltf/gltf_document.cpp
@@ -5176,7 +5176,7 @@ Node3D *GLTFDocument::_generate_light(Ref state, const GLTFNodeIndex
SpotLight3D *light = memnew(SpotLight3D);
light->set_param(SpotLight3D::PARAM_ENERGY, intensity);
light->set_param(SpotLight3D::PARAM_RANGE, range);
- light->set_param(SpotLight3D::PARAM_SPOT_ANGLE, Math::rad2deg(l->outer_cone_angle));
+ light->set_param(SpotLight3D::PARAM_SPOT_ANGLE, Math::rad_to_deg(l->outer_cone_angle));
light->set_color(l->color);
// Line of best fit derived from guessing, see https://www.desmos.com/calculator/biiflubp8b
@@ -5200,7 +5200,7 @@ Camera3D *GLTFDocument::_generate_camera(Ref state, const GLTFNodeInd
Ref c = state->cameras[gltf_node->camera];
camera->set_projection(c->get_perspective() ? Camera3D::PROJECTION_PERSPECTIVE : Camera3D::PROJECTION_ORTHOGONAL);
// GLTF spec (yfov) is in radians, Godot's camera (fov) is in degrees.
- camera->set_fov(Math::rad2deg(c->get_fov()));
+ camera->set_fov(Math::rad_to_deg(c->get_fov()));
// GLTF spec (xmag and ymag) is a radius in meters, Godot's camera (size) is a diameter in meters.
camera->set_size(c->get_size_mag() * 2.0f);
camera->set_near(c->get_depth_near());
@@ -5215,7 +5215,7 @@ GLTFCameraIndex GLTFDocument::_convert_camera(Ref state, Camera3D *p_
c.instantiate();
c->set_perspective(p_camera->get_projection() == Camera3D::ProjectionType::PROJECTION_PERSPECTIVE);
// GLTF spec (yfov) is in radians, Godot's camera (fov) is in degrees.
- c->set_fov(Math::deg2rad(p_camera->get_fov()));
+ c->set_fov(Math::deg_to_rad(p_camera->get_fov()));
// GLTF spec (xmag and ymag) is a radius in meters, Godot's camera (size) is a diameter in meters.
c->set_size_mag(p_camera->get_size() * 0.5f);
c->set_depth_far(p_camera->get_far());
@@ -5246,7 +5246,7 @@ GLTFLightIndex GLTFDocument::_convert_light(Ref state, Light3D *p_lig
SpotLight3D *light = cast_to(p_light);
l->range = light->get_param(SpotLight3D::PARAM_RANGE);
l->intensity = light->get_param(SpotLight3D::PARAM_ENERGY);
- l->outer_cone_angle = Math::deg2rad(light->get_param(SpotLight3D::PARAM_SPOT_ANGLE));
+ l->outer_cone_angle = Math::deg_to_rad(light->get_param(SpotLight3D::PARAM_SPOT_ANGLE));
// This equation is the inverse of the import equation (which has a desmos link).
float angle_ratio = 1 - (0.2 / (0.1 + light->get_param(SpotLight3D::PARAM_SPOT_ATTENUATION)));
diff --git a/modules/gltf/structures/gltf_camera.h b/modules/gltf/structures/gltf_camera.h
index 714ec21693e..8e528c063f8 100644
--- a/modules/gltf/structures/gltf_camera.h
+++ b/modules/gltf/structures/gltf_camera.h
@@ -44,7 +44,7 @@ private:
// GLTF has no default camera values, they should always be specified in
// the GLTF file. Here we default to Godot's default camera settings.
bool perspective = true;
- real_t fov = Math::deg2rad(75.0);
+ real_t fov = Math::deg_to_rad(75.0);
real_t size_mag = 0.5;
real_t depth_far = 4000.0;
real_t depth_near = 0.05;
diff --git a/modules/lightmapper_rd/lightmapper_rd.cpp b/modules/lightmapper_rd/lightmapper_rd.cpp
index 83ac478a977..2dcf644a066 100644
--- a/modules/lightmapper_rd/lightmapper_rd.cpp
+++ b/modules/lightmapper_rd/lightmapper_rd.cpp
@@ -62,7 +62,7 @@ void LightmapperRD::add_directional_light(bool p_static, const Vector3 &p_direct
l.color[2] = p_color.b;
l.energy = p_energy;
l.static_bake = p_static;
- l.size = Math::tan(Math::deg2rad(p_angular_distance));
+ l.size = Math::tan(Math::deg_to_rad(p_angular_distance));
l.shadow_blur = p_shadow_blur;
lights.push_back(l);
}
@@ -96,7 +96,7 @@ void LightmapperRD::add_spot_light(bool p_static, const Vector3 &p_position, con
l.direction[2] = p_direction.z;
l.range = p_range;
l.attenuation = p_attenuation;
- l.cos_spot_angle = Math::cos(Math::deg2rad(p_spot_angle));
+ l.cos_spot_angle = Math::cos(Math::deg_to_rad(p_spot_angle));
l.inv_spot_attenuation = 1.0f / p_spot_attenuation;
l.color[0] = p_color.r;
l.color[1] = p_color.g;
diff --git a/modules/mono/glue/GodotSharp/GodotSharp/Core/DelegateUtils.cs b/modules/mono/glue/GodotSharp/GodotSharp/Core/DelegateUtils.cs
index 266038a0afb..3c75d189438 100644
--- a/modules/mono/glue/GodotSharp/GodotSharp/Core/DelegateUtils.cs
+++ b/modules/mono/glue/GodotSharp/GodotSharp/Core/DelegateUtils.cs
@@ -181,9 +181,9 @@ namespace Godot
if (variantType == Variant.Type.Nil)
return false;
- static byte[] Var2Bytes(in godot_variant var)
+ static byte[] VarToBytes(in godot_variant var)
{
- NativeFuncs.godotsharp_var2bytes(var, false.ToGodotBool(), out var varBytes);
+ NativeFuncs.godotsharp_var_to_bytes(var, false.ToGodotBool(), out var varBytes);
using (varBytes)
return Marshaling.ConvertNativePackedByteArrayToSystemArray(varBytes);
}
@@ -192,7 +192,7 @@ namespace Godot
var fieldValue = field.GetValue(target);
using var fieldValueVariant = Marshaling.ConvertManagedObjectToVariant(fieldValue);
- byte[] valueBuffer = Var2Bytes(fieldValueVariant);
+ byte[] valueBuffer = VarToBytes(fieldValueVariant);
writer.Write(valueBuffer.Length);
writer.Write(valueBuffer);
}
@@ -448,7 +448,7 @@ namespace Godot
FieldInfo? fieldInfo = targetType.GetField(name,
BindingFlags.Instance | BindingFlags.Public);
- fieldInfo?.SetValue(recreatedTarget, GD.Bytes2Var(valueBuffer));
+ fieldInfo?.SetValue(recreatedTarget, GD.BytesToVar(valueBuffer));
}
@delegate = Delegate.CreateDelegate(delegateType, recreatedTarget, methodInfo,
diff --git a/modules/mono/glue/GodotSharp/GodotSharp/Core/GD.cs b/modules/mono/glue/GodotSharp/GodotSharp/Core/GD.cs
index 9e7da7757a8..e4b79e7ec43 100644
--- a/modules/mono/glue/GodotSharp/GodotSharp/Core/GD.cs
+++ b/modules/mono/glue/GodotSharp/GodotSharp/Core/GD.cs
@@ -21,10 +21,10 @@ namespace Godot
/// Byte array that will be decoded to a Variant.
/// If objects should be decoded.
/// The decoded Variant.
- public static Variant Bytes2Var(Span bytes, bool allowObjects = false)
+ public static Variant BytesToVar(Span bytes, bool allowObjects = false)
{
using var varBytes = Marshaling.ConvertSystemArrayToNativePackedByteArray(bytes);
- NativeFuncs.godotsharp_bytes2var(varBytes, allowObjects.ToGodotBool(), out godot_variant ret);
+ NativeFuncs.godotsharp_bytes_to_var(varBytes, allowObjects.ToGodotBool(), out godot_variant ret);
return Variant.CreateTakingOwnershipOfDisposableValue(ret);
}
@@ -52,10 +52,10 @@ namespace Godot
///
/// Converts from decibels to linear energy (audio).
///
- ///
+ ///
/// Decibels to convert.
/// Audio volume as linear energy.
- public static real_t Db2Linear(real_t db)
+ public static real_t DbToLinear(real_t db)
{
return (real_t)Math.Exp(db * 0.11512925464970228420089957273422);
}
@@ -115,18 +115,18 @@ namespace Godot
/// Converts from linear energy to decibels (audio).
/// This can be used to implement volume sliders that behave as expected (since volume isn't linear).
///
- ///
+ ///
///
///
/// // "slider" refers to a node that inherits Range such as HSlider or VSlider.
/// // Its range must be configured to go from 0 to 1.
/// // Change the bus name if you'd like to change the volume of a specific bus only.
- /// AudioServer.SetBusVolumeDb(AudioServer.GetBusIndex("Master"), GD.Linear2Db(slider.value));
+ /// AudioServer.SetBusVolumeDb(AudioServer.GetBusIndex("Master"), GD.LinearToDb(slider.value));
///
///
/// The linear energy to convert.
/// Audio as decibels.
- public static real_t Linear2Db(real_t linear)
+ public static real_t LinearToDb(real_t linear)
{
return (real_t)(Math.Log(linear) * 8.6858896380650365530225783783321);
}
@@ -518,21 +518,21 @@ namespace Godot
}
///
- /// Converts a formatted string that was returned by to the original value.
+ /// Converts a formatted string that was returned by to the original value.
///
///
///
/// string a = "{\"a\": 1, \"b\": 2 }";
- /// var b = (Godot.Collections.Dictionary)GD.Str2Var(a);
+ /// var b = (Godot.Collections.Dictionary)GD.StrToVar(a);
/// GD.Print(b["a"]); // Prints 1
///
///
/// String that will be converted to Variant.
/// The decoded Variant.
- public static Variant Str2Var(string str)
+ public static Variant StrToVar(string str)
{
using var godotStr = Marshaling.ConvertStringToNative(str);
- NativeFuncs.godotsharp_str2var(godotStr, out godot_variant ret);
+ NativeFuncs.godotsharp_str_to_var(godotStr, out godot_variant ret);
return Variant.CreateTakingOwnershipOfDisposableValue(ret);
}
@@ -540,26 +540,26 @@ namespace Godot
/// Encodes a Variant value to a byte array.
/// If is encoding objects is allowed
/// (and can potentially include code).
- /// Deserialization can be done with .
+ /// Deserialization can be done with .
///
/// Variant that will be encoded.
/// If objects should be serialized.
/// The Variant encoded as an array of bytes.
- public static byte[] Var2Bytes(Variant var, bool fullObjects = false)
+ public static byte[] VarToBytes(Variant var, bool fullObjects = false)
{
- NativeFuncs.godotsharp_var2bytes((godot_variant)var.NativeVar, fullObjects.ToGodotBool(), out var varBytes);
+ NativeFuncs.godotsharp_var_to_bytes((godot_variant)var.NativeVar, fullObjects.ToGodotBool(), out var varBytes);
using (varBytes)
return Marshaling.ConvertNativePackedByteArrayToSystemArray(varBytes);
}
///
/// Converts a Variant to a formatted string that
- /// can later be parsed using .
+ /// can later be parsed using .
///
///
///
/// var a = new Godot.Collections.Dictionary { ["a"] = 1, ["b"] = 2 };
- /// GD.Print(GD.Var2Str(a));
+ /// GD.Print(GD.VarToStr(a));
/// // Prints
/// // {
/// // "a": 1,
@@ -569,9 +569,9 @@ namespace Godot
///
/// Variant that will be converted to string.
/// The Variant encoded as a string.
- public static string Var2Str(Variant var)
+ public static string VarToStr(Variant var)
{
- NativeFuncs.godotsharp_var2str((godot_variant)var.NativeVar, out godot_string ret);
+ NativeFuncs.godotsharp_var_to_str((godot_variant)var.NativeVar, out godot_string ret);
using (ret)
return Marshaling.ConvertStringToManaged(ret);
}
diff --git a/modules/mono/glue/GodotSharp/GodotSharp/Core/Mathf.cs b/modules/mono/glue/GodotSharp/GodotSharp/Core/Mathf.cs
index 41a0dd871c1..00e775e6adc 100644
--- a/modules/mono/glue/GodotSharp/GodotSharp/Core/Mathf.cs
+++ b/modules/mono/glue/GodotSharp/GodotSharp/Core/Mathf.cs
@@ -35,9 +35,9 @@ namespace Godot
public const real_t NaN = real_t.NaN;
// 0.0174532924f and 0.0174532925199433
- private const real_t _deg2RadConst = (real_t)0.0174532925199432957692369077M;
+ private const real_t _degToRadConst = (real_t)0.0174532925199432957692369077M;
// 57.29578f and 57.2957795130823
- private const real_t _rad2DegConst = (real_t)57.295779513082320876798154814M;
+ private const real_t _radToDegConst = (real_t)57.295779513082320876798154814M;
///
/// Returns the absolute value of (i.e. positive value).
@@ -219,9 +219,9 @@ namespace Godot
///
/// An angle expressed in degrees.
/// The same angle expressed in radians.
- public static real_t Deg2Rad(real_t deg)
+ public static real_t DegToRad(real_t deg)
{
- return deg * _deg2RadConst;
+ return deg * _degToRadConst;
}
///
@@ -531,9 +531,9 @@ namespace Godot
///
/// An angle expressed in radians.
/// The same angle expressed in degrees.
- public static real_t Rad2Deg(real_t rad)
+ public static real_t RadToDeg(real_t rad)
{
- return rad * _rad2DegConst;
+ return rad * _radToDegConst;
}
///
diff --git a/modules/mono/glue/GodotSharp/GodotSharp/Core/NativeInterop/NativeFuncs.cs b/modules/mono/glue/GodotSharp/GodotSharp/Core/NativeInterop/NativeFuncs.cs
index 6d2534e6f70..48c1b48c591 100644
--- a/modules/mono/glue/GodotSharp/GodotSharp/Core/NativeInterop/NativeFuncs.cs
+++ b/modules/mono/glue/GodotSharp/GodotSharp/Core/NativeInterop/NativeFuncs.cs
@@ -461,7 +461,7 @@ namespace Godot.NativeInterop
// GD, etc
- internal static partial void godotsharp_bytes2var(in godot_packed_byte_array p_bytes,
+ internal static partial void godotsharp_bytes_to_var(in godot_packed_byte_array p_bytes,
godot_bool p_allow_objects,
out godot_variant r_ret);
@@ -504,12 +504,12 @@ namespace Godot.NativeInterop
internal static partial void godotsharp_str(in godot_array p_what, out godot_string r_ret);
- internal static partial void godotsharp_str2var(in godot_string p_str, out godot_variant r_ret);
+ internal static partial void godotsharp_str_to_var(in godot_string p_str, out godot_variant r_ret);
- internal static partial void godotsharp_var2bytes(in godot_variant p_what, godot_bool p_full_objects,
+ internal static partial void godotsharp_var_to_bytes(in godot_variant p_what, godot_bool p_full_objects,
out godot_packed_byte_array r_bytes);
- internal static partial void godotsharp_var2str(in godot_variant p_var, out godot_string r_ret);
+ internal static partial void godotsharp_var_to_str(in godot_variant p_var, out godot_string r_ret);
internal static partial void godotsharp_pusherror(in godot_string p_str);
diff --git a/modules/mono/glue/GodotSharp/GodotSharp/Core/Projection.cs b/modules/mono/glue/GodotSharp/GodotSharp/Core/Projection.cs
index d62cb6b0fa8..c17bdde1fe6 100644
--- a/modules/mono/glue/GodotSharp/GodotSharp/Core/Projection.cs
+++ b/modules/mono/glue/GodotSharp/GodotSharp/Core/Projection.cs
@@ -226,7 +226,7 @@ namespace Godot
{
fovyDegrees = GetFovy(fovyDegrees, (real_t)1.0 / aspect);
}
- real_t radians = Mathf.Deg2Rad(fovyDegrees / (real_t)2.0);
+ real_t radians = Mathf.DegToRad(fovyDegrees / (real_t)2.0);
real_t deltaZ = zFar - zNear;
real_t sine = Mathf.Sin(radians);
@@ -256,7 +256,7 @@ namespace Godot
fovyDegrees = GetFovy(fovyDegrees, (real_t)1.0 / aspect);
}
- real_t ymax = zNear * Mathf.Tan(Mathf.Deg2Rad(fovyDegrees / (real_t)2.0));
+ real_t ymax = zNear * Mathf.Tan(Mathf.DegToRad(fovyDegrees / (real_t)2.0));
real_t xmax = ymax * aspect;
real_t frustumshift = (intraocularDist / (real_t)2.0) * zNear / convergenceDist;
real_t left;
@@ -313,18 +313,18 @@ namespace Godot
Plane rightPlane = new Plane(x.w - x.x, y.w - y.x, z.w - z.x, -w.w + w.x).Normalized();
if (z.x == 0 && z.y == 0)
{
- return Mathf.Rad2Deg(Mathf.Acos(Mathf.Abs(rightPlane.Normal.x))) * (real_t)2.0;
+ return Mathf.RadToDeg(Mathf.Acos(Mathf.Abs(rightPlane.Normal.x))) * (real_t)2.0;
}
else
{
Plane leftPlane = new Plane(x.w + x.x, y.w + y.x, z.w + z.x, w.w + w.x).Normalized();
- return Mathf.Rad2Deg(Mathf.Acos(Mathf.Abs(leftPlane.Normal.x))) + Mathf.Rad2Deg(Mathf.Acos(Mathf.Abs(rightPlane.Normal.x)));
+ return Mathf.RadToDeg(Mathf.Acos(Mathf.Abs(leftPlane.Normal.x))) + Mathf.RadToDeg(Mathf.Acos(Mathf.Abs(rightPlane.Normal.x)));
}
}
public static real_t GetFovy(real_t fovx, real_t aspect)
{
- return Mathf.Rad2Deg(Mathf.Atan(aspect * Mathf.Tan(Mathf.Deg2Rad(fovx) * (real_t)0.5)) * (real_t)2.0);
+ return Mathf.RadToDeg(Mathf.Atan(aspect * Mathf.Tan(Mathf.DegToRad(fovx) * (real_t)0.5)) * (real_t)2.0);
}
public real_t GetLodMultiplier()
diff --git a/modules/mono/glue/runtime_interop.cpp b/modules/mono/glue/runtime_interop.cpp
index 13d4395a64f..0d68cb54b98 100644
--- a/modules/mono/glue/runtime_interop.cpp
+++ b/modules/mono/glue/runtime_interop.cpp
@@ -1233,13 +1233,13 @@ void godotsharp_pushwarning(const godot_string *p_str) {
WARN_PRINT(*reinterpret_cast(p_str));
}
-void godotsharp_var2str(const godot_variant *p_var, godot_string *r_ret) {
+void godotsharp_var_to_str(const godot_variant *p_var, godot_string *r_ret) {
const Variant &var = *reinterpret_cast(p_var);
String &vars = *memnew_placement(r_ret, String);
VariantWriter::write_to_string(var, vars);
}
-void godotsharp_str2var(const godot_string *p_str, godot_variant *r_ret) {
+void godotsharp_str_to_var(const godot_string *p_str, godot_variant *r_ret) {
Variant ret;
VariantParser::StreamString ss;
@@ -1256,7 +1256,7 @@ void godotsharp_str2var(const godot_string *p_str, godot_variant *r_ret) {
memnew_placement(r_ret, Variant(ret));
}
-void godotsharp_var2bytes(const godot_variant *p_var, bool p_full_objects, godot_packed_array *r_bytes) {
+void godotsharp_var_to_bytes(const godot_variant *p_var, bool p_full_objects, godot_packed_array *r_bytes) {
const Variant &var = *reinterpret_cast(p_var);
PackedByteArray &bytes = *memnew_placement(r_bytes, PackedByteArray);
@@ -1268,7 +1268,7 @@ void godotsharp_var2bytes(const godot_variant *p_var, bool p_full_objects, godot
encode_variant(var, bytes.ptrw(), len, p_full_objects);
}
-void godotsharp_bytes2var(const godot_packed_array *p_bytes, bool p_allow_objects, godot_variant *r_ret) {
+void godotsharp_bytes_to_var(const godot_packed_array *p_bytes, bool p_allow_objects, godot_variant *r_ret) {
const PackedByteArray *bytes = reinterpret_cast(p_bytes);
Variant ret;
Error err = decode_variant(ret, bytes->ptr(), bytes->size(), nullptr, p_allow_objects);
@@ -1479,7 +1479,7 @@ static const void *unmanaged_callbacks[]{
(void *)godotsharp_node_path_get_subname,
(void *)godotsharp_node_path_get_subname_count,
(void *)godotsharp_node_path_is_absolute,
- (void *)godotsharp_bytes2var,
+ (void *)godotsharp_bytes_to_var,
(void *)godotsharp_convert,
(void *)godotsharp_hash,
(void *)godotsharp_instance_from_id,
@@ -1499,9 +1499,9 @@ static const void *unmanaged_callbacks[]{
(void *)godotsharp_seed,
(void *)godotsharp_weakref,
(void *)godotsharp_str,
- (void *)godotsharp_str2var,
- (void *)godotsharp_var2bytes,
- (void *)godotsharp_var2str,
+ (void *)godotsharp_str_to_var,
+ (void *)godotsharp_var_to_bytes,
+ (void *)godotsharp_var_to_str,
(void *)godotsharp_pusherror,
(void *)godotsharp_pushwarning,
(void *)godotsharp_object_to_string,
diff --git a/scene/2d/audio_stream_player_2d.cpp b/scene/2d/audio_stream_player_2d.cpp
index fa495520852..fc019b6cf9b 100644
--- a/scene/2d/audio_stream_player_2d.cpp
+++ b/scene/2d/audio_stream_player_2d.cpp
@@ -185,7 +185,7 @@ void AudioStreamPlayer2D::_update_panning() {
}
float multiplier = Math::pow(1.0f - dist / max_distance, attenuation);
- multiplier *= Math::db2linear(volume_db); //also apply player volume!
+ multiplier *= Math::db_to_linear(volume_db); //also apply player volume!
float pan = relative_to_listener.x / screen_size.x;
// Don't let the panning effect extend (too far) beyond the screen.
diff --git a/scene/2d/cpu_particles_2d.cpp b/scene/2d/cpu_particles_2d.cpp
index 40f74d3f507..f68bebe2f4d 100644
--- a/scene/2d/cpu_particles_2d.cpp
+++ b/scene/2d/cpu_particles_2d.cpp
@@ -745,12 +745,12 @@ void CPUParticles2D::_particles_process(double p_delta) {
p.start_color_rand = Color(1, 1, 1, 1);
}
- real_t angle1_rad = direction.angle() + Math::deg2rad((Math::randf() * 2.0 - 1.0) * spread);
+ real_t angle1_rad = direction.angle() + Math::deg_to_rad((Math::randf() * 2.0 - 1.0) * spread);
Vector2 rot = Vector2(Math::cos(angle1_rad), Math::sin(angle1_rad));
p.velocity = rot * Math::lerp(parameters_min[PARAM_INITIAL_LINEAR_VELOCITY], parameters_max[PARAM_INITIAL_LINEAR_VELOCITY], (real_t)Math::randf());
real_t base_angle = tex_angle * Math::lerp(parameters_min[PARAM_ANGLE], parameters_max[PARAM_ANGLE], p.angle_rand);
- p.rotation = Math::deg2rad(base_angle);
+ p.rotation = Math::deg_to_rad(base_angle);
p.custom[0] = 0.0; // unused
p.custom[1] = 0.0; // phase [0..1]
@@ -912,7 +912,7 @@ void CPUParticles2D::_particles_process(double p_delta) {
}
real_t base_angle = (tex_angle)*Math::lerp(parameters_min[PARAM_ANGLE], parameters_max[PARAM_ANGLE], p.angle_rand);
base_angle += p.custom[1] * lifetime * tex_angular_velocity * Math::lerp(parameters_min[PARAM_ANGULAR_VELOCITY], parameters_max[PARAM_ANGULAR_VELOCITY], rand_from_seed(alt_seed));
- p.rotation = Math::deg2rad(base_angle); //angle
+ p.rotation = Math::deg_to_rad(base_angle); //angle
p.custom[2] = tex_anim_offset * Math::lerp(parameters_min[PARAM_ANIM_OFFSET], parameters_max[PARAM_ANIM_OFFSET], p.anim_offset_rand) + tv * tex_anim_speed * Math::lerp(parameters_min[PARAM_ANIM_SPEED], parameters_max[PARAM_ANIM_SPEED], rand_from_seed(alt_seed));
}
//apply color
diff --git a/scene/2d/physics_body_2d.h b/scene/2d/physics_body_2d.h
index fe64c087c66..08c300c9bc9 100644
--- a/scene/2d/physics_body_2d.h
+++ b/scene/2d/physics_body_2d.h
@@ -373,9 +373,9 @@ private:
bool slide_on_ceiling = true;
int max_slides = 4;
int platform_layer = 0;
- real_t floor_max_angle = Math::deg2rad((real_t)45.0);
+ real_t floor_max_angle = Math::deg_to_rad((real_t)45.0);
real_t floor_snap_length = 1;
- real_t wall_min_slide_angle = Math::deg2rad((real_t)15.0);
+ real_t wall_min_slide_angle = Math::deg_to_rad((real_t)15.0);
Vector2 up_direction = Vector2(0.0, -1.0);
uint32_t platform_floor_layers = UINT32_MAX;
uint32_t platform_wall_layers = 0;
diff --git a/scene/2d/skeleton_2d.cpp b/scene/2d/skeleton_2d.cpp
index cbacb7f5796..13a32fbfd47 100644
--- a/scene/2d/skeleton_2d.cpp
+++ b/scene/2d/skeleton_2d.cpp
@@ -44,7 +44,7 @@ bool Bone2D::_set(const StringName &p_path, const Variant &p_value) {
} else if (path.begins_with("length")) {
set_length(p_value);
} else if (path.begins_with("bone_angle")) {
- set_bone_angle(Math::deg2rad(real_t(p_value)));
+ set_bone_angle(Math::deg_to_rad(real_t(p_value)));
} else if (path.begins_with("default_length")) {
set_length(p_value);
}
@@ -66,7 +66,7 @@ bool Bone2D::_get(const StringName &p_path, Variant &r_ret) const {
} else if (path.begins_with("length")) {
r_ret = get_length();
} else if (path.begins_with("bone_angle")) {
- r_ret = Math::rad2deg(get_bone_angle());
+ r_ret = Math::rad_to_deg(get_bone_angle());
} else if (path.begins_with("default_length")) {
r_ret = get_length();
}
diff --git a/scene/3d/audio_stream_player_3d.cpp b/scene/3d/audio_stream_player_3d.cpp
index 93e91f9b5bc..0e7b71f74a5 100644
--- a/scene/3d/audio_stream_player_3d.cpp
+++ b/scene/3d/audio_stream_player_3d.cpp
@@ -149,7 +149,7 @@ void AudioStreamPlayer3D::_calc_reverb_vol(Area3D *area, Vector3 listener_area_p
if (uniformity > 0.0) {
float distance = listener_area_pos.length();
- float attenuation = Math::db2linear(_get_attenuation_db(distance));
+ float attenuation = Math::db_to_linear(_get_attenuation_db(distance));
// Determine the fraction of sound that would come from each speaker if they were all driven uniformly.
float center_val[3] = { 0.5f, 0.25f, 0.16666f };
@@ -213,12 +213,12 @@ float AudioStreamPlayer3D::_get_attenuation_db(float p_distance) const {
float att = 0;
switch (attenuation_model) {
case ATTENUATION_INVERSE_DISTANCE: {
- att = Math::linear2db(1.0 / ((p_distance / unit_size) + CMP_EPSILON));
+ att = Math::linear_to_db(1.0 / ((p_distance / unit_size) + CMP_EPSILON));
} break;
case ATTENUATION_INVERSE_SQUARE_DISTANCE: {
float d = (p_distance / unit_size);
d *= d;
- att = Math::linear2db(1.0 / (d + CMP_EPSILON));
+ att = Math::linear_to_db(1.0 / (d + CMP_EPSILON));
} break;
case ATTENUATION_LOGARITHMIC: {
att = -20 * Math::log(p_distance / unit_size + CMP_EPSILON);
@@ -443,7 +443,7 @@ Vector AudioStreamPlayer3D::_update_panning() {
}
}
- float multiplier = Math::db2linear(_get_attenuation_db(dist));
+ float multiplier = Math::db_to_linear(_get_attenuation_db(dist));
if (max_distance > 0) {
multiplier *= MAX(0, 1.0 - (dist / max_distance));
}
@@ -453,13 +453,13 @@ Vector AudioStreamPlayer3D::_update_panning() {
if (emission_angle_enabled) {
Vector3 listenertopos = global_pos - listener_node->get_global_transform().origin;
float c = listenertopos.normalized().dot(get_global_transform().basis.get_column(2).normalized()); //it's z negative
- float angle = Math::rad2deg(Math::acos(c));
+ float angle = Math::rad_to_deg(Math::acos(c));
if (angle > emission_angle) {
db_att -= -emission_angle_filter_attenuation_db;
}
}
- linear_attenuation = Math::db2linear(db_att);
+ linear_attenuation = Math::db_to_linear(db_att);
for (Ref &playback : stream_playbacks) {
AudioServer::get_singleton()->set_playback_highshelf_params(playback, linear_attenuation, attenuation_filter_cutoff_hz);
}
diff --git a/scene/3d/cpu_particles_3d.cpp b/scene/3d/cpu_particles_3d.cpp
index a79fd15b1a9..b28a0c29fb1 100644
--- a/scene/3d/cpu_particles_3d.cpp
+++ b/scene/3d/cpu_particles_3d.cpp
@@ -766,13 +766,13 @@ void CPUParticles3D::_particles_process(double p_delta) {
}
if (particle_flags[PARTICLE_FLAG_DISABLE_Z]) {
- real_t angle1_rad = Math::atan2(direction.y, direction.x) + Math::deg2rad((Math::randf() * 2.0 - 1.0) * spread);
+ real_t angle1_rad = Math::atan2(direction.y, direction.x) + Math::deg_to_rad((Math::randf() * 2.0 - 1.0) * spread);
Vector3 rot = Vector3(Math::cos(angle1_rad), Math::sin(angle1_rad), 0.0);
p.velocity = rot * Math::lerp(parameters_min[PARAM_INITIAL_LINEAR_VELOCITY], parameters_max[PARAM_INITIAL_LINEAR_VELOCITY], (real_t)Math::randf());
} else {
//initiate velocity spread in 3D
- real_t angle1_rad = Math::deg2rad((Math::randf() * (real_t)2.0 - (real_t)1.0) * spread);
- real_t angle2_rad = Math::deg2rad((Math::randf() * (real_t)2.0 - (real_t)1.0) * ((real_t)1.0 - flatness) * spread);
+ real_t angle1_rad = Math::deg_to_rad((Math::randf() * (real_t)2.0 - (real_t)1.0) * spread);
+ real_t angle2_rad = Math::deg_to_rad((Math::randf() * (real_t)2.0 - (real_t)1.0) * ((real_t)1.0 - flatness) * spread);
Vector3 direction_xz = Vector3(Math::sin(angle1_rad), 0, Math::cos(angle1_rad));
Vector3 direction_yz = Vector3(0, Math::sin(angle2_rad), Math::cos(angle2_rad));
@@ -796,7 +796,7 @@ void CPUParticles3D::_particles_process(double p_delta) {
}
real_t base_angle = tex_angle * Math::lerp(parameters_min[PARAM_ANGLE], parameters_max[PARAM_ANGLE], p.angle_rand);
- p.custom[0] = Math::deg2rad(base_angle); //angle
+ p.custom[0] = Math::deg_to_rad(base_angle); //angle
p.custom[1] = 0.0; //phase
p.custom[2] = tex_anim_offset * Math::lerp(parameters_min[PARAM_ANIM_OFFSET], parameters_max[PARAM_ANIM_OFFSET], p.anim_offset_rand); //animation offset (0-1)
p.transform = Transform3D();
@@ -1007,7 +1007,7 @@ void CPUParticles3D::_particles_process(double p_delta) {
}
real_t base_angle = (tex_angle)*Math::lerp(parameters_min[PARAM_ANGLE], parameters_max[PARAM_ANGLE], p.angle_rand);
base_angle += p.custom[1] * lifetime * tex_angular_velocity * Math::lerp(parameters_min[PARAM_ANGULAR_VELOCITY], parameters_max[PARAM_ANGULAR_VELOCITY], rand_from_seed(alt_seed));
- p.custom[0] = Math::deg2rad(base_angle); //angle
+ p.custom[0] = Math::deg_to_rad(base_angle); //angle
p.custom[2] = tex_anim_offset * Math::lerp(parameters_min[PARAM_ANIM_OFFSET], parameters_max[PARAM_ANIM_OFFSET], p.anim_offset_rand) + tv * tex_anim_speed * Math::lerp(parameters_min[PARAM_ANIM_SPEED], parameters_max[PARAM_ANIM_SPEED], rand_from_seed(alt_seed)); //angle
}
//apply color
diff --git a/scene/3d/light_3d.cpp b/scene/3d/light_3d.cpp
index 0581544e075..8d96d13f0c5 100644
--- a/scene/3d/light_3d.cpp
+++ b/scene/3d/light_3d.cpp
@@ -149,7 +149,7 @@ AABB Light3D::get_aabb() const {
} else if (type == RenderingServer::LIGHT_SPOT) {
real_t len = param[PARAM_RANGE];
- real_t size = Math::tan(Math::deg2rad(param[PARAM_SPOT_ANGLE])) * len;
+ real_t size = Math::tan(Math::deg_to_rad(param[PARAM_SPOT_ANGLE])) * len;
return AABB(Vector3(-size, -size, -len), Vector3(size * 2, size * 2, len));
}
diff --git a/scene/3d/physics_body_3d.cpp b/scene/3d/physics_body_3d.cpp
index c690b5d6ff2..e1499f93796 100644
--- a/scene/3d/physics_body_3d.cpp
+++ b/scene/3d/physics_body_3d.cpp
@@ -2284,13 +2284,13 @@ bool PhysicalBone3D::ConeJointData::_set(const StringName &p_name, const Variant
}
if ("joint_constraints/swing_span" == p_name) {
- swing_span = Math::deg2rad(real_t(p_value));
+ swing_span = Math::deg_to_rad(real_t(p_value));
if (j.is_valid()) {
PhysicsServer3D::get_singleton()->cone_twist_joint_set_param(j, PhysicsServer3D::CONE_TWIST_JOINT_SWING_SPAN, swing_span);
}
} else if ("joint_constraints/twist_span" == p_name) {
- twist_span = Math::deg2rad(real_t(p_value));
+ twist_span = Math::deg_to_rad(real_t(p_value));
if (j.is_valid()) {
PhysicsServer3D::get_singleton()->cone_twist_joint_set_param(j, PhysicsServer3D::CONE_TWIST_JOINT_TWIST_SPAN, twist_span);
}
@@ -2326,9 +2326,9 @@ bool PhysicalBone3D::ConeJointData::_get(const StringName &p_name, Variant &r_re
}
if ("joint_constraints/swing_span" == p_name) {
- r_ret = Math::rad2deg(swing_span);
+ r_ret = Math::rad_to_deg(swing_span);
} else if ("joint_constraints/twist_span" == p_name) {
- r_ret = Math::rad2deg(twist_span);
+ r_ret = Math::rad_to_deg(twist_span);
} else if ("joint_constraints/bias" == p_name) {
r_ret = bias;
} else if ("joint_constraints/softness" == p_name) {
@@ -2364,13 +2364,13 @@ bool PhysicalBone3D::HingeJointData::_set(const StringName &p_name, const Varian
}
} else if ("joint_constraints/angular_limit_upper" == p_name) {
- angular_limit_upper = Math::deg2rad(real_t(p_value));
+ angular_limit_upper = Math::deg_to_rad(real_t(p_value));
if (j.is_valid()) {
PhysicsServer3D::get_singleton()->hinge_joint_set_param(j, PhysicsServer3D::HINGE_JOINT_LIMIT_UPPER, angular_limit_upper);
}
} else if ("joint_constraints/angular_limit_lower" == p_name) {
- angular_limit_lower = Math::deg2rad(real_t(p_value));
+ angular_limit_lower = Math::deg_to_rad(real_t(p_value));
if (j.is_valid()) {
PhysicsServer3D::get_singleton()->hinge_joint_set_param(j, PhysicsServer3D::HINGE_JOINT_LIMIT_LOWER, angular_limit_lower);
}
@@ -2408,9 +2408,9 @@ bool PhysicalBone3D::HingeJointData::_get(const StringName &p_name, Variant &r_r
if ("joint_constraints/angular_limit_enabled" == p_name) {
r_ret = angular_limit_enabled;
} else if ("joint_constraints/angular_limit_upper" == p_name) {
- r_ret = Math::rad2deg(angular_limit_upper);
+ r_ret = Math::rad_to_deg(angular_limit_upper);
} else if ("joint_constraints/angular_limit_lower" == p_name) {
- r_ret = Math::rad2deg(angular_limit_lower);
+ r_ret = Math::rad_to_deg(angular_limit_lower);
} else if ("joint_constraints/angular_limit_bias" == p_name) {
r_ret = angular_limit_bias;
} else if ("joint_constraints/angular_limit_softness" == p_name) {
@@ -2471,13 +2471,13 @@ bool PhysicalBone3D::SliderJointData::_set(const StringName &p_name, const Varia
}
} else if ("joint_constraints/angular_limit_upper" == p_name) {
- angular_limit_upper = Math::deg2rad(real_t(p_value));
+ angular_limit_upper = Math::deg_to_rad(real_t(p_value));
if (j.is_valid()) {
PhysicsServer3D::get_singleton()->slider_joint_set_param(j, PhysicsServer3D::SLIDER_JOINT_ANGULAR_LIMIT_UPPER, angular_limit_upper);
}
} else if ("joint_constraints/angular_limit_lower" == p_name) {
- angular_limit_lower = Math::deg2rad(real_t(p_value));
+ angular_limit_lower = Math::deg_to_rad(real_t(p_value));
if (j.is_valid()) {
PhysicsServer3D::get_singleton()->slider_joint_set_param(j, PhysicsServer3D::SLIDER_JOINT_ANGULAR_LIMIT_LOWER, angular_limit_lower);
}
@@ -2523,9 +2523,9 @@ bool PhysicalBone3D::SliderJointData::_get(const StringName &p_name, Variant &r_
} else if ("joint_constraints/linear_limit_damping" == p_name) {
r_ret = linear_limit_damping;
} else if ("joint_constraints/angular_limit_upper" == p_name) {
- r_ret = Math::rad2deg(angular_limit_upper);
+ r_ret = Math::rad_to_deg(angular_limit_upper);
} else if ("joint_constraints/angular_limit_lower" == p_name) {
- r_ret = Math::rad2deg(angular_limit_lower);
+ r_ret = Math::rad_to_deg(angular_limit_lower);
} else if ("joint_constraints/angular_limit_softness" == p_name) {
r_ret = angular_limit_softness;
} else if ("joint_constraints/angular_limit_restitution" == p_name) {
@@ -2649,13 +2649,13 @@ bool PhysicalBone3D::SixDOFJointData::_set(const StringName &p_name, const Varia
}
} else if ("angular_limit_upper" == var_name) {
- axis_data[axis].angular_limit_upper = Math::deg2rad(real_t(p_value));
+ axis_data[axis].angular_limit_upper = Math::deg_to_rad(real_t(p_value));
if (j.is_valid()) {
PhysicsServer3D::get_singleton()->generic_6dof_joint_set_param(j, axis, PhysicsServer3D::G6DOF_JOINT_ANGULAR_UPPER_LIMIT, axis_data[axis].angular_limit_upper);
}
} else if ("angular_limit_lower" == var_name) {
- axis_data[axis].angular_limit_lower = Math::deg2rad(real_t(p_value));
+ axis_data[axis].angular_limit_lower = Math::deg_to_rad(real_t(p_value));
if (j.is_valid()) {
PhysicsServer3D::get_singleton()->generic_6dof_joint_set_param(j, axis, PhysicsServer3D::G6DOF_JOINT_ANGULAR_LOWER_LIMIT, axis_data[axis].angular_limit_lower);
}
@@ -2765,9 +2765,9 @@ bool PhysicalBone3D::SixDOFJointData::_get(const StringName &p_name, Variant &r_
} else if ("angular_limit_enabled" == var_name) {
r_ret = axis_data[axis].angular_limit_enabled;
} else if ("angular_limit_upper" == var_name) {
- r_ret = Math::rad2deg(axis_data[axis].angular_limit_upper);
+ r_ret = Math::rad_to_deg(axis_data[axis].angular_limit_upper);
} else if ("angular_limit_lower" == var_name) {
- r_ret = Math::rad2deg(axis_data[axis].angular_limit_lower);
+ r_ret = Math::rad_to_deg(axis_data[axis].angular_limit_lower);
} else if ("angular_limit_softness" == var_name) {
r_ret = axis_data[axis].angular_limit_softness;
} else if ("angular_restitution" == var_name) {
diff --git a/scene/3d/physics_body_3d.h b/scene/3d/physics_body_3d.h
index 14a1cf7228e..8126d2b5375 100644
--- a/scene/3d/physics_body_3d.h
+++ b/scene/3d/physics_body_3d.h
@@ -414,8 +414,8 @@ private:
uint32_t platform_floor_layers = UINT32_MAX;
uint32_t platform_wall_layers = 0;
real_t floor_snap_length = 0.1;
- real_t floor_max_angle = Math::deg2rad((real_t)45.0);
- real_t wall_min_slide_angle = Math::deg2rad((real_t)15.0);
+ real_t floor_max_angle = Math::deg_to_rad((real_t)45.0);
+ real_t wall_min_slide_angle = Math::deg_to_rad((real_t)15.0);
Vector3 up_direction = Vector3(0.0, 1.0, 0.0);
Vector3 velocity;
Vector3 floor_normal;
diff --git a/scene/animation/animation_player.cpp b/scene/animation/animation_player.cpp
index 48626ccc1bb..0e2598cbc7c 100644
--- a/scene/animation/animation_player.cpp
+++ b/scene/animation/animation_player.cpp
@@ -1151,7 +1151,7 @@ void AnimationPlayer::_animation_update_transforms() {
}
#endif
- static_cast(pa->object)->set_rotation(Math::deg2rad((double)pa->value_accum));
+ static_cast(pa->object)->set_rotation(Math::deg_to_rad((double)pa->value_accum));
} break;
case SP_NODE2D_SCALE: {
#ifdef DEBUG_ENABLED
diff --git a/scene/animation/animation_tree.cpp b/scene/animation/animation_tree.cpp
index 7dbe892299f..ee552e695e0 100644
--- a/scene/animation/animation_tree.cpp
+++ b/scene/animation/animation_tree.cpp
@@ -1528,7 +1528,7 @@ void AnimationTree::_process_graph(double p_delta) {
}
}
- real_t db = Math::linear2db(MAX(blend, 0.00001));
+ real_t db = Math::linear_to_db(MAX(blend, 0.00001));
if (t->object->has_method(SNAME("set_unit_db"))) {
t->object->call(SNAME("set_unit_db"), db);
} else {
diff --git a/scene/audio/audio_stream_player.cpp b/scene/audio/audio_stream_player.cpp
index 7c85b650bf3..04feb0dc6f5 100644
--- a/scene/audio/audio_stream_player.cpp
+++ b/scene/audio/audio_stream_player.cpp
@@ -256,7 +256,7 @@ Vector AudioStreamPlayer::_get_volume_vector() {
channel_volume_db = AudioFrame(0, 0);
}
- float volume_linear = Math::db2linear(volume_db);
+ float volume_linear = Math::db_to_linear(volume_db);
// Set the volume vector up according to the speaker mode and mix target.
// TODO do we need to scale the volume down when we output to more channels?
diff --git a/scene/gui/video_stream_player.cpp b/scene/gui/video_stream_player.cpp
index 7baa4d44aa3..4024d4c80e3 100644
--- a/scene/gui/video_stream_player.cpp
+++ b/scene/gui/video_stream_player.cpp
@@ -362,7 +362,7 @@ void VideoStreamPlayer::set_volume_db(float p_db) {
if (p_db < -79) {
set_volume(0);
} else {
- set_volume(Math::db2linear(p_db));
+ set_volume(Math::db_to_linear(p_db));
}
}
@@ -370,7 +370,7 @@ float VideoStreamPlayer::get_volume_db() const {
if (volume == 0) {
return -80;
} else {
- return Math::linear2db(volume);
+ return Math::linear_to_db(volume);
}
}
diff --git a/scene/resources/capsule_shape_3d.cpp b/scene/resources/capsule_shape_3d.cpp
index 214004824f2..b0454004a0b 100644
--- a/scene/resources/capsule_shape_3d.cpp
+++ b/scene/resources/capsule_shape_3d.cpp
@@ -40,8 +40,8 @@ Vector CapsuleShape3D::get_debug_mesh_lines() const {
Vector3 d(0, height * 0.5 - radius, 0);
for (int i = 0; i < 360; i++) {
- float ra = Math::deg2rad((float)i);
- float rb = Math::deg2rad((float)i + 1);
+ float ra = Math::deg_to_rad((float)i);
+ float rb = Math::deg_to_rad((float)i + 1);
Point2 a = Vector2(Math::sin(ra), Math::cos(ra)) * radius;
Point2 b = Vector2(Math::sin(rb), Math::cos(rb)) * radius;
diff --git a/scene/resources/curve.cpp b/scene/resources/curve.cpp
index 18356042855..ee535785179 100644
--- a/scene/resources/curve.cpp
+++ b/scene/resources/curve.cpp
@@ -763,7 +763,7 @@ void Curve2D::_bake_segment2d(RBMap &r_bake, real_t p_begin, re
Vector2 nb = (end - mid).normalized();
real_t dp = na.dot(nb);
- if (dp < Math::cos(Math::deg2rad(p_tol))) {
+ if (dp < Math::cos(Math::deg_to_rad(p_tol))) {
r_bake[mp] = mid;
}
@@ -1352,7 +1352,7 @@ void Curve3D::_bake_segment3d(RBMap &r_bake, real_t p_begin, re
Vector3 nb = (end - mid).normalized();
real_t dp = na.dot(nb);
- if (dp < Math::cos(Math::deg2rad(p_tol))) {
+ if (dp < Math::cos(Math::deg_to_rad(p_tol))) {
r_bake[mp] = mid;
}
if (p_depth < p_max_depth) {
diff --git a/scene/resources/cylinder_shape_3d.cpp b/scene/resources/cylinder_shape_3d.cpp
index 345df5ffed3..a5951db8ea4 100644
--- a/scene/resources/cylinder_shape_3d.cpp
+++ b/scene/resources/cylinder_shape_3d.cpp
@@ -40,8 +40,8 @@ Vector CylinderShape3D::get_debug_mesh_lines() const {
Vector3 d(0, height * 0.5, 0);
for (int i = 0; i < 360; i++) {
- float ra = Math::deg2rad((float)i);
- float rb = Math::deg2rad((float)i + 1);
+ float ra = Math::deg_to_rad((float)i);
+ float rb = Math::deg_to_rad((float)i + 1);
Point2 a = Vector2(Math::sin(ra), Math::cos(ra)) * radius;
Point2 b = Vector2(Math::sin(rb), Math::cos(rb)) * radius;
diff --git a/scene/resources/importer_mesh.cpp b/scene/resources/importer_mesh.cpp
index 293fdd6f05d..3638d1862cc 100644
--- a/scene/resources/importer_mesh.cpp
+++ b/scene/resources/importer_mesh.cpp
@@ -301,9 +301,9 @@ void ImporterMesh::generate_lods(float p_normal_merge_angle, float p_normal_spli
}
}
- float normal_merge_threshold = Math::cos(Math::deg2rad(p_normal_merge_angle));
- float normal_pre_split_threshold = Math::cos(Math::deg2rad(MIN(180.0f, p_normal_split_angle * 2.0f)));
- float normal_split_threshold = Math::cos(Math::deg2rad(p_normal_split_angle));
+ float normal_merge_threshold = Math::cos(Math::deg_to_rad(p_normal_merge_angle));
+ float normal_pre_split_threshold = Math::cos(Math::deg_to_rad(MIN(180.0f, p_normal_split_angle * 2.0f)));
+ float normal_split_threshold = Math::cos(Math::deg_to_rad(p_normal_split_angle));
const Vector3 *normals_ptr = normals.ptr();
HashMap>> unique_vertices;
diff --git a/scene/resources/skeleton_modification_2d_ccdik.cpp b/scene/resources/skeleton_modification_2d_ccdik.cpp
index 7adaf1452c1..96961a1fe45 100644
--- a/scene/resources/skeleton_modification_2d_ccdik.cpp
+++ b/scene/resources/skeleton_modification_2d_ccdik.cpp
@@ -52,9 +52,9 @@ bool SkeletonModification2DCCDIK::_set(const StringName &p_path, const Variant &
} else if (what == "enable_constraint") {
set_ccdik_joint_enable_constraint(which, p_value);
} else if (what == "constraint_angle_min") {
- set_ccdik_joint_constraint_angle_min(which, Math::deg2rad(float(p_value)));
+ set_ccdik_joint_constraint_angle_min(which, Math::deg_to_rad(float(p_value)));
} else if (what == "constraint_angle_max") {
- set_ccdik_joint_constraint_angle_max(which, Math::deg2rad(float(p_value)));
+ set_ccdik_joint_constraint_angle_max(which, Math::deg_to_rad(float(p_value)));
} else if (what == "constraint_angle_invert") {
set_ccdik_joint_constraint_angle_invert(which, p_value);
} else if (what == "constraint_in_localspace") {
@@ -96,9 +96,9 @@ bool SkeletonModification2DCCDIK::_get(const StringName &p_path, Variant &r_ret)
} else if (what == "enable_constraint") {
r_ret = get_ccdik_joint_enable_constraint(which);
} else if (what == "constraint_angle_min") {
- r_ret = Math::rad2deg(get_ccdik_joint_constraint_angle_min(which));
+ r_ret = Math::rad_to_deg(get_ccdik_joint_constraint_angle_min(which));
} else if (what == "constraint_angle_max") {
- r_ret = Math::rad2deg(get_ccdik_joint_constraint_angle_max(which));
+ r_ret = Math::rad_to_deg(get_ccdik_joint_constraint_angle_max(which));
} else if (what == "constraint_angle_invert") {
r_ret = get_ccdik_joint_constraint_angle_invert(which);
} else if (what == "constraint_in_localspace") {
diff --git a/scene/resources/skeleton_modification_2d_lookat.cpp b/scene/resources/skeleton_modification_2d_lookat.cpp
index 23e1c579dc2..d3cfffb1dea 100644
--- a/scene/resources/skeleton_modification_2d_lookat.cpp
+++ b/scene/resources/skeleton_modification_2d_lookat.cpp
@@ -41,15 +41,15 @@ bool SkeletonModification2DLookAt::_set(const StringName &p_path, const Variant
if (path.begins_with("enable_constraint")) {
set_enable_constraint(p_value);
} else if (path.begins_with("constraint_angle_min")) {
- set_constraint_angle_min(Math::deg2rad(float(p_value)));
+ set_constraint_angle_min(Math::deg_to_rad(float(p_value)));
} else if (path.begins_with("constraint_angle_max")) {
- set_constraint_angle_max(Math::deg2rad(float(p_value)));
+ set_constraint_angle_max(Math::deg_to_rad(float(p_value)));
} else if (path.begins_with("constraint_angle_invert")) {
set_constraint_angle_invert(p_value);
} else if (path.begins_with("constraint_in_localspace")) {
set_constraint_in_localspace(p_value);
} else if (path.begins_with("additional_rotation")) {
- set_additional_rotation(Math::deg2rad(float(p_value)));
+ set_additional_rotation(Math::deg_to_rad(float(p_value)));
}
#ifdef TOOLS_ENABLED
@@ -67,15 +67,15 @@ bool SkeletonModification2DLookAt::_get(const StringName &p_path, Variant &r_ret
if (path.begins_with("enable_constraint")) {
r_ret = get_enable_constraint();
} else if (path.begins_with("constraint_angle_min")) {
- r_ret = Math::rad2deg(get_constraint_angle_min());
+ r_ret = Math::rad_to_deg(get_constraint_angle_min());
} else if (path.begins_with("constraint_angle_max")) {
- r_ret = Math::rad2deg(get_constraint_angle_max());
+ r_ret = Math::rad_to_deg(get_constraint_angle_max());
} else if (path.begins_with("constraint_angle_invert")) {
r_ret = get_constraint_angle_invert();
} else if (path.begins_with("constraint_in_localspace")) {
r_ret = get_constraint_in_localspace();
} else if (path.begins_with("additional_rotation")) {
- r_ret = Math::rad2deg(get_additional_rotation());
+ r_ret = Math::rad_to_deg(get_additional_rotation());
}
#ifdef TOOLS_ENABLED
diff --git a/scene/resources/skeleton_modification_3d_ccdik.cpp b/scene/resources/skeleton_modification_3d_ccdik.cpp
index f19be47db25..3251ee4189a 100644
--- a/scene/resources/skeleton_modification_3d_ccdik.cpp
+++ b/scene/resources/skeleton_modification_3d_ccdik.cpp
@@ -50,9 +50,9 @@ bool SkeletonModification3DCCDIK::_set(const StringName &p_path, const Variant &
} else if (what == "enable_joint_constraint") {
set_ccdik_joint_enable_constraint(which, p_value);
} else if (what == "joint_constraint_angle_min") {
- set_ccdik_joint_constraint_angle_min(which, Math::deg2rad(real_t(p_value)));
+ set_ccdik_joint_constraint_angle_min(which, Math::deg_to_rad(real_t(p_value)));
} else if (what == "joint_constraint_angle_max") {
- set_ccdik_joint_constraint_angle_max(which, Math::deg2rad(real_t(p_value)));
+ set_ccdik_joint_constraint_angle_max(which, Math::deg_to_rad(real_t(p_value)));
} else if (what == "joint_constraint_angles_invert") {
set_ccdik_joint_constraint_invert(which, p_value);
}
@@ -79,9 +79,9 @@ bool SkeletonModification3DCCDIK::_get(const StringName &p_path, Variant &r_ret)
} else if (what == "enable_joint_constraint") {
r_ret = get_ccdik_joint_enable_constraint(which);
} else if (what == "joint_constraint_angle_min") {
- r_ret = Math::rad2deg(get_ccdik_joint_constraint_angle_min(which));
+ r_ret = Math::rad_to_deg(get_ccdik_joint_constraint_angle_min(which));
} else if (what == "joint_constraint_angle_max") {
- r_ret = Math::rad2deg(get_ccdik_joint_constraint_angle_max(which));
+ r_ret = Math::rad_to_deg(get_ccdik_joint_constraint_angle_max(which));
} else if (what == "joint_constraint_angles_invert") {
r_ret = get_ccdik_joint_constraint_invert(which);
}
diff --git a/scene/resources/skeleton_modification_3d_fabrik.cpp b/scene/resources/skeleton_modification_3d_fabrik.cpp
index b62dda3f4fa..4099208f442 100644
--- a/scene/resources/skeleton_modification_3d_fabrik.cpp
+++ b/scene/resources/skeleton_modification_3d_fabrik.cpp
@@ -58,7 +58,7 @@ bool SkeletonModification3DFABRIK::_set(const StringName &p_path, const Variant
} else if (what == "use_target_basis") {
set_fabrik_joint_use_target_basis(which, p_value);
} else if (what == "roll") {
- set_fabrik_joint_roll(which, Math::deg2rad(real_t(p_value)));
+ set_fabrik_joint_roll(which, Math::deg_to_rad(real_t(p_value)));
}
return true;
}
@@ -91,7 +91,7 @@ bool SkeletonModification3DFABRIK::_get(const StringName &p_path, Variant &r_ret
} else if (what == "use_target_basis") {
r_ret = get_fabrik_joint_use_target_basis(which);
} else if (what == "roll") {
- r_ret = Math::rad2deg(get_fabrik_joint_roll(which));
+ r_ret = Math::rad_to_deg(get_fabrik_joint_roll(which));
}
return true;
}
diff --git a/scene/resources/skeleton_modification_3d_jiggle.cpp b/scene/resources/skeleton_modification_3d_jiggle.cpp
index 3e36c241f78..64f26f3fdae 100644
--- a/scene/resources/skeleton_modification_3d_jiggle.cpp
+++ b/scene/resources/skeleton_modification_3d_jiggle.cpp
@@ -58,7 +58,7 @@ bool SkeletonModification3DJiggle::_set(const StringName &p_path, const Variant
} else if (what == "gravity") {
set_jiggle_joint_gravity(which, p_value);
} else if (what == "roll") {
- set_jiggle_joint_roll(which, Math::deg2rad(real_t(p_value)));
+ set_jiggle_joint_roll(which, Math::deg_to_rad(real_t(p_value)));
}
return true;
} else {
@@ -98,7 +98,7 @@ bool SkeletonModification3DJiggle::_get(const StringName &p_path, Variant &r_ret
} else if (what == "gravity") {
r_ret = get_jiggle_joint_gravity(which);
} else if (what == "roll") {
- r_ret = Math::rad2deg(get_jiggle_joint_roll(which));
+ r_ret = Math::rad_to_deg(get_jiggle_joint_roll(which));
}
return true;
} else {
diff --git a/scene/resources/skeleton_modification_3d_lookat.cpp b/scene/resources/skeleton_modification_3d_lookat.cpp
index 3e8c1e3a772..69167cb308d 100644
--- a/scene/resources/skeleton_modification_3d_lookat.cpp
+++ b/scene/resources/skeleton_modification_3d_lookat.cpp
@@ -39,9 +39,9 @@ bool SkeletonModification3DLookAt::_set(const StringName &p_path, const Variant
set_lock_rotation_plane(p_value);
} else if (p_path == "additional_rotation") {
Vector3 tmp = p_value;
- tmp.x = Math::deg2rad(tmp.x);
- tmp.y = Math::deg2rad(tmp.y);
- tmp.z = Math::deg2rad(tmp.z);
+ tmp.x = Math::deg_to_rad(tmp.x);
+ tmp.y = Math::deg_to_rad(tmp.y);
+ tmp.z = Math::deg_to_rad(tmp.z);
set_additional_rotation(tmp);
}
@@ -55,9 +55,9 @@ bool SkeletonModification3DLookAt::_get(const StringName &p_path, Variant &r_ret
r_ret = get_lock_rotation_plane();
} else if (p_path == "additional_rotation") {
Vector3 tmp = get_additional_rotation();
- tmp.x = Math::rad2deg(tmp.x);
- tmp.y = Math::rad2deg(tmp.y);
- tmp.z = Math::rad2deg(tmp.z);
+ tmp.x = Math::rad_to_deg(tmp.x);
+ tmp.y = Math::rad_to_deg(tmp.y);
+ tmp.z = Math::rad_to_deg(tmp.z);
r_ret = tmp;
}
diff --git a/scene/resources/skeleton_modification_3d_twoboneik.cpp b/scene/resources/skeleton_modification_3d_twoboneik.cpp
index acc5ff716ce..366fcc30b7f 100644
--- a/scene/resources/skeleton_modification_3d_twoboneik.cpp
+++ b/scene/resources/skeleton_modification_3d_twoboneik.cpp
@@ -54,13 +54,13 @@ bool SkeletonModification3DTwoBoneIK::_set(const StringName &p_path, const Varia
} else if (path == "joint_one/bone_idx") {
set_joint_one_bone_idx(p_value);
} else if (path == "joint_one/roll") {
- set_joint_one_roll(Math::deg2rad(real_t(p_value)));
+ set_joint_one_roll(Math::deg_to_rad(real_t(p_value)));
} else if (path == "joint_two/bone_name") {
set_joint_two_bone_name(p_value);
} else if (path == "joint_two/bone_idx") {
set_joint_two_bone_idx(p_value);
} else if (path == "joint_two/roll") {
- set_joint_two_roll(Math::deg2rad(real_t(p_value)));
+ set_joint_two_roll(Math::deg_to_rad(real_t(p_value)));
}
return true;
@@ -88,13 +88,13 @@ bool SkeletonModification3DTwoBoneIK::_get(const StringName &p_path, Variant &r_
} else if (path == "joint_one/bone_idx") {
r_ret = get_joint_one_bone_idx();
} else if (path == "joint_one/roll") {
- r_ret = Math::rad2deg(get_joint_one_roll());
+ r_ret = Math::rad_to_deg(get_joint_one_roll());
} else if (path == "joint_two/bone_name") {
r_ret = get_joint_two_bone_name();
} else if (path == "joint_two/bone_idx") {
r_ret = get_joint_two_bone_idx();
} else if (path == "joint_two/roll") {
- r_ret = Math::rad2deg(get_joint_two_roll());
+ r_ret = Math::rad_to_deg(get_joint_two_roll());
}
return true;
diff --git a/scene/resources/sky_material.cpp b/scene/resources/sky_material.cpp
index 5d1a223cc7a..737c50e5706 100644
--- a/scene/resources/sky_material.cpp
+++ b/scene/resources/sky_material.cpp
@@ -128,7 +128,7 @@ float ProceduralSkyMaterial::get_ground_energy() const {
void ProceduralSkyMaterial::set_sun_angle_max(float p_angle) {
sun_angle_max = p_angle;
- RS::get_singleton()->material_set_param(_get_material(), "sun_angle_max", Math::deg2rad(sun_angle_max));
+ RS::get_singleton()->material_set_param(_get_material(), "sun_angle_max", Math::deg_to_rad(sun_angle_max));
}
float ProceduralSkyMaterial::get_sun_angle_max() const {
diff --git a/scene/resources/sphere_shape_3d.cpp b/scene/resources/sphere_shape_3d.cpp
index 92efe3ce6f6..340d0fe3705 100644
--- a/scene/resources/sphere_shape_3d.cpp
+++ b/scene/resources/sphere_shape_3d.cpp
@@ -38,8 +38,8 @@ Vector SphereShape3D::get_debug_mesh_lines() const {
Vector points;
for (int i = 0; i <= 360; i++) {
- float ra = Math::deg2rad((float)i);
- float rb = Math::deg2rad((float)i + 1);
+ float ra = Math::deg_to_rad((float)i);
+ float rb = Math::deg_to_rad((float)i + 1);
Point2 a = Vector2(Math::sin(ra), Math::cos(ra)) * r;
Point2 b = Vector2(Math::sin(rb), Math::cos(rb)) * r;
diff --git a/servers/audio/audio_stream.cpp b/servers/audio/audio_stream.cpp
index 80485845c95..42521311610 100644
--- a/servers/audio/audio_stream.cpp
+++ b/servers/audio/audio_stream.cpp
@@ -782,7 +782,7 @@ void AudioStreamPlaybackRandomizer::start(float p_from_pos) {
float range_to = randomizer->random_volume_offset_db;
float volume_offset_db = range_from + Math::randf() * (range_to - range_from);
- volume_scale = Math::db2linear(volume_offset_db);
+ volume_scale = Math::db_to_linear(volume_offset_db);
}
if (playing.is_valid()) {
diff --git a/servers/audio/effects/audio_effect_amplify.cpp b/servers/audio/effects/audio_effect_amplify.cpp
index 87d46f8bbe9..28895621739 100644
--- a/servers/audio/effects/audio_effect_amplify.cpp
+++ b/servers/audio/effects/audio_effect_amplify.cpp
@@ -33,8 +33,8 @@
void AudioEffectAmplifyInstance::process(const AudioFrame *p_src_frames, AudioFrame *p_dst_frames, int p_frame_count) {
//multiply volume interpolating to avoid clicks if this changes
float volume_db = base->volume_db;
- float vol = Math::db2linear(mix_volume_db);
- float vol_inc = (Math::db2linear(volume_db) - vol) / float(p_frame_count);
+ float vol = Math::db_to_linear(mix_volume_db);
+ float vol_inc = (Math::db_to_linear(volume_db) - vol) / float(p_frame_count);
for (int i = 0; i < p_frame_count; i++) {
p_dst_frames[i] = p_src_frames[i] * vol;
diff --git a/servers/audio/effects/audio_effect_chorus.cpp b/servers/audio/effects/audio_effect_chorus.cpp
index 54c08ef644b..69b416f5f75 100644
--- a/servers/audio/effects/audio_effect_chorus.cpp
+++ b/servers/audio/effects/audio_effect_chorus.cpp
@@ -95,7 +95,7 @@ void AudioEffectChorusInstance::_process_chunk(const AudioFrame *p_src_frames, A
//vol modifier
- AudioFrame vol_modifier = AudioFrame(base->wet, base->wet) * Math::db2linear(v.level);
+ AudioFrame vol_modifier = AudioFrame(base->wet, base->wet) * Math::db_to_linear(v.level);
vol_modifier.l *= CLAMP(1.0 - v.pan, 0, 1);
vol_modifier.r *= CLAMP(1.0 + v.pan, 0, 1);
diff --git a/servers/audio/effects/audio_effect_compressor.cpp b/servers/audio/effects/audio_effect_compressor.cpp
index 0e1accba169..43b210e4507 100644
--- a/servers/audio/effects/audio_effect_compressor.cpp
+++ b/servers/audio/effects/audio_effect_compressor.cpp
@@ -32,7 +32,7 @@
#include "servers/audio_server.h"
void AudioEffectCompressorInstance::process(const AudioFrame *p_src_frames, AudioFrame *p_dst_frames, int p_frame_count) {
- float threshold = Math::db2linear(base->threshold);
+ float threshold = Math::db_to_linear(base->threshold);
float sample_rate = AudioServer::get_singleton()->get_mix_rate();
float ratatcoef = exp(-1 / (0.00001f * sample_rate));
@@ -42,7 +42,7 @@ void AudioEffectCompressorInstance::process(const AudioFrame *p_src_frames, Audi
float atcoef = exp(-1 / (attime * sample_rate));
float relcoef = exp(-1 / (reltime * sample_rate));
- float makeup = Math::db2linear(base->gain);
+ float makeup = Math::db_to_linear(base->gain);
float mix = base->mix;
float gr_meter_decay = exp(1 / (1 * sample_rate));
@@ -64,7 +64,7 @@ void AudioEffectCompressorInstance::process(const AudioFrame *p_src_frames, Audi
float peak = MAX(s.l, s.r);
- float overdb = 2.08136898f * Math::linear2db(peak / threshold);
+ float overdb = 2.08136898f * Math::linear_to_db(peak / threshold);
if (overdb < 0.0) { //we only care about what goes over to compress
overdb = 0.0;
@@ -94,7 +94,7 @@ void AudioEffectCompressorInstance::process(const AudioFrame *p_src_frames, Audi
}
float gr = -overdb * (cratio - 1) / cratio;
- float grv = Math::db2linear(gr);
+ float grv = Math::db_to_linear(gr);
runmax = maxover + relcoef * (runmax - maxover); // highest peak for setting att/rel decays in reltime
maxover = runmax;
diff --git a/servers/audio/effects/audio_effect_delay.cpp b/servers/audio/effects/audio_effect_delay.cpp
index ae8c58f654b..f71ff05b237 100644
--- a/servers/audio/effects/audio_effect_delay.cpp
+++ b/servers/audio/effects/audio_effect_delay.cpp
@@ -53,13 +53,13 @@ void AudioEffectDelayInstance::_process_chunk(const AudioFrame *p_src_frames, Au
float mix_rate = AudioServer::get_singleton()->get_mix_rate();
- float tap_1_level_f = base->tap_1_active ? Math::db2linear(base->tap_1_level) : 0.0;
+ float tap_1_level_f = base->tap_1_active ? Math::db_to_linear(base->tap_1_level) : 0.0;
int tap_1_delay_frames = int((base->tap_1_delay_ms / 1000.0) * mix_rate);
- float tap_2_level_f = base->tap_2_active ? Math::db2linear(base->tap_2_level) : 0.0;
+ float tap_2_level_f = base->tap_2_active ? Math::db_to_linear(base->tap_2_level) : 0.0;
int tap_2_delay_frames = int((base->tap_2_delay_ms / 1000.0) * mix_rate);
- float feedback_level_f = base->feedback_active ? Math::db2linear(base->feedback_level) : 0.0;
+ float feedback_level_f = base->feedback_active ? Math::db_to_linear(base->feedback_level) : 0.0;
unsigned int feedback_delay_frames = int((base->feedback_delay_ms / 1000.0) * mix_rate);
AudioFrame tap1_vol = AudioFrame(tap_1_level_f, tap_1_level_f);
diff --git a/servers/audio/effects/audio_effect_distortion.cpp b/servers/audio/effects/audio_effect_distortion.cpp
index 6820d796a4e..5987ed7bb2e 100644
--- a/servers/audio/effects/audio_effect_distortion.cpp
+++ b/servers/audio/effects/audio_effect_distortion.cpp
@@ -41,8 +41,8 @@ void AudioEffectDistortionInstance::process(const AudioFrame *p_src_frames, Audi
float lpf_ic = 1.0 - lpf_c;
float drive_f = base->drive;
- float pregain_f = Math::db2linear(base->pre_gain);
- float postgain_f = Math::db2linear(base->post_gain);
+ float pregain_f = Math::db_to_linear(base->pre_gain);
+ float postgain_f = Math::db_to_linear(base->post_gain);
float atan_mult = pow(10, drive_f * drive_f * 3.0) - 1.0 + 0.001;
float atan_div = 1.0 / (atanf(atan_mult) * (1.0 + drive_f * 8));
diff --git a/servers/audio/effects/audio_effect_eq.cpp b/servers/audio/effects/audio_effect_eq.cpp
index 500abd3a6f8..14ece8d93ea 100644
--- a/servers/audio/effects/audio_effect_eq.cpp
+++ b/servers/audio/effects/audio_effect_eq.cpp
@@ -38,7 +38,7 @@ void AudioEffectEQInstance::process(const AudioFrame *p_src_frames, AudioFrame *
EQ::BandProcess *proc_r = bands[1].ptrw();
float *bgain = gains.ptrw();
for (int i = 0; i < band_count; i++) {
- bgain[i] = Math::db2linear(base->gain[i]);
+ bgain[i] = Math::db_to_linear(base->gain[i]);
}
for (int i = 0; i < p_frame_count; i++) {
diff --git a/servers/audio/effects/audio_effect_limiter.cpp b/servers/audio/effects/audio_effect_limiter.cpp
index 7bcd68d48b4..99653cf5b64 100644
--- a/servers/audio/effects/audio_effect_limiter.cpp
+++ b/servers/audio/effects/audio_effect_limiter.cpp
@@ -32,11 +32,11 @@
void AudioEffectLimiterInstance::process(const AudioFrame *p_src_frames, AudioFrame *p_dst_frames, int p_frame_count) {
float threshdb = base->threshold;
- float ceiling = Math::db2linear(base->ceiling);
+ float ceiling = Math::db_to_linear(base->ceiling);
float ceildb = base->ceiling;
- float makeup = Math::db2linear(ceildb - threshdb);
+ float makeup = Math::db_to_linear(ceildb - threshdb);
float sc = -base->soft_clip;
- float scv = Math::db2linear(sc);
+ float scv = Math::db_to_linear(sc);
float peakdb = ceildb + 25;
float scmult = Math::abs((ceildb - sc) / (peakdb - sc));
@@ -49,14 +49,14 @@ void AudioEffectLimiterInstance::process(const AudioFrame *p_src_frames, AudioFr
float sign1 = (spl1 < 0.0 ? -1.0 : 1.0);
float abs0 = Math::abs(spl0);
float abs1 = Math::abs(spl1);
- float overdb0 = Math::linear2db(abs0) - ceildb;
- float overdb1 = Math::linear2db(abs1) - ceildb;
+ float overdb0 = Math::linear_to_db(abs0) - ceildb;
+ float overdb1 = Math::linear_to_db(abs1) - ceildb;
if (abs0 > scv) {
- spl0 = sign0 * (scv + Math::db2linear(overdb0 * scmult));
+ spl0 = sign0 * (scv + Math::db_to_linear(overdb0 * scmult));
}
if (abs1 > scv) {
- spl1 = sign1 * (scv + Math::db2linear(overdb1 * scmult));
+ spl1 = sign1 * (scv + Math::db_to_linear(overdb1 * scmult));
}
spl0 = MIN(ceiling, Math::abs(spl0)) * (spl0 < 0.0 ? -1.0 : 1.0);
diff --git a/servers/audio_server.cpp b/servers/audio_server.cpp
index 64695557aaf..1254a6740a7 100644
--- a/servers/audio_server.cpp
+++ b/servers/audio_server.cpp
@@ -547,7 +547,7 @@ void AudioServer::_mix_step() {
AudioFrame peak = AudioFrame(0, 0);
- float volume = Math::db2linear(bus->volume_db);
+ float volume = Math::db_to_linear(bus->volume_db);
if (solo_mode) {
if (!bus->soloed) {
@@ -573,12 +573,12 @@ void AudioServer::_mix_step() {
}
}
- bus->channels.write[k].peak_volume = AudioFrame(Math::linear2db(peak.l + AUDIO_PEAK_OFFSET), Math::linear2db(peak.r + AUDIO_PEAK_OFFSET));
+ bus->channels.write[k].peak_volume = AudioFrame(Math::linear_to_db(peak.l + AUDIO_PEAK_OFFSET), Math::linear_to_db(peak.r + AUDIO_PEAK_OFFSET));
if (!bus->channels[k].used) {
//see if any audio is contained, because channel was not used
- if (MAX(peak.r, peak.l) > Math::db2linear(channel_disable_threshold_db)) {
+ if (MAX(peak.r, peak.l) > Math::db_to_linear(channel_disable_threshold_db)) {
bus->channels.write[k].last_mix_with_audio = mix_frames;
} else if (mix_frames - bus->channels[k].last_mix_with_audio > channel_disable_frames) {
bus->channels.write[k].active = false;
diff --git a/servers/physics_2d/godot_space_2d.cpp b/servers/physics_2d/godot_space_2d.cpp
index 4166191be8d..d4cba8916e7 100644
--- a/servers/physics_2d/godot_space_2d.cpp
+++ b/servers/physics_2d/godot_space_2d.cpp
@@ -1218,7 +1218,7 @@ GodotPhysicsDirectSpaceState2D *GodotSpace2D::get_direct_state() {
GodotSpace2D::GodotSpace2D() {
body_linear_velocity_sleep_threshold = GLOBAL_DEF("physics/2d/sleep_threshold_linear", 2.0);
- body_angular_velocity_sleep_threshold = GLOBAL_DEF("physics/2d/sleep_threshold_angular", Math::deg2rad(8.0));
+ body_angular_velocity_sleep_threshold = GLOBAL_DEF("physics/2d/sleep_threshold_angular", Math::deg_to_rad(8.0));
body_time_to_sleep = GLOBAL_DEF("physics/2d/time_before_sleep", 0.5);
ProjectSettings::get_singleton()->set_custom_property_info("physics/2d/time_before_sleep", PropertyInfo(Variant::FLOAT, "physics/2d/time_before_sleep", PROPERTY_HINT_RANGE, "0,5,0.01,or_greater"));
diff --git a/servers/physics_3d/godot_space_3d.cpp b/servers/physics_3d/godot_space_3d.cpp
index 074232dd660..76d59202c9f 100644
--- a/servers/physics_3d/godot_space_3d.cpp
+++ b/servers/physics_3d/godot_space_3d.cpp
@@ -1249,7 +1249,7 @@ GodotPhysicsDirectSpaceState3D *GodotSpace3D::get_direct_state() {
GodotSpace3D::GodotSpace3D() {
body_linear_velocity_sleep_threshold = GLOBAL_DEF("physics/3d/sleep_threshold_linear", 0.1);
- body_angular_velocity_sleep_threshold = GLOBAL_DEF("physics/3d/sleep_threshold_angular", Math::deg2rad(8.0));
+ body_angular_velocity_sleep_threshold = GLOBAL_DEF("physics/3d/sleep_threshold_angular", Math::deg_to_rad(8.0));
body_time_to_sleep = GLOBAL_DEF("physics/3d/time_before_sleep", 0.5);
ProjectSettings::get_singleton()->set_custom_property_info("physics/3d/time_before_sleep", PropertyInfo(Variant::FLOAT, "physics/3d/time_before_sleep", PROPERTY_HINT_RANGE, "0,5,0.01,or_greater"));
diff --git a/servers/rendering/renderer_rd/cluster_builder_rd.h b/servers/rendering/renderer_rd/cluster_builder_rd.h
index 17ca1986c67..ef17ceb98ca 100644
--- a/servers/rendering/renderer_rd/cluster_builder_rd.h
+++ b/servers/rendering/renderer_rd/cluster_builder_rd.h
@@ -269,7 +269,7 @@ public:
//spot
radius *= shared->cone_overfit; // overfit icosphere
- real_t len = Math::tan(Math::deg2rad(p_spot_aperture)) * radius;
+ real_t len = Math::tan(Math::deg_to_rad(p_spot_aperture)) * radius;
//approximate, probably better to use a cone support function
float max_d = -1e20;
float min_d = 1e20;
@@ -293,7 +293,7 @@ public:
float dist = base_plane.distance_to(Vector3());
if (dist >= 0 && dist < radius) {
//inside, check angle
- float angle = Math::rad2deg(Math::acos((-xform.origin.normalized()).dot(-xform.basis.get_column(Vector3::AXIS_Z))));
+ float angle = Math::rad_to_deg(Math::acos((-xform.origin.normalized()).dot(-xform.basis.get_column(Vector3::AXIS_Z))));
e.touches_near = angle < p_spot_aperture * 1.05; //overfit aperture a little due to cone overfit
} else {
e.touches_near = false;
diff --git a/servers/rendering/renderer_rd/effects/ss_effects.cpp b/servers/rendering/renderer_rd/effects/ss_effects.cpp
index 0f896a8aa78..874409b885d 100644
--- a/servers/rendering/renderer_rd/effects/ss_effects.cpp
+++ b/servers/rendering/renderer_rd/effects/ss_effects.cpp
@@ -1604,7 +1604,7 @@ void SSEffects::screen_space_reflection(SSRRenderBuffers &p_ssr_buffers, const R
ScreenSpaceReflectionFilterPushConstant push_constant;
push_constant.view_index = v;
push_constant.orthogonal = p_projections[v].is_orthogonal();
- push_constant.edge_tolerance = Math::sin(Math::deg2rad(15.0));
+ push_constant.edge_tolerance = Math::sin(Math::deg_to_rad(15.0));
push_constant.proj_info[0] = -2.0f / (p_screen_size.width * p_projections[v].matrix[0][0]);
push_constant.proj_info[1] = -2.0f / (p_screen_size.height * p_projections[v].matrix[1][1]);
push_constant.proj_info[2] = (1.0f - p_projections[v].matrix[0][2]) / p_projections[v].matrix[0][0];
diff --git a/servers/rendering/renderer_rd/environment/gi.cpp b/servers/rendering/renderer_rd/environment/gi.cpp
index eaef5ba39c1..66e984174c4 100644
--- a/servers/rendering/renderer_rd/environment/gi.cpp
+++ b/servers/rendering/renderer_rd/environment/gi.cpp
@@ -1924,7 +1924,7 @@ void GI::SDFGI::pre_process_gi(const Transform3D &p_transform, RenderDataRD *p_r
lights[idx].has_shadow = RSG::light_storage->light_has_shadow(li->light);
lights[idx].attenuation = RSG::light_storage->light_get_param(li->light, RS::LIGHT_PARAM_ATTENUATION);
lights[idx].radius = RSG::light_storage->light_get_param(li->light, RS::LIGHT_PARAM_RANGE);
- lights[idx].cos_spot_angle = Math::cos(Math::deg2rad(RSG::light_storage->light_get_param(li->light, RS::LIGHT_PARAM_SPOT_ANGLE)));
+ lights[idx].cos_spot_angle = Math::cos(Math::deg_to_rad(RSG::light_storage->light_get_param(li->light, RS::LIGHT_PARAM_SPOT_ANGLE)));
lights[idx].inv_spot_attenuation = 1.0f / RSG::light_storage->light_get_param(li->light, RS::LIGHT_PARAM_SPOT_ATTENUATION);
idx++;
@@ -2362,7 +2362,7 @@ void GI::SDFGI::render_static_lights(RID p_render_buffers, uint32_t p_cascade_co
lights[idx].has_shadow = RSG::light_storage->light_has_shadow(li->light);
lights[idx].attenuation = RSG::light_storage->light_get_param(li->light, RS::LIGHT_PARAM_ATTENUATION);
lights[idx].radius = RSG::light_storage->light_get_param(li->light, RS::LIGHT_PARAM_RANGE);
- lights[idx].cos_spot_angle = Math::cos(Math::deg2rad(RSG::light_storage->light_get_param(li->light, RS::LIGHT_PARAM_SPOT_ANGLE)));
+ lights[idx].cos_spot_angle = Math::cos(Math::deg_to_rad(RSG::light_storage->light_get_param(li->light, RS::LIGHT_PARAM_SPOT_ANGLE)));
lights[idx].inv_spot_attenuation = 1.0f / RSG::light_storage->light_get_param(li->light, RS::LIGHT_PARAM_SPOT_ATTENUATION);
idx++;
@@ -2800,7 +2800,7 @@ void GI::VoxelGIInstance::update(bool p_update_light_instances, const Vectorlight_get_param(light, RS::LIGHT_PARAM_SPOT_ANGLE)));
+ l.cos_spot_angle = Math::cos(Math::deg_to_rad(RSG::light_storage->light_get_param(light, RS::LIGHT_PARAM_SPOT_ANGLE)));
l.inv_spot_attenuation = 1.0f / RSG::light_storage->light_get_param(light, RS::LIGHT_PARAM_SPOT_ATTENUATION);
Transform3D xform = p_scene_render->light_instance_get_base_transform(light_instance);
diff --git a/servers/rendering/renderer_rd/environment/sky.cpp b/servers/rendering/renderer_rd/environment/sky.cpp
index d3601274b5e..1d6b158d652 100644
--- a/servers/rendering/renderer_rd/environment/sky.cpp
+++ b/servers/rendering/renderer_rd/environment/sky.cpp
@@ -1232,7 +1232,7 @@ void SkyRD::setup(RID p_env, RID p_render_buffers, const PagedArray &p_ligh
// I know tan(0) is 0, but let's not risk it with numerical precision.
// technically this will keep expanding until reaching the sun, but all we care
// is expand until we reach the radius of the near plane (there can't be more occluders than that)
- angular_diameter = Math::tan(Math::deg2rad(angular_diameter));
+ angular_diameter = Math::tan(Math::deg_to_rad(angular_diameter));
} else {
angular_diameter = 0.0;
}
diff --git a/servers/rendering/renderer_rd/renderer_canvas_render_rd.cpp b/servers/rendering/renderer_rd/renderer_canvas_render_rd.cpp
index 38a2340d403..920cc5180fa 100644
--- a/servers/rendering/renderer_rd/renderer_canvas_render_rd.cpp
+++ b/servers/rendering/renderer_rd/renderer_canvas_render_rd.cpp
@@ -1594,7 +1594,7 @@ void RendererCanvasRenderRD::light_update_shadow(RID p_rid, int p_shadow_index,
real_t farp = p_far;
real_t aspect = 1.0;
- real_t ymax = nearp * Math::tan(Math::deg2rad(fov * 0.5));
+ real_t ymax = nearp * Math::tan(Math::deg_to_rad(fov * 0.5));
real_t ymin = -ymax;
real_t xmin = ymin * aspect;
real_t xmax = ymax * aspect;
diff --git a/servers/rendering/renderer_rd/renderer_scene_render_rd.cpp b/servers/rendering/renderer_rd/renderer_scene_render_rd.cpp
index d8499681ad2..dd42271c95b 100644
--- a/servers/rendering/renderer_rd/renderer_scene_render_rd.cpp
+++ b/servers/rendering/renderer_rd/renderer_scene_render_rd.cpp
@@ -2862,7 +2862,7 @@ void RendererSceneRenderRD::_setup_lights(const PagedArray &p_lights, const
float size = light_storage->light_get_param(base, RS::LIGHT_PARAM_SIZE);
- light_data.size = 1.0 - Math::cos(Math::deg2rad(size)); //angle to cosine offset
+ light_data.size = 1.0 - Math::cos(Math::deg_to_rad(size)); //angle to cosine offset
if (get_debug_draw_mode() == RS::VIEWPORT_DEBUG_DRAW_PSSM_SPLITS) {
WARN_PRINT_ONCE("The DirectionalLight3D PSSM splits debug draw mode is not reimplemented yet.");
@@ -2877,7 +2877,7 @@ void RendererSceneRenderRD::_setup_lights(const PagedArray &p_lights, const
// I know tan(0) is 0, but let's not risk it with numerical precision.
// technically this will keep expanding until reaching the sun, but all we care
// is expand until we reach the radius of the near plane (there can't be more occluders than that)
- angular_diameter = Math::tan(Math::deg2rad(angular_diameter));
+ angular_diameter = Math::tan(Math::deg_to_rad(angular_diameter));
if (light_storage->light_has_shadow(base) && light_storage->light_get_param(base, RS::LIGHT_PARAM_SHADOW_BLUR) > 0.0) {
// Only enable PCSS-like soft shadows if blurring is enabled.
// Otherwise, performance would decrease with no visual difference.
@@ -3092,7 +3092,7 @@ void RendererSceneRenderRD::_setup_lights(const PagedArray &p_lights, const
light_data.inv_spot_attenuation = 1.0f / light_storage->light_get_param(base, RS::LIGHT_PARAM_SPOT_ATTENUATION);
float spot_angle = light_storage->light_get_param(base, RS::LIGHT_PARAM_SPOT_ANGLE);
- light_data.cos_spot_angle = Math::cos(Math::deg2rad(spot_angle));
+ light_data.cos_spot_angle = Math::cos(Math::deg_to_rad(spot_angle));
light_data.mask = light_storage->light_get_cull_mask(base);
@@ -3193,7 +3193,7 @@ void RendererSceneRenderRD::_setup_lights(const PagedArray &p_lights, const
// Only enable PCSS-like soft shadows if blurring is enabled.
// Otherwise, performance would decrease with no visual difference.
Projection cm = li->shadow_transform[0].camera;
- float half_np = cm.get_z_near() * Math::tan(Math::deg2rad(spot_angle));
+ float half_np = cm.get_z_near() * Math::tan(Math::deg_to_rad(spot_angle));
light_data.soft_shadow_size = (size * 0.5 / radius) / (half_np / cm.get_z_near()) * rect.size.width;
} else {
light_data.soft_shadow_size = 0.0;
diff --git a/servers/rendering/renderer_rd/storage_rd/light_storage.cpp b/servers/rendering/renderer_rd/storage_rd/light_storage.cpp
index 882afdfa547..7b58cc08ddc 100644
--- a/servers/rendering/renderer_rd/storage_rd/light_storage.cpp
+++ b/servers/rendering/renderer_rd/storage_rd/light_storage.cpp
@@ -352,7 +352,7 @@ AABB LightStorage::light_get_aabb(RID p_light) const {
switch (light->type) {
case RS::LIGHT_SPOT: {
float len = light->param[RS::LIGHT_PARAM_RANGE];
- float size = Math::tan(Math::deg2rad(light->param[RS::LIGHT_PARAM_SPOT_ANGLE])) * len;
+ float size = Math::tan(Math::deg_to_rad(light->param[RS::LIGHT_PARAM_SPOT_ANGLE])) * len;
return AABB(Vector3(-size, -size, -len), Vector3(size * 2, size * 2, len));
};
case RS::LIGHT_OMNI: {
diff --git a/servers/rendering/renderer_scene_cull.cpp b/servers/rendering/renderer_scene_cull.cpp
index 9f5eb85c2f7..80c4ecea2d2 100644
--- a/servers/rendering/renderer_scene_cull.cpp
+++ b/servers/rendering/renderer_scene_cull.cpp
@@ -2146,7 +2146,7 @@ void RendererSceneCull::_light_instance_setup_directional_shadow(int p_shadow_in
if (soft_shadow_angle > 0.0) {
float z_range = (z_vec.dot(center) + radius + pancake_size) - z_min_cam;
- soft_shadow_expand = Math::tan(Math::deg2rad(soft_shadow_angle)) * z_range;
+ soft_shadow_expand = Math::tan(Math::deg_to_rad(soft_shadow_angle)) * z_range;
x_max += soft_shadow_expand;
y_max += soft_shadow_expand;
@@ -3125,8 +3125,8 @@ void RendererSceneCull::_render_scene(const RendererSceneRender::CameraData *p_c
float radius = RSG::light_storage->light_get_param(ins->base, RS::LIGHT_PARAM_RANGE);
float angle = RSG::light_storage->light_get_param(ins->base, RS::LIGHT_PARAM_SPOT_ANGLE);
- float w = radius * Math::sin(Math::deg2rad(angle));
- float d = radius * Math::cos(Math::deg2rad(angle));
+ float w = radius * Math::sin(Math::deg_to_rad(angle));
+ float d = radius * Math::cos(Math::deg_to_rad(angle));
Vector3 base = ins->transform.origin - ins->transform.basis.get_column(2).normalized() * d;
diff --git a/tests/core/math/test_quaternion.h b/tests/core/math/test_quaternion.h
index 94eef6c463a..1b80ffba0b7 100644
--- a/tests/core/math/test_quaternion.h
+++ b/tests/core/math/test_quaternion.h
@@ -41,9 +41,9 @@
namespace TestQuaternion {
Quaternion quat_euler_yxz_deg(Vector3 angle) {
- double yaw = Math::deg2rad(angle[1]);
- double pitch = Math::deg2rad(angle[0]);
- double roll = Math::deg2rad(angle[2]);
+ double yaw = Math::deg_to_rad(angle[1]);
+ double pitch = Math::deg_to_rad(angle[0]);
+ double roll = Math::deg_to_rad(angle[2]);
// Generate YXZ (Z-then-X-then-Y) Quaternion using single-axis Euler
// constructor and quaternion product, both tested separately.
@@ -77,7 +77,7 @@ TEST_CASE("[Quaternion] Construct x,y,z,w") {
TEST_CASE("[Quaternion] Construct AxisAngle 1") {
// Easy to visualize: 120 deg about X-axis.
- Quaternion q(Vector3(1.0, 0.0, 0.0), Math::deg2rad(120.0));
+ Quaternion q(Vector3(1.0, 0.0, 0.0), Math::deg_to_rad(120.0));
// 0.866 isn't close enough; doctest::Approx doesn't cut much slack!
CHECK(q[0] == doctest::Approx(0.866025)); // Sine of half the angle.
@@ -88,7 +88,7 @@ TEST_CASE("[Quaternion] Construct AxisAngle 1") {
TEST_CASE("[Quaternion] Construct AxisAngle 2") {
// Easy to visualize: 30 deg about Y-axis.
- Quaternion q(Vector3(0.0, 1.0, 0.0), Math::deg2rad(30.0));
+ Quaternion q(Vector3(0.0, 1.0, 0.0), Math::deg_to_rad(30.0));
CHECK(q[0] == doctest::Approx(0.0));
CHECK(q[1] == doctest::Approx(0.258819)); // Sine of half the angle.
@@ -98,7 +98,7 @@ TEST_CASE("[Quaternion] Construct AxisAngle 2") {
TEST_CASE("[Quaternion] Construct AxisAngle 3") {
// Easy to visualize: 60 deg about Z-axis.
- Quaternion q(Vector3(0.0, 0.0, 1.0), Math::deg2rad(60.0));
+ Quaternion q(Vector3(0.0, 0.0, 1.0), Math::deg_to_rad(60.0));
CHECK(q[0] == doctest::Approx(0.0));
CHECK(q[1] == doctest::Approx(0.0));
@@ -109,7 +109,7 @@ TEST_CASE("[Quaternion] Construct AxisAngle 3") {
TEST_CASE("[Quaternion] Construct AxisAngle 4") {
// More complex & hard to visualize, so test w/ data from online calculator.
Vector3 axis(1.0, 2.0, 0.5);
- Quaternion q(axis.normalized(), Math::deg2rad(35.0));
+ Quaternion q(axis.normalized(), Math::deg_to_rad(35.0));
CHECK(q[0] == doctest::Approx(0.131239));
CHECK(q[1] == doctest::Approx(0.262478));
@@ -119,7 +119,7 @@ TEST_CASE("[Quaternion] Construct AxisAngle 4") {
TEST_CASE("[Quaternion] Construct from Quaternion") {
Vector3 axis(1.0, 2.0, 0.5);
- Quaternion q_src(axis.normalized(), Math::deg2rad(35.0));
+ Quaternion q_src(axis.normalized(), Math::deg_to_rad(35.0));
Quaternion q(q_src);
CHECK(q[0] == doctest::Approx(0.131239));
@@ -129,9 +129,9 @@ TEST_CASE("[Quaternion] Construct from Quaternion") {
}
TEST_CASE("[Quaternion] Construct Euler SingleAxis") {
- double yaw = Math::deg2rad(45.0);
- double pitch = Math::deg2rad(30.0);
- double roll = Math::deg2rad(10.0);
+ double yaw = Math::deg_to_rad(45.0);
+ double pitch = Math::deg_to_rad(30.0);
+ double roll = Math::deg_to_rad(10.0);
Vector3 euler_y(0.0, yaw, 0.0);
Quaternion q_y(euler_y);
@@ -156,9 +156,9 @@ TEST_CASE("[Quaternion] Construct Euler SingleAxis") {
}
TEST_CASE("[Quaternion] Construct Euler YXZ dynamic axes") {
- double yaw = Math::deg2rad(45.0);
- double pitch = Math::deg2rad(30.0);
- double roll = Math::deg2rad(10.0);
+ double yaw = Math::deg_to_rad(45.0);
+ double pitch = Math::deg_to_rad(30.0);
+ double roll = Math::deg_to_rad(10.0);
// Generate YXZ comparision data (Z-then-X-then-Y) using single-axis Euler
// constructor and quaternion product, both tested separately.
@@ -187,9 +187,9 @@ TEST_CASE("[Quaternion] Construct Euler YXZ dynamic axes") {
}
TEST_CASE("[Quaternion] Construct Basis Euler") {
- double yaw = Math::deg2rad(45.0);
- double pitch = Math::deg2rad(30.0);
- double roll = Math::deg2rad(10.0);
+ double yaw = Math::deg_to_rad(45.0);
+ double pitch = Math::deg_to_rad(30.0);
+ double roll = Math::deg_to_rad(10.0);
Vector3 euler_yxz(pitch, yaw, roll);
Quaternion q_yxz(euler_yxz);
Basis basis_axes(euler_yxz);
@@ -199,7 +199,7 @@ TEST_CASE("[Quaternion] Construct Basis Euler") {
TEST_CASE("[Quaternion] Construct Basis Axes") {
// Arbitrary Euler angles.
- Vector3 euler_yxz(Math::deg2rad(31.41), Math::deg2rad(-49.16), Math::deg2rad(12.34));
+ Vector3 euler_yxz(Math::deg_to_rad(31.41), Math::deg_to_rad(-49.16), Math::deg_to_rad(12.34));
// Basis vectors from online calculation of rotation matrix.
Vector3 i_unit(0.5545787, 0.1823950, 0.8118957);
Vector3 j_unit(-0.5249245, 0.8337420, 0.1712555);
@@ -248,9 +248,9 @@ TEST_CASE("[Quaternion] Product (book)") {
}
TEST_CASE("[Quaternion] Product") {
- double yaw = Math::deg2rad(45.0);
- double pitch = Math::deg2rad(30.0);
- double roll = Math::deg2rad(10.0);
+ double yaw = Math::deg_to_rad(45.0);
+ double pitch = Math::deg_to_rad(30.0);
+ double roll = Math::deg_to_rad(10.0);
Vector3 euler_y(0.0, yaw, 0.0);
Quaternion q_y(euler_y);
@@ -292,7 +292,7 @@ TEST_CASE("[Quaternion] Product") {
TEST_CASE("[Quaternion] xform unit vectors") {
// Easy to visualize: 120 deg about X-axis.
// Transform the i, j, & k unit vectors.
- Quaternion q(Vector3(1.0, 0.0, 0.0), Math::deg2rad(120.0));
+ Quaternion q(Vector3(1.0, 0.0, 0.0), Math::deg_to_rad(120.0));
Vector3 i_t = q.xform(Vector3(1.0, 0.0, 0.0));
Vector3 j_t = q.xform(Vector3(0.0, 1.0, 0.0));
Vector3 k_t = q.xform(Vector3(0.0, 0.0, 1.0));
@@ -305,7 +305,7 @@ TEST_CASE("[Quaternion] xform unit vectors") {
CHECK(k_t.length_squared() == doctest::Approx(1.0));
// Easy to visualize: 30 deg about Y-axis.
- q = Quaternion(Vector3(0.0, 1.0, 0.0), Math::deg2rad(30.0));
+ q = Quaternion(Vector3(0.0, 1.0, 0.0), Math::deg_to_rad(30.0));
i_t = q.xform(Vector3(1.0, 0.0, 0.0));
j_t = q.xform(Vector3(0.0, 1.0, 0.0));
k_t = q.xform(Vector3(0.0, 0.0, 1.0));
@@ -318,7 +318,7 @@ TEST_CASE("[Quaternion] xform unit vectors") {
CHECK(k_t.length_squared() == doctest::Approx(1.0));
// Easy to visualize: 60 deg about Z-axis.
- q = Quaternion(Vector3(0.0, 0.0, 1.0), Math::deg2rad(60.0));
+ q = Quaternion(Vector3(0.0, 0.0, 1.0), Math::deg_to_rad(60.0));
i_t = q.xform(Vector3(1.0, 0.0, 0.0));
j_t = q.xform(Vector3(0.0, 1.0, 0.0));
k_t = q.xform(Vector3(0.0, 0.0, 1.0));
@@ -333,7 +333,7 @@ TEST_CASE("[Quaternion] xform unit vectors") {
TEST_CASE("[Quaternion] xform vector") {
// Arbitrary quaternion rotates an arbitrary vector.
- Vector3 euler_yzx(Math::deg2rad(31.41), Math::deg2rad(-49.16), Math::deg2rad(12.34));
+ Vector3 euler_yzx(Math::deg_to_rad(31.41), Math::deg_to_rad(-49.16), Math::deg_to_rad(12.34));
Basis basis_axes(euler_yzx);
Quaternion q(basis_axes);