blender/intern/cycles/render/nodes.h

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/*
* Copyright 2011-2013 Blender Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License
*/
#ifndef __NODES_H__
#define __NODES_H__
#include "graph.h"
#include "util_string.h"
CCL_NAMESPACE_BEGIN
class ImageManager;
class Shader;
/* Texture Mapping */
class TextureMapping {
public:
TextureMapping();
Transform compute_transform();
bool skip();
void compile(SVMCompiler& compiler, int offset_in, int offset_out);
void compile(OSLCompiler &compiler);
float3 translation;
float3 rotation;
float3 scale;
float3 min, max;
bool use_minmax;
enum Type { POINT = 0, TEXTURE = 1, VECTOR = 2, NORMAL = 3 };
Type type;
enum Mapping { NONE = 0, X = 1, Y = 2, Z = 3 };
Mapping x_mapping, y_mapping, z_mapping;
enum Projection { FLAT, CUBE, TUBE, SPHERE };
Projection projection;
};
/* Nodes */
class TextureNode : public ShaderNode {
public:
TextureNode(const char *name_) : ShaderNode(name_) {}
TextureMapping tex_mapping;
};
class ImageTextureNode : public TextureNode {
public:
SHADER_NODE_NO_CLONE_CLASS(ImageTextureNode)
~ImageTextureNode();
ShaderNode *clone() const;
void attributes(Shader *shader, AttributeRequestSet *attributes);
ImageManager *image_manager;
int slot;
int is_float;
bool is_linear;
string filename;
void *builtin_data;
ustring color_space;
ustring projection;
InterpolationType interpolation;
float projection_blend;
bool animated;
static ShaderEnum color_space_enum;
static ShaderEnum projection_enum;
};
class EnvironmentTextureNode : public TextureNode {
public:
SHADER_NODE_NO_CLONE_CLASS(EnvironmentTextureNode)
~EnvironmentTextureNode();
ShaderNode *clone() const;
void attributes(Shader *shader, AttributeRequestSet *attributes);
ImageManager *image_manager;
int slot;
int is_float;
bool is_linear;
string filename;
void *builtin_data;
ustring color_space;
ustring projection;
bool animated;
static ShaderEnum color_space_enum;
static ShaderEnum projection_enum;
};
class SkyTextureNode : public TextureNode {
public:
SHADER_NODE_CLASS(SkyTextureNode)
float3 sun_direction;
float turbidity;
float ground_albedo;
ustring type;
static ShaderEnum type_enum;
};
class OutputNode : public ShaderNode {
public:
SHADER_NODE_CLASS(OutputNode)
};
class GradientTextureNode : public TextureNode {
public:
SHADER_NODE_CLASS(GradientTextureNode)
ustring type;
static ShaderEnum type_enum;
};
class NoiseTextureNode : public TextureNode {
public:
SHADER_NODE_CLASS(NoiseTextureNode)
};
class VoronoiTextureNode : public TextureNode {
public:
SHADER_NODE_CLASS(VoronoiTextureNode)
ustring coloring;
static ShaderEnum coloring_enum;
};
class MusgraveTextureNode : public TextureNode {
public:
SHADER_NODE_CLASS(MusgraveTextureNode)
ustring type;
static ShaderEnum type_enum;
};
class WaveTextureNode : public TextureNode {
public:
SHADER_NODE_CLASS(WaveTextureNode)
ustring type;
static ShaderEnum type_enum;
};
class MagicTextureNode : public TextureNode {
public:
SHADER_NODE_CLASS(MagicTextureNode)
int depth;
};
class CheckerTextureNode : public TextureNode {
public:
SHADER_NODE_CLASS(CheckerTextureNode)
};
class BrickTextureNode : public TextureNode {
public:
SHADER_NODE_CLASS(BrickTextureNode)
float offset, squash;
int offset_frequency, squash_frequency;
};
class MappingNode : public ShaderNode {
public:
SHADER_NODE_CLASS(MappingNode)
TextureMapping tex_mapping;
};
class ConvertNode : public ShaderNode {
public:
ConvertNode(ShaderSocketType from, ShaderSocketType to, bool autoconvert = false);
SHADER_NODE_BASE_CLASS(ConvertNode)
ShaderSocketType from, to;
};
class ProxyNode : public ShaderNode {
public:
Merge of the PyNodes branch (aka "custom nodes") into trunk. PyNodes opens up the node system in Blender to scripters and adds a number of UI-level improvements. === Dynamic node type registration === Node types can now be added at runtime, using the RNA registration mechanism from python. This enables addons such as render engines to create a complete user interface with nodes. Examples of how such nodes can be defined can be found in my personal wiki docs atm [1] and as a script template in release/scripts/templates_py/custom_nodes.py [2]. === Node group improvements === Each node editor now has a tree history of edited node groups, which allows opening and editing nested node groups. The node editor also supports pinning now, so that different spaces can be used to edit different node groups simultaneously. For more ramblings and rationale see (really old) blog post on code.blender.org [3]. The interface of node groups has been overhauled. Sockets of a node group are no longer displayed in columns on either side, but instead special input/output nodes are used to mirror group sockets inside a node tree. This solves the problem of long node lines in groups and allows more adaptable node layout. Internal sockets can be exposed from a group by either connecting to the extension sockets in input/output nodes (shown as empty circle) or by adding sockets from the node property bar in the "Interface" panel. Further details such as the socket name can also be changed there. [1] http://wiki.blender.org/index.php/User:Phonybone/Python_Nodes [2] http://projects.blender.org/scm/viewvc.php/trunk/blender/release/scripts/templates_py/custom_nodes.py?view=markup&root=bf-blender [3] http://code.blender.org/index.php/2012/01/improving-node-group-interface-editing/
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ProxyNode(ShaderSocketType type);
SHADER_NODE_BASE_CLASS(ProxyNode)
Merge of the PyNodes branch (aka "custom nodes") into trunk. PyNodes opens up the node system in Blender to scripters and adds a number of UI-level improvements. === Dynamic node type registration === Node types can now be added at runtime, using the RNA registration mechanism from python. This enables addons such as render engines to create a complete user interface with nodes. Examples of how such nodes can be defined can be found in my personal wiki docs atm [1] and as a script template in release/scripts/templates_py/custom_nodes.py [2]. === Node group improvements === Each node editor now has a tree history of edited node groups, which allows opening and editing nested node groups. The node editor also supports pinning now, so that different spaces can be used to edit different node groups simultaneously. For more ramblings and rationale see (really old) blog post on code.blender.org [3]. The interface of node groups has been overhauled. Sockets of a node group are no longer displayed in columns on either side, but instead special input/output nodes are used to mirror group sockets inside a node tree. This solves the problem of long node lines in groups and allows more adaptable node layout. Internal sockets can be exposed from a group by either connecting to the extension sockets in input/output nodes (shown as empty circle) or by adding sockets from the node property bar in the "Interface" panel. Further details such as the socket name can also be changed there. [1] http://wiki.blender.org/index.php/User:Phonybone/Python_Nodes [2] http://projects.blender.org/scm/viewvc.php/trunk/blender/release/scripts/templates_py/custom_nodes.py?view=markup&root=bf-blender [3] http://code.blender.org/index.php/2012/01/improving-node-group-interface-editing/
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ShaderSocketType type;
};
class BsdfNode : public ShaderNode {
public:
BsdfNode(bool scattering = false);
SHADER_NODE_BASE_CLASS(BsdfNode);
void compile(SVMCompiler& compiler, ShaderInput *param1, ShaderInput *param2, ShaderInput *param3 = NULL, ShaderInput *param4 = NULL);
ClosureType closure;
bool scattering;
};
class WardBsdfNode : public BsdfNode {
public:
SHADER_NODE_CLASS(WardBsdfNode)
void attributes(Shader *shader, AttributeRequestSet *attributes);
};
class DiffuseBsdfNode : public BsdfNode {
public:
SHADER_NODE_CLASS(DiffuseBsdfNode)
};
class TranslucentBsdfNode : public BsdfNode {
public:
SHADER_NODE_CLASS(TranslucentBsdfNode)
};
class TransparentBsdfNode : public BsdfNode {
public:
SHADER_NODE_CLASS(TransparentBsdfNode)
bool has_surface_transparent() { return true; }
};
class VelvetBsdfNode : public BsdfNode {
public:
SHADER_NODE_CLASS(VelvetBsdfNode)
};
class GlossyBsdfNode : public BsdfNode {
public:
SHADER_NODE_CLASS(GlossyBsdfNode)
ustring distribution;
static ShaderEnum distribution_enum;
};
class GlassBsdfNode : public BsdfNode {
public:
SHADER_NODE_CLASS(GlassBsdfNode)
ustring distribution;
static ShaderEnum distribution_enum;
};
class RefractionBsdfNode : public BsdfNode {
public:
SHADER_NODE_CLASS(RefractionBsdfNode)
ustring distribution;
static ShaderEnum distribution_enum;
};
class ToonBsdfNode : public BsdfNode {
public:
SHADER_NODE_CLASS(ToonBsdfNode)
ustring component;
static ShaderEnum component_enum;
};
class SubsurfaceScatteringNode : public BsdfNode {
public:
SHADER_NODE_CLASS(SubsurfaceScatteringNode)
bool has_surface_bssrdf() { return true; }
bool has_bssrdf_bump();
static ShaderEnum falloff_enum;
};
class EmissionNode : public ShaderNode {
public:
SHADER_NODE_CLASS(EmissionNode)
bool has_surface_emission() { return true; }
bool total_power;
};
class BackgroundNode : public ShaderNode {
public:
SHADER_NODE_CLASS(BackgroundNode)
};
class HoldoutNode : public ShaderNode {
public:
SHADER_NODE_CLASS(HoldoutNode)
};
class AmbientOcclusionNode : public ShaderNode {
public:
SHADER_NODE_CLASS(AmbientOcclusionNode)
};
class VolumeNode : public ShaderNode {
public:
SHADER_NODE_CLASS(VolumeNode)
void compile(SVMCompiler& compiler, ShaderInput *param1, ShaderInput *param2);
ClosureType closure;
};
class AbsorptionVolumeNode : public VolumeNode {
public:
SHADER_NODE_CLASS(AbsorptionVolumeNode)
};
class ScatterVolumeNode : public VolumeNode {
public:
SHADER_NODE_CLASS(ScatterVolumeNode)
};
class HairBsdfNode : public BsdfNode {
public:
SHADER_NODE_CLASS(HairBsdfNode)
ustring component;
static ShaderEnum component_enum;
};
class GeometryNode : public ShaderNode {
public:
SHADER_NODE_CLASS(GeometryNode)
void attributes(Shader *shader, AttributeRequestSet *attributes);
};
class TextureCoordinateNode : public ShaderNode {
public:
SHADER_NODE_CLASS(TextureCoordinateNode)
void attributes(Shader *shader, AttributeRequestSet *attributes);
bool from_dupli;
};
class LightPathNode : public ShaderNode {
public:
SHADER_NODE_CLASS(LightPathNode)
};
class LightFalloffNode : public ShaderNode {
public:
SHADER_NODE_CLASS(LightFalloffNode)
};
class ObjectInfoNode : public ShaderNode {
public:
SHADER_NODE_CLASS(ObjectInfoNode)
};
class ParticleInfoNode : public ShaderNode {
public:
SHADER_NODE_CLASS(ParticleInfoNode)
void attributes(Shader *shader, AttributeRequestSet *attributes);
};
class HairInfoNode : public ShaderNode {
public:
SHADER_NODE_CLASS(HairInfoNode)
void attributes(Shader *shader, AttributeRequestSet *attributes);
};
class ValueNode : public ShaderNode {
public:
SHADER_NODE_CLASS(ValueNode)
float value;
};
class ColorNode : public ShaderNode {
public:
SHADER_NODE_CLASS(ColorNode)
float3 value;
};
class AddClosureNode : public ShaderNode {
public:
SHADER_NODE_CLASS(AddClosureNode)
};
class MixClosureNode : public ShaderNode {
public:
SHADER_NODE_CLASS(MixClosureNode)
};
class MixClosureWeightNode : public ShaderNode {
public:
SHADER_NODE_CLASS(MixClosureWeightNode);
};
class InvertNode : public ShaderNode {
public:
SHADER_NODE_CLASS(InvertNode)
};
class MixNode : public ShaderNode {
public:
SHADER_NODE_CLASS(MixNode)
bool use_clamp;
ustring type;
static ShaderEnum type_enum;
};
class CombineRGBNode : public ShaderNode {
public:
SHADER_NODE_CLASS(CombineRGBNode)
};
class CombineHSVNode : public ShaderNode {
public:
SHADER_NODE_CLASS(CombineHSVNode)
};
class GammaNode : public ShaderNode {
public:
SHADER_NODE_CLASS(GammaNode)
};
class BrightContrastNode : public ShaderNode {
public:
SHADER_NODE_CLASS(BrightContrastNode)
};
class SeparateRGBNode : public ShaderNode {
public:
SHADER_NODE_CLASS(SeparateRGBNode)
};
class SeparateHSVNode : public ShaderNode {
public:
SHADER_NODE_CLASS(SeparateHSVNode)
};
class HSVNode : public ShaderNode {
public:
SHADER_NODE_CLASS(HSVNode)
};
class AttributeNode : public ShaderNode {
public:
SHADER_NODE_CLASS(AttributeNode)
void attributes(Shader *shader, AttributeRequestSet *attributes);
ustring attribute;
};
class CameraNode : public ShaderNode {
public:
SHADER_NODE_CLASS(CameraNode)
};
class FresnelNode : public ShaderNode {
public:
SHADER_NODE_CLASS(FresnelNode)
};
class LayerWeightNode : public ShaderNode {
public:
SHADER_NODE_CLASS(LayerWeightNode)
};
class WireframeNode : public ShaderNode {
public:
SHADER_NODE_CLASS(WireframeNode)
bool use_pixel_size;
};
class WavelengthNode : public ShaderNode {
public:
SHADER_NODE_CLASS(WavelengthNode)
};
class BlackbodyNode : public ShaderNode {
public:
SHADER_NODE_CLASS(BlackbodyNode)
bool has_converter_blackbody() { return true; }
};
class MathNode : public ShaderNode {
public:
SHADER_NODE_CLASS(MathNode)
bool use_clamp;
ustring type;
static ShaderEnum type_enum;
};
class NormalNode : public ShaderNode {
public:
SHADER_NODE_CLASS(NormalNode)
float3 direction;
};
class VectorMathNode : public ShaderNode {
public:
SHADER_NODE_CLASS(VectorMathNode)
ustring type;
static ShaderEnum type_enum;
};
class VectorTransformNode : public ShaderNode {
public:
SHADER_NODE_CLASS(VectorTransformNode)
ustring type;
ustring convert_from;
ustring convert_to;
static ShaderEnum type_enum;
static ShaderEnum convert_space_enum;
};
class BumpNode : public ShaderNode {
public:
SHADER_NODE_CLASS(BumpNode)
bool invert;
};
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class RGBCurvesNode : public ShaderNode {
public:
SHADER_NODE_CLASS(RGBCurvesNode)
float4 curves[RAMP_TABLE_SIZE];
};
class VectorCurvesNode : public ShaderNode {
public:
SHADER_NODE_CLASS(VectorCurvesNode)
float4 curves[RAMP_TABLE_SIZE];
};
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class RGBRampNode : public ShaderNode {
public:
SHADER_NODE_CLASS(RGBRampNode)
float4 ramp[RAMP_TABLE_SIZE];
bool interpolate;
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};
class SetNormalNode : public ShaderNode {
public:
SHADER_NODE_CLASS(SetNormalNode)
};
class OSLScriptNode : public ShaderNode {
public:
SHADER_NODE_CLASS(OSLScriptNode)
string filepath;
string bytecode_hash;
/* ShaderInput/ShaderOutput only stores a shallow string copy (const char *)!
* The actual socket names have to be stored externally to avoid memory errors. */
vector<ustring> input_names;
vector<ustring> output_names;
};
class NormalMapNode : public ShaderNode {
public:
SHADER_NODE_CLASS(NormalMapNode)
void attributes(Shader *shader, AttributeRequestSet *attributes);
ustring space;
static ShaderEnum space_enum;
ustring attribute;
};
class TangentNode : public ShaderNode {
public:
SHADER_NODE_CLASS(TangentNode)
void attributes(Shader *shader, AttributeRequestSet *attributes);
ustring direction_type;
static ShaderEnum direction_type_enum;
ustring axis;
static ShaderEnum axis_enum;
ustring attribute;
};
CCL_NAMESPACE_END
#endif /* __NODES_H__ */