Reduce repeated text for SmoothStep and translations

This commit is contained in:
Sofox 2024-09-26 22:14:40 +01:00
parent a0d1ba4a3d
commit 69b240e8ca

View file

@ -7108,7 +7108,7 @@ VisualShaderEditor::VisualShaderEditor() {
add_options.push_back(AddOption("Sin", "Scalar/Functions", "VisualShaderNodeFloatFunc", TTR("Returns the sine of the parameter."), { VisualShaderNodeFloatFunc::FUNC_SIN }, VisualShaderNode::PORT_TYPE_SCALAR)); add_options.push_back(AddOption("Sin", "Scalar/Functions", "VisualShaderNodeFloatFunc", TTR("Returns the sine of the parameter."), { VisualShaderNodeFloatFunc::FUNC_SIN }, VisualShaderNode::PORT_TYPE_SCALAR));
add_options.push_back(AddOption("SinH", "Scalar/Functions", "VisualShaderNodeFloatFunc", TTR("Returns the hyperbolic sine of the parameter."), { VisualShaderNodeFloatFunc::FUNC_SINH }, VisualShaderNode::PORT_TYPE_SCALAR)); add_options.push_back(AddOption("SinH", "Scalar/Functions", "VisualShaderNodeFloatFunc", TTR("Returns the hyperbolic sine of the parameter."), { VisualShaderNodeFloatFunc::FUNC_SINH }, VisualShaderNode::PORT_TYPE_SCALAR));
add_options.push_back(AddOption("Sqrt", "Scalar/Functions", "VisualShaderNodeFloatFunc", TTR("Returns the square root of the parameter."), { VisualShaderNodeFloatFunc::FUNC_SQRT }, VisualShaderNode::PORT_TYPE_SCALAR)); add_options.push_back(AddOption("Sqrt", "Scalar/Functions", "VisualShaderNodeFloatFunc", TTR("Returns the square root of the parameter."), { VisualShaderNodeFloatFunc::FUNC_SQRT }, VisualShaderNode::PORT_TYPE_SCALAR));
add_options.push_back(AddOption("SmoothStep", "Scalar/Functions", "VisualShaderNodeSmoothStep", TTR("SmoothStep function( scalar(edge0), scalar(edge1), scalar(x) ).\n\nReturns 0.0 if 'x' is smaller than 'edge0' and 1.0 if x is larger than 'edge1'. Otherwise the return value is interpolated between 0.0 and 1.0 using Hermite polynomials."), { VisualShaderNodeSmoothStep::OP_TYPE_SCALAR }, VisualShaderNode::PORT_TYPE_SCALAR)); add_options.push_back(AddOption("SmoothStep", "Scalar/Functions", "VisualShaderNodeSmoothStep", TTR("SmoothStep function( scalar(edge0), scalar(edge1), scalar(x) ).\n\n") + TTR("Returns 0.0 if 'x' is smaller than 'edge0' and 1.0 if 'x' is larger than 'edge1'. Otherwise the return value is interpolated between 0.0 and 1.0 using Hermite polynomials."), { VisualShaderNodeSmoothStep::OP_TYPE_SCALAR }, VisualShaderNode::PORT_TYPE_SCALAR));
add_options.push_back(AddOption("Step", "Scalar/Functions", "VisualShaderNodeStep", TTR("Step function( scalar(edge), scalar(x) ).\n\nReturns 0.0 if 'x' is smaller than 'edge' and otherwise 1.0."), { VisualShaderNodeStep::OP_TYPE_SCALAR }, VisualShaderNode::PORT_TYPE_SCALAR)); add_options.push_back(AddOption("Step", "Scalar/Functions", "VisualShaderNodeStep", TTR("Step function( scalar(edge), scalar(x) ).\n\nReturns 0.0 if 'x' is smaller than 'edge' and otherwise 1.0."), { VisualShaderNodeStep::OP_TYPE_SCALAR }, VisualShaderNode::PORT_TYPE_SCALAR));
add_options.push_back(AddOption("Sum", "Scalar/Functions", "VisualShaderNodeDerivativeFunc", TTR("(Fragment/Light mode only) (Scalar) Sum of absolute derivative in 'x' and 'y'."), { VisualShaderNodeDerivativeFunc::FUNC_SUM, VisualShaderNodeDerivativeFunc::OP_TYPE_SCALAR }, VisualShaderNode::PORT_TYPE_SCALAR, TYPE_FLAGS_FRAGMENT | TYPE_FLAGS_LIGHT, -1, true)); add_options.push_back(AddOption("Sum", "Scalar/Functions", "VisualShaderNodeDerivativeFunc", TTR("(Fragment/Light mode only) (Scalar) Sum of absolute derivative in 'x' and 'y'."), { VisualShaderNodeDerivativeFunc::FUNC_SUM, VisualShaderNodeDerivativeFunc::OP_TYPE_SCALAR }, VisualShaderNode::PORT_TYPE_SCALAR, TYPE_FLAGS_FRAGMENT | TYPE_FLAGS_LIGHT, -1, true));
add_options.push_back(AddOption("Tan", "Scalar/Functions", "VisualShaderNodeFloatFunc", TTR("Returns the tangent of the parameter."), { VisualShaderNodeFloatFunc::FUNC_TAN }, VisualShaderNode::PORT_TYPE_SCALAR)); add_options.push_back(AddOption("Tan", "Scalar/Functions", "VisualShaderNodeFloatFunc", TTR("Returns the tangent of the parameter."), { VisualShaderNodeFloatFunc::FUNC_TAN }, VisualShaderNode::PORT_TYPE_SCALAR));
@ -7377,12 +7377,12 @@ VisualShaderEditor::VisualShaderEditor() {
add_options.push_back(AddOption("Sqrt", "Vector/Functions", "VisualShaderNodeVectorFunc", TTR("Returns the square root of the parameter."), { VisualShaderNodeVectorFunc::FUNC_SQRT, VisualShaderNodeVectorFunc::OP_TYPE_VECTOR_2D }, VisualShaderNode::PORT_TYPE_VECTOR_2D)); add_options.push_back(AddOption("Sqrt", "Vector/Functions", "VisualShaderNodeVectorFunc", TTR("Returns the square root of the parameter."), { VisualShaderNodeVectorFunc::FUNC_SQRT, VisualShaderNodeVectorFunc::OP_TYPE_VECTOR_2D }, VisualShaderNode::PORT_TYPE_VECTOR_2D));
add_options.push_back(AddOption("Sqrt", "Vector/Functions", "VisualShaderNodeVectorFunc", TTR("Returns the square root of the parameter."), { VisualShaderNodeVectorFunc::FUNC_SQRT, VisualShaderNodeVectorFunc::OP_TYPE_VECTOR_3D }, VisualShaderNode::PORT_TYPE_VECTOR_3D)); add_options.push_back(AddOption("Sqrt", "Vector/Functions", "VisualShaderNodeVectorFunc", TTR("Returns the square root of the parameter."), { VisualShaderNodeVectorFunc::FUNC_SQRT, VisualShaderNodeVectorFunc::OP_TYPE_VECTOR_3D }, VisualShaderNode::PORT_TYPE_VECTOR_3D));
add_options.push_back(AddOption("Sqrt", "Vector/Functions", "VisualShaderNodeVectorFunc", TTR("Returns the square root of the parameter."), { VisualShaderNodeVectorFunc::FUNC_SQRT, VisualShaderNodeVectorFunc::OP_TYPE_VECTOR_4D }, VisualShaderNode::PORT_TYPE_VECTOR_4D)); add_options.push_back(AddOption("Sqrt", "Vector/Functions", "VisualShaderNodeVectorFunc", TTR("Returns the square root of the parameter."), { VisualShaderNodeVectorFunc::FUNC_SQRT, VisualShaderNodeVectorFunc::OP_TYPE_VECTOR_4D }, VisualShaderNode::PORT_TYPE_VECTOR_4D));
add_options.push_back(AddOption("SmoothStep", "Vector/Functions", "VisualShaderNodeSmoothStep", TTR("SmoothStep function( vector(edge0), vector(edge1), vector(x) ).\n\nReturns 0.0 if 'x' is smaller than 'edge0' and 1.0 if 'x' is larger than 'edge1'. Otherwise the return value is interpolated between 0.0 and 1.0 using Hermite polynomials."), { VisualShaderNodeSmoothStep::OP_TYPE_VECTOR_2D }, VisualShaderNode::PORT_TYPE_VECTOR_2D)); add_options.push_back(AddOption("SmoothStep", "Vector/Functions", "VisualShaderNodeSmoothStep", TTR("SmoothStep function( vector(edge0), vector(edge1), vector(x) ).\n\n") + TTR("Returns 0.0 if 'x' is smaller than 'edge0' and 1.0 if 'x' is larger than 'edge1'. Otherwise the return value is interpolated between 0.0 and 1.0 using Hermite polynomials."), { VisualShaderNodeSmoothStep::OP_TYPE_VECTOR_2D }, VisualShaderNode::PORT_TYPE_VECTOR_2D));
add_options.push_back(AddOption("SmoothStep", "Vector/Functions", "VisualShaderNodeSmoothStep", TTR("SmoothStep function( vector(edge0), vector(edge1), vector(x) ).\n\nReturns 0.0 if 'x' is smaller than 'edge0' and 1.0 if 'x' is larger than 'edge1'. Otherwise the return value is interpolated between 0.0 and 1.0 using Hermite polynomials."), { VisualShaderNodeSmoothStep::OP_TYPE_VECTOR_3D }, VisualShaderNode::PORT_TYPE_VECTOR_3D)); add_options.push_back(AddOption("SmoothStep", "Vector/Functions", "VisualShaderNodeSmoothStep", TTR("SmoothStep function( vector(edge0), vector(edge1), vector(x) ).\n\n") + TTR("Returns 0.0 if 'x' is smaller than 'edge0' and 1.0 if 'x' is larger than 'edge1'. Otherwise the return value is interpolated between 0.0 and 1.0 using Hermite polynomials."), { VisualShaderNodeSmoothStep::OP_TYPE_VECTOR_3D }, VisualShaderNode::PORT_TYPE_VECTOR_3D));
add_options.push_back(AddOption("SmoothStep", "Vector/Functions", "VisualShaderNodeSmoothStep", TTR("SmoothStep function( vector(edge0), vector(edge1), vector(x) ).\n\nReturns 0.0 if 'x' is smaller than 'edge0' and 1.0 if 'x' is larger than 'edge1'. Otherwise the return value is interpolated between 0.0 and 1.0 using Hermite polynomials."), { VisualShaderNodeSmoothStep::OP_TYPE_VECTOR_4D }, VisualShaderNode::PORT_TYPE_VECTOR_4D)); add_options.push_back(AddOption("SmoothStep", "Vector/Functions", "VisualShaderNodeSmoothStep", TTR("SmoothStep function( vector(edge0), vector(edge1), vector(x) ).\n\n") + TTR("Returns 0.0 if 'x' is smaller than 'edge0' and 1.0 if 'x' is larger than 'edge1'. Otherwise the return value is interpolated between 0.0 and 1.0 using Hermite polynomials."), { VisualShaderNodeSmoothStep::OP_TYPE_VECTOR_4D }, VisualShaderNode::PORT_TYPE_VECTOR_4D));
add_options.push_back(AddOption("SmoothStepS", "Vector/Functions", "VisualShaderNodeSmoothStep", TTR("SmoothStep function( scalar(edge0), scalar(edge1), vector(x) ).\n\nReturns 0.0 if 'x' is smaller than 'edge0' and 1.0 if 'x' is larger than 'edge1'. Otherwise the return value is interpolated between 0.0 and 1.0 using Hermite polynomials."), { VisualShaderNodeSmoothStep::OP_TYPE_VECTOR_2D_SCALAR }, VisualShaderNode::PORT_TYPE_VECTOR_2D)); add_options.push_back(AddOption("SmoothStepS", "Vector/Functions", "VisualShaderNodeSmoothStep", TTR("SmoothStep function( scalar(edge0), scalar(edge1), vector(x) ).\n\n") + TTR("Returns 0.0 if 'x' is smaller than 'edge0' and 1.0 if 'x' is larger than 'edge1'. Otherwise the return value is interpolated between 0.0 and 1.0 using Hermite polynomials."), { VisualShaderNodeSmoothStep::OP_TYPE_VECTOR_2D_SCALAR }, VisualShaderNode::PORT_TYPE_VECTOR_2D));
add_options.push_back(AddOption("SmoothStepS", "Vector/Functions", "VisualShaderNodeSmoothStep", TTR("SmoothStep function( scalar(edge0), scalar(edge1), vector(x) ).\n\nReturns 0.0 if 'x' is smaller than 'edge0' and 1.0 if 'x' is larger than 'edge1'. Otherwise the return value is interpolated between 0.0 and 1.0 using Hermite polynomials."), { VisualShaderNodeSmoothStep::OP_TYPE_VECTOR_3D_SCALAR }, VisualShaderNode::PORT_TYPE_VECTOR_3D)); add_options.push_back(AddOption("SmoothStepS", "Vector/Functions", "VisualShaderNodeSmoothStep", TTR("SmoothStep function( scalar(edge0), scalar(edge1), vector(x) ).\n\n") + TTR("Returns 0.0 if 'x' is smaller than 'edge0' and 1.0 if 'x' is larger than 'edge1'. Otherwise the return value is interpolated between 0.0 and 1.0 using Hermite polynomials."), { VisualShaderNodeSmoothStep::OP_TYPE_VECTOR_3D_SCALAR }, VisualShaderNode::PORT_TYPE_VECTOR_3D));
add_options.push_back(AddOption("SmoothStepS", "Vector/Functions", "VisualShaderNodeSmoothStep", TTR("SmoothStep function( scalar(edge0), scalar(edge1), vector(x) ).\n\nReturns 0.0 if 'x' is smaller than 'edge0' and 1.0 if 'x' is larger than 'edge1'. Otherwise the return value is interpolated between 0.0 and 1.0 using Hermite polynomials."), { VisualShaderNodeSmoothStep::OP_TYPE_VECTOR_4D_SCALAR }, VisualShaderNode::PORT_TYPE_VECTOR_4D)); add_options.push_back(AddOption("SmoothStepS", "Vector/Functions", "VisualShaderNodeSmoothStep", TTR("SmoothStep function( scalar(edge0), scalar(edge1), vector(x) ).\n\n") + TTR("Returns 0.0 if 'x' is smaller than 'edge0' and 1.0 if 'x' is larger than 'edge1'. Otherwise the return value is interpolated between 0.0 and 1.0 using Hermite polynomials."), { VisualShaderNodeSmoothStep::OP_TYPE_VECTOR_4D_SCALAR }, VisualShaderNode::PORT_TYPE_VECTOR_4D));
add_options.push_back(AddOption("Step", "Vector/Functions", "VisualShaderNodeStep", TTR("Step function( vector(edge), vector(x) ).\n\nReturns 0.0 if 'x' is smaller than 'edge' and otherwise 1.0."), { VisualShaderNodeStep::OP_TYPE_VECTOR_2D }, VisualShaderNode::PORT_TYPE_VECTOR_2D)); add_options.push_back(AddOption("Step", "Vector/Functions", "VisualShaderNodeStep", TTR("Step function( vector(edge), vector(x) ).\n\nReturns 0.0 if 'x' is smaller than 'edge' and otherwise 1.0."), { VisualShaderNodeStep::OP_TYPE_VECTOR_2D }, VisualShaderNode::PORT_TYPE_VECTOR_2D));
add_options.push_back(AddOption("Step", "Vector/Functions", "VisualShaderNodeStep", TTR("Step function( vector(edge), vector(x) ).\n\nReturns 0.0 if 'x' is smaller than 'edge' and otherwise 1.0."), { VisualShaderNodeStep::OP_TYPE_VECTOR_3D }, VisualShaderNode::PORT_TYPE_VECTOR_3D)); add_options.push_back(AddOption("Step", "Vector/Functions", "VisualShaderNodeStep", TTR("Step function( vector(edge), vector(x) ).\n\nReturns 0.0 if 'x' is smaller than 'edge' and otherwise 1.0."), { VisualShaderNodeStep::OP_TYPE_VECTOR_3D }, VisualShaderNode::PORT_TYPE_VECTOR_3D));
add_options.push_back(AddOption("StepS", "Vector/Functions", "VisualShaderNodeStep", TTR("Step function( scalar(edge), vector(x) ).\n\nReturns 0.0 if 'x' is smaller than 'edge' and otherwise 1.0."), { VisualShaderNodeStep::OP_TYPE_VECTOR_2D_SCALAR }, VisualShaderNode::PORT_TYPE_VECTOR_2D)); add_options.push_back(AddOption("StepS", "Vector/Functions", "VisualShaderNodeStep", TTR("Step function( scalar(edge), vector(x) ).\n\nReturns 0.0 if 'x' is smaller than 'edge' and otherwise 1.0."), { VisualShaderNodeStep::OP_TYPE_VECTOR_2D_SCALAR }, VisualShaderNode::PORT_TYPE_VECTOR_2D));