Merge pull request #51084 from aaronfranke/no-dectime

Remove obsolete `dectime` method
This commit is contained in:
Rémi Verschelde 2021-07-31 10:20:29 +02:00 committed by GitHub
commit d7b61838b1
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8 changed files with 37 additions and 103 deletions

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@ -88,16 +88,6 @@ int Math::range_step_decimals(double p_step) {
return step_decimals(p_step);
}
double Math::dectime(double p_value, double p_amount, double p_step) {
double sgn = p_value < 0 ? -1.0 : 1.0;
double val = Math::abs(p_value);
val -= p_amount * p_step;
if (val < 0.0) {
val = 0.0;
}
return val * sgn;
}
double Math::ease(double p_x, double p_c) {
if (p_x < 0) {
p_x = 0;

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@ -296,7 +296,6 @@ public:
static int step_decimals(double p_step);
static int range_step_decimals(double p_step);
static double snapped(double p_value, double p_step);
static double dectime(double p_value, double p_amount, double p_step);
static uint32_t larger_prime(uint32_t p_val);

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@ -249,10 +249,6 @@ struct VariantUtilityFunctions {
return Math::move_toward(from, to, delta);
}
static inline double dectime(double value, double amount, double step) {
return Math::dectime(value, amount, step);
}
static inline double deg2rad(double angle_deg) {
return Math::deg2rad(angle_deg);
}
@ -1195,7 +1191,6 @@ 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(dectime, sarray("value", "amount", "step"), Variant::UTILITY_FUNC_TYPE_MATH);
FUNCBINDR(deg2rad, sarray("deg"), Variant::UTILITY_FUNC_TYPE_MATH);
FUNCBINDR(rad2deg, sarray("rad"), Variant::UTILITY_FUNC_TYPE_MATH);

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@ -193,19 +193,6 @@
Converts from decibels to linear energy (audio).
</description>
</method>
<method name="dectime">
<return type="float" />
<argument index="0" name="value" type="float" />
<argument index="1" name="amount" type="float" />
<argument index="2" name="step" type="float" />
<description>
Returns the result of [code]value[/code] decreased by [code]step[/code] * [code]amount[/code].
[codeblock]
# a = 59
a = dectime(60, 10, 0.1))
[/codeblock]
</description>
</method>
<method name="deg2rad">
<return type="float" />
<argument index="0" name="deg" type="float" />

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@ -28,16 +28,6 @@ namespace Godot
return (real_t)Math.Exp(db * 0.11512925464970228420089957273422);
}
public static real_t DecTime(real_t value, real_t amount, real_t step)
{
real_t sgn = Mathf.Sign(value);
real_t val = Mathf.Abs(value);
val -= amount * step;
if (val < 0)
val = 0;
return val * sgn;
}
public static int Hash(object var)
{
return godot_icall_GD_hash(var);

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@ -105,117 +105,114 @@
<constant name="MATH_MOVE_TOWARD" value="29" enum="BuiltinFunc">
Moves the number toward a value, based on the third input.
</constant>
<constant name="MATH_DECTIME" value="30" enum="BuiltinFunc">
Return the result of [code]value[/code] decreased by [code]step[/code] * [code]amount[/code].
</constant>
<constant name="MATH_RANDOMIZE" value="31" enum="BuiltinFunc">
<constant name="MATH_RANDOMIZE" value="30" enum="BuiltinFunc">
Randomize the seed (or the internal state) of the random number generator. Current implementation reseeds using a number based on time.
</constant>
<constant name="MATH_RANDI" value="32" enum="BuiltinFunc">
<constant name="MATH_RANDI" value="31" enum="BuiltinFunc">
Return a random 32 bits integer value. To obtain a random value between 0 to N (where N is smaller than 2^32 - 1), you can use it with the remainder function.
</constant>
<constant name="MATH_RANDF" value="33" enum="BuiltinFunc">
<constant name="MATH_RANDF" value="32" enum="BuiltinFunc">
Return a random floating-point value between 0 and 1. To obtain a random value between 0 to N, you can use it with multiplication.
</constant>
<constant name="MATH_RANDF_RANGE" value="34" enum="BuiltinFunc">
<constant name="MATH_RANDF_RANGE" value="33" enum="BuiltinFunc">
Return a random floating-point value between the two inputs.
</constant>
<constant name="MATH_RANDI_RANGE" value="35" enum="BuiltinFunc">
<constant name="MATH_RANDI_RANGE" value="34" enum="BuiltinFunc">
Return a random 32-bit integer value between the two inputs.
</constant>
<constant name="MATH_SEED" value="36" enum="BuiltinFunc">
<constant name="MATH_SEED" value="35" enum="BuiltinFunc">
Set the seed for the random number generator.
</constant>
<constant name="MATH_RANDSEED" value="37" enum="BuiltinFunc">
<constant name="MATH_RANDSEED" value="36" enum="BuiltinFunc">
Return a random value from the given seed, along with the new seed.
</constant>
<constant name="MATH_DEG2RAD" value="38" enum="BuiltinFunc">
<constant name="MATH_DEG2RAD" value="37" enum="BuiltinFunc">
Convert the input from degrees to radians.
</constant>
<constant name="MATH_RAD2DEG" value="39" enum="BuiltinFunc">
<constant name="MATH_RAD2DEG" value="38" enum="BuiltinFunc">
Convert the input from radians to degrees.
</constant>
<constant name="MATH_LINEAR2DB" value="40" enum="BuiltinFunc">
<constant name="MATH_LINEAR2DB" value="39" enum="BuiltinFunc">
Convert the input from linear volume to decibel volume.
</constant>
<constant name="MATH_DB2LINEAR" value="41" enum="BuiltinFunc">
<constant name="MATH_DB2LINEAR" value="40" enum="BuiltinFunc">
Convert the input from decibel volume to linear volume.
</constant>
<constant name="MATH_POLAR2CARTESIAN" value="42" enum="BuiltinFunc">
<constant name="MATH_POLAR2CARTESIAN" value="41" enum="BuiltinFunc">
Converts a 2D point expressed in the polar coordinate system (a distance from the origin [code]r[/code] and an angle [code]th[/code]) to the cartesian coordinate system (X and Y axis).
</constant>
<constant name="MATH_CARTESIAN2POLAR" value="43" enum="BuiltinFunc">
<constant name="MATH_CARTESIAN2POLAR" value="42" enum="BuiltinFunc">
Converts a 2D point expressed in the cartesian coordinate system (X and Y axis) to the polar coordinate system (a distance from the origin and an angle).
</constant>
<constant name="MATH_WRAP" value="44" enum="BuiltinFunc">
<constant name="MATH_WRAP" value="43" enum="BuiltinFunc">
</constant>
<constant name="MATH_WRAPF" value="45" enum="BuiltinFunc">
<constant name="MATH_WRAPF" value="44" enum="BuiltinFunc">
</constant>
<constant name="LOGIC_MAX" value="46" enum="BuiltinFunc">
<constant name="LOGIC_MAX" value="45" enum="BuiltinFunc">
Return the greater of the two numbers, also known as their maximum.
</constant>
<constant name="LOGIC_MIN" value="47" enum="BuiltinFunc">
<constant name="LOGIC_MIN" value="46" enum="BuiltinFunc">
Return the lesser of the two numbers, also known as their minimum.
</constant>
<constant name="LOGIC_CLAMP" value="48" enum="BuiltinFunc">
<constant name="LOGIC_CLAMP" value="47" enum="BuiltinFunc">
Return the input clamped inside the given range, ensuring the result is never outside it. Equivalent to [code]min(max(input, range_low), range_high)[/code].
</constant>
<constant name="LOGIC_NEAREST_PO2" value="49" enum="BuiltinFunc">
<constant name="LOGIC_NEAREST_PO2" value="48" enum="BuiltinFunc">
Return the nearest power of 2 to the input.
</constant>
<constant name="OBJ_WEAKREF" value="50" enum="BuiltinFunc">
<constant name="OBJ_WEAKREF" value="49" enum="BuiltinFunc">
Create a [WeakRef] from the input.
</constant>
<constant name="TYPE_CONVERT" value="51" enum="BuiltinFunc">
<constant name="TYPE_CONVERT" value="50" enum="BuiltinFunc">
Convert between types.
</constant>
<constant name="TYPE_OF" value="52" enum="BuiltinFunc">
<constant name="TYPE_OF" value="51" enum="BuiltinFunc">
Return the type of the input as an integer. Check [enum Variant.Type] for the integers that might be returned.
</constant>
<constant name="TYPE_EXISTS" value="53" enum="BuiltinFunc">
<constant name="TYPE_EXISTS" value="52" enum="BuiltinFunc">
Checks if a type is registered in the [ClassDB].
</constant>
<constant name="TEXT_CHAR" value="54" enum="BuiltinFunc">
<constant name="TEXT_CHAR" value="53" enum="BuiltinFunc">
Return a character with the given ascii value.
</constant>
<constant name="TEXT_STR" value="55" enum="BuiltinFunc">
<constant name="TEXT_STR" value="54" enum="BuiltinFunc">
Convert the input to a string.
</constant>
<constant name="TEXT_PRINT" value="56" enum="BuiltinFunc">
<constant name="TEXT_PRINT" value="55" enum="BuiltinFunc">
Print the given string to the output window.
</constant>
<constant name="TEXT_PRINTERR" value="57" enum="BuiltinFunc">
<constant name="TEXT_PRINTERR" value="56" enum="BuiltinFunc">
Print the given string to the standard error output.
</constant>
<constant name="TEXT_PRINTRAW" value="58" enum="BuiltinFunc">
<constant name="TEXT_PRINTRAW" value="57" enum="BuiltinFunc">
Print the given string to the standard output, without adding a newline.
</constant>
<constant name="VAR_TO_STR" value="59" enum="BuiltinFunc">
<constant name="VAR_TO_STR" value="58" enum="BuiltinFunc">
Serialize a [Variant] to a string.
</constant>
<constant name="STR_TO_VAR" value="60" enum="BuiltinFunc">
<constant name="STR_TO_VAR" value="59" enum="BuiltinFunc">
Deserialize a [Variant] from a string serialized using [constant VAR_TO_STR].
</constant>
<constant name="VAR_TO_BYTES" value="61" enum="BuiltinFunc">
<constant name="VAR_TO_BYTES" value="60" enum="BuiltinFunc">
Serialize a [Variant] to a [PackedByteArray].
</constant>
<constant name="BYTES_TO_VAR" value="62" enum="BuiltinFunc">
<constant name="BYTES_TO_VAR" value="61" enum="BuiltinFunc">
Deserialize a [Variant] from a [PackedByteArray] serialized using [constant VAR_TO_BYTES].
</constant>
<constant name="MATH_SMOOTHSTEP" value="63" enum="BuiltinFunc">
<constant name="MATH_SMOOTHSTEP" value="62" enum="BuiltinFunc">
Return a number smoothly interpolated between the first two inputs, based on the third input. Similar to [constant MATH_LERP], but interpolates faster at the beginning and slower at the end. Using Hermite interpolation formula:
[codeblock]
var t = clamp((weight - from) / (to - from), 0.0, 1.0)
return t * t * (3.0 - 2.0 * t)
[/codeblock]
</constant>
<constant name="MATH_POSMOD" value="64" enum="BuiltinFunc">
<constant name="MATH_POSMOD" value="63" enum="BuiltinFunc">
</constant>
<constant name="MATH_LERP_ANGLE" value="65" enum="BuiltinFunc">
<constant name="MATH_LERP_ANGLE" value="64" enum="BuiltinFunc">
</constant>
<constant name="TEXT_ORD" value="66" enum="BuiltinFunc">
<constant name="TEXT_ORD" value="65" enum="BuiltinFunc">
</constant>
<constant name="FUNC_MAX" value="67" enum="BuiltinFunc">
<constant name="FUNC_MAX" value="66" enum="BuiltinFunc">
Represents the size of the [enum BuiltinFunc] enum.
</constant>
</constants>

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@ -68,7 +68,6 @@ const char *VisualScriptBuiltinFunc::func_name[VisualScriptBuiltinFunc::FUNC_MAX
"inverse_lerp",
"range_lerp",
"move_toward",
"dectime",
"randomize",
"randi",
"randf",
@ -206,7 +205,6 @@ int VisualScriptBuiltinFunc::get_func_argument_count(BuiltinFunc p_func) {
case MATH_INVERSE_LERP:
case MATH_SMOOTHSTEP:
case MATH_MOVE_TOWARD:
case MATH_DECTIME:
case MATH_WRAP:
case MATH_WRAPF:
case LOGIC_CLAMP:
@ -349,15 +347,6 @@ PropertyInfo VisualScriptBuiltinFunc::get_input_value_port_info(int p_idx) const
return PropertyInfo(Variant::FLOAT, "delta");
}
} break;
case MATH_DECTIME: {
if (p_idx == 0) {
return PropertyInfo(Variant::FLOAT, "value");
} else if (p_idx == 1) {
return PropertyInfo(Variant::FLOAT, "amount");
} else {
return PropertyInfo(Variant::FLOAT, "step");
}
} break;
case MATH_RANDOMIZE:
case MATH_RANDI:
case MATH_RANDF: {
@ -536,10 +525,6 @@ PropertyInfo VisualScriptBuiltinFunc::get_output_value_port_info(int p_idx) cons
case MATH_RANGE_LERP:
case MATH_SMOOTHSTEP:
case MATH_MOVE_TOWARD:
case MATH_DECTIME: {
t = Variant::FLOAT;
} break;
case MATH_RANDOMIZE: {
} break;
case MATH_RANDI: {
@ -837,12 +822,6 @@ void VisualScriptBuiltinFunc::exec_func(BuiltinFunc p_func, const Variant **p_in
VALIDATE_ARG_NUM(2);
*r_return = Math::move_toward((double)*p_inputs[0], (double)*p_inputs[1], (double)*p_inputs[2]);
} break;
case VisualScriptBuiltinFunc::MATH_DECTIME: {
VALIDATE_ARG_NUM(0);
VALIDATE_ARG_NUM(1);
VALIDATE_ARG_NUM(2);
*r_return = Math::dectime((double)*p_inputs[0], (double)*p_inputs[1], (double)*p_inputs[2]);
} break;
case VisualScriptBuiltinFunc::MATH_RANDOMIZE: {
Math::randomize();
@ -1239,7 +1218,6 @@ void VisualScriptBuiltinFunc::_bind_methods() {
BIND_ENUM_CONSTANT(MATH_INVERSE_LERP);
BIND_ENUM_CONSTANT(MATH_RANGE_LERP);
BIND_ENUM_CONSTANT(MATH_MOVE_TOWARD);
BIND_ENUM_CONSTANT(MATH_DECTIME);
BIND_ENUM_CONSTANT(MATH_RANDOMIZE);
BIND_ENUM_CONSTANT(MATH_RANDI);
BIND_ENUM_CONSTANT(MATH_RANDF);
@ -1330,7 +1308,6 @@ void register_visual_script_builtin_func_node() {
VisualScriptLanguage::singleton->add_register_func("functions/built_in/range_lerp", create_builtin_func_node<VisualScriptBuiltinFunc::MATH_RANGE_LERP>);
VisualScriptLanguage::singleton->add_register_func("functions/built_in/smoothstep", create_builtin_func_node<VisualScriptBuiltinFunc::MATH_SMOOTHSTEP>);
VisualScriptLanguage::singleton->add_register_func("functions/built_in/move_toward", create_builtin_func_node<VisualScriptBuiltinFunc::MATH_MOVE_TOWARD>);
VisualScriptLanguage::singleton->add_register_func("functions/built_in/dectime", create_builtin_func_node<VisualScriptBuiltinFunc::MATH_DECTIME>);
VisualScriptLanguage::singleton->add_register_func("functions/built_in/randomize", create_builtin_func_node<VisualScriptBuiltinFunc::MATH_RANDOMIZE>);
VisualScriptLanguage::singleton->add_register_func("functions/built_in/randi", create_builtin_func_node<VisualScriptBuiltinFunc::MATH_RANDI>);
VisualScriptLanguage::singleton->add_register_func("functions/built_in/randf", create_builtin_func_node<VisualScriptBuiltinFunc::MATH_RANDF>);

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@ -68,7 +68,6 @@ public:
MATH_INVERSE_LERP,
MATH_RANGE_LERP,
MATH_MOVE_TOWARD,
MATH_DECTIME,
MATH_RANDOMIZE,
MATH_RANDI,
MATH_RANDF,