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Spelling fixes
git-svn-id: svn://svn.code.sf.net/p/irrlicht/code/trunk@6456 dfc29bdd-3216-0410-991c-e03cc46cb475
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@ -1522,7 +1522,7 @@ Changes in 1.7 (03.02.2010)
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- More draw2dimage support in software drivers
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- Sphere node now properly chooses a good tesselation based on the parameters
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- Sphere node now properly chooses a good tessellation based on the parameters
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- Active camera not registered twice anymore
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@ -87,7 +87,7 @@ namespace scene
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s32 numTags; //number of 'tags' per frame
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s32 numMeshes; //number of meshes/skins
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s32 numMaxSkins;//maximum number of unique skins used in md3 file. artefact md2
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s32 frameStart; //starting position of frame-structur
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s32 frameStart; //starting position of frame-structure
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s32 tagStart; //starting position of tag-structures
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s32 tagEnd; //ending position of tag-structures/starting position of mesh-structures
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s32 fileSize;
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@ -102,7 +102,7 @@ namespace scene
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zfail method, if not, zpass is used.
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\param infinity: Value used by the shadow volume algorithm to
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scale the shadow volume. For zfail shadow volumes on some drivers
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only suppport finite shadows, so camera zfar must be larger than
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only support finite shadows, so camera zfar must be larger than
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shadow back cap,which is depending on the infinity parameter).
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Infinity value also scales by the scaling factors of the model.
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If shadows don't show up with zfail then try reducing infinity.
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@ -635,7 +635,7 @@ public:
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//! Adds an attribute as 3d triangle
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virtual void addTriangle3d(const c8* attributeName, const core::triangle3df& v) = 0;
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//! Sets an attribute as 3d trianle
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//! Sets an attribute as 3d triangle
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virtual void setAttribute(const c8* attributeName, const core::triangle3df& v) = 0;
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//! Gets an attribute as a 3d triangle
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@ -26,7 +26,7 @@ namespace gui
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ECI_HELP, // Arrow and question mark
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ECI_IBEAM, // typical text-selection cursor
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ECI_NO, // should not click icon
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ECI_WAIT, // hourclass
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ECI_WAIT, // hourglass
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ECI_SIZEALL, // arrow in all directions
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ECI_SIZENESW, // resizes in direction north-east or south-west
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ECI_SIZENWSE, // resizes in direction north-west or south-east
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@ -135,8 +135,8 @@ public:
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//! Create an arrow mesh, composed of a cylinder and a cone.
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/**
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\param tesselationCylinder Number of quads composing the cylinder.
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\param tesselationCone Number of triangles composing the cone's roof.
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\param tessellationCylinder Number of quads composing the cylinder.
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\param tessellationCone Number of triangles composing the cone's roof.
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\param height Total height of the arrow
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\param cylinderHeight Total height of the cylinder, should be lesser
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than total height
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@ -147,8 +147,8 @@ public:
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\param colorCone color of the cone
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\return Generated mesh.
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*/
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virtual IMesh* createArrowMesh(const u32 tesselationCylinder = 4,
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const u32 tesselationCone = 8, const f32 height = 1.f,
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virtual IMesh* createArrowMesh(const u32 tessellationCylinder = 4,
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const u32 tessellationCone = 8, const f32 height = 1.f,
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const f32 cylinderHeight = 0.6f, const f32 widthCylinder = 0.05f,
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const f32 widthCone = 0.3f, const video::SColor colorCylinder = 0xFFFFFFFF,
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const video::SColor colorCone = 0xFFFFFFFF) const =0;
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@ -168,7 +168,7 @@ public:
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/**
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\param radius Radius of the cylinder.
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\param length Length of the cylinder.
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\param tesselation Number of quads around the circumference of the cylinder.
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\param tessellation Number of quads around the circumference of the cylinder.
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\param color The color of the cylinder.
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\param closeTop If true, close the ends of the cylinder, otherwise leave them open.
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\param oblique X-offset (shear) of top compared to bottom.
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@ -183,7 +183,7 @@ public:
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\return Generated mesh.
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*/
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virtual IMesh* createCylinderMesh(f32 radius, f32 length,
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u32 tesselation,
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u32 tessellation,
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const video::SColor& color=video::SColor(0xffffffff),
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bool closeTop=true, f32 oblique=0.f, u32 normalType=0) const =0;
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@ -191,13 +191,13 @@ public:
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/**
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\param radius Radius of the cone.
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\param length Length of the cone.
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\param tesselation Number of quads around the circumference of the cone.
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\param tessellation Number of quads around the circumference of the cone.
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\param colorTop The color of the top of the cone.
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\param colorBottom The color of the bottom of the cone.
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\param oblique (to be documented)
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\return Generated mesh.
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*/
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virtual IMesh* createConeMesh(f32 radius, f32 length, u32 tesselation,
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virtual IMesh* createConeMesh(f32 radius, f32 length, u32 tessellation,
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const video::SColor& colorTop=video::SColor(0xffffffff),
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const video::SColor& colorBottom=video::SColor(0xffffffff),
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f32 oblique=0.f) const =0;
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@ -19,7 +19,7 @@ enum ELOG_LEVEL
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//! Used for printing information helpful in debugging
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ELL_DEBUG,
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//! Useful information to print. For example hardware infos or something started/stopped.
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//! Useful information to print. For example hardware info or something started/stopped.
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ELL_INFORMATION,
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//! Warnings that something isn't as expected and can cause oddities
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@ -40,7 +40,7 @@ namespace quake3
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:defaultLightMapMaterial ( video::EMT_LIGHTMAP_M4 ),
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defaultModulate ( video::EMFN_MODULATE_4X ),
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defaultFilter ( video::EMF_BILINEAR_FILTER ),
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patchTesselation ( 8 ),
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patchTessellation ( 8 ),
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verbose ( 0 ),
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startTime ( 0 ), endTime ( 0 ),
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mergeShaderBuffer ( 1 ),
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@ -61,7 +61,7 @@ namespace quake3
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video::E_MATERIAL_TYPE defaultLightMapMaterial;
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video::E_MODULATE_FUNC defaultModulate;
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video::E_MATERIAL_FLAG defaultFilter;
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s32 patchTesselation;
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s32 patchTessellation;
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s32 verbose;
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u32 startTime;
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u32 endTime;
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@ -1015,8 +1015,8 @@ namespace scene
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/** \param name Name of the mesh
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\param vtxColorCylinder color of the cylinder
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\param vtxColorCone color of the cone
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\param tesselationCylinder Number of quads the cylinder side consists of
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\param tesselationCone Number of triangles the cone's roof consists of
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\param tessellationCylinder Number of quads the cylinder side consists of
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\param tessellationCone Number of triangles the cone's roof consists of
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\param height Total height of the arrow
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\param cylinderHeight Total height of the cylinder, should be lesser than total height
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\param widthCylinder Diameter of the cylinder
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@ -1026,7 +1026,7 @@ namespace scene
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virtual IAnimatedMesh* addArrowMesh(const io::path& name,
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video::SColor vtxColorCylinder=0xFFFFFFFF,
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video::SColor vtxColorCone=0xFFFFFFFF,
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u32 tesselationCylinder=4, u32 tesselationCone=8,
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u32 tessellationCylinder=4, u32 tessellationCone=8,
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f32 height=1.f, f32 cylinderHeight=0.6f,
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f32 widthCylinder=0.05f, f32 widthCone=0.3f) = 0;
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@ -1142,7 +1142,7 @@ namespace scene
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//! Clear all nodes which are currently registered for rendering
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/** Usually you don't have to care about this as drawAll will clear nodes
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after rendering them. But sometimes you might have to manully reset this.
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after rendering them. But sometimes you might have to manually reset this.
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For example when you deleted nodes between registering and rendering. */
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virtual void clearAllRegisteredNodesForRendering() = 0;
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@ -674,7 +674,7 @@ namespace scene
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}
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//! Updates the absolute tranformation or position based on the relative and the parents transformation
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//! Updates the absolute transformation or position based on the relative and the parents transformation
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/** It's exact behavior can be controlled by setUpdateAbsolutePosBehavior.
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Note: This does not recursively update the parents absolute positions, so if you have a deeper
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hierarchy you might want to update the parents first.*/
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@ -40,7 +40,7 @@ public:
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u32 Minute;
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// Second of the minute, due to extra seconds from 0 to 61
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u32 Second;
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// Year of the Gregorian calender
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// Year of the Gregorian calendar
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s32 Year;
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// Month of the year, from 1 to 12
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u32 Month;
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@ -1334,7 +1334,7 @@ namespace video
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E_MATERIAL_TYPE enum or a value which was returned by
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addMaterialRenderer().
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\return String with the name of the renderer, or 0 if not
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exisiting */
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existing */
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virtual const c8* getMaterialRendererName(u32 idx) const =0;
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//! Sets the name of a material renderer.
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@ -251,7 +251,7 @@ you will not be able to use anything provided by the GUI Environment, including
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#undef _IRR_COMPILE_WITH_GUI_
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#endif
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//! Define _IRR_COMPILE_WITH_PARTICLES to compile the engine the withe build-in particle system
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//! Define _IRR_COMPILE_WITH_PARTICLES to compile the engine the with the build-in particle system
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/** You can disable this if you don't need particles or use an external particle system. */
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#define _IRR_COMPILE_WITH_PARTICLES_
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#ifdef NO_IRR_COMPILE_WITH_PARTICLES_
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@ -258,7 +258,7 @@ namespace video
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//! This is also the value which is set when SMaterial::setFlag(EMF_ZWRITE_ENABLE) is enabled.
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//! Usually zwriting is enabled non-transparent materials - as far as Irrlicht can recognize those.
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//! Basically Irrlicht tries to handle the zwriting for you and assumes transparent materials don't need it.
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//! This is addionally affected by IVideoDriver::setAllowZWriteOnTransparent
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//! This is additionally affected by IVideoDriver::setAllowZWriteOnTransparent
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EZW_AUTO,
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//! zwrite always enabled for this material
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@ -299,7 +299,7 @@ namespace video
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IRRLICHT_API extern u32 MATERIAL_MAX_TEXTURES_USED;
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//! Struct for holding parameters for a material renderer
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// Note for implementors: Serialization is in CNullDriver
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// Note for implementers: Serialization is in CNullDriver
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class SMaterial
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{
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public:
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@ -66,7 +66,7 @@ class line2d
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vector2d<T> getVector() const { return vector2d<T>( end.X - start.X, end.Y - start.Y); }
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/*! Check if this segment intersects another segment,
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or if segments are coincindent (colinear). */
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or if segments are coincident (colinear). */
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bool intersectAsSegments( const line2d<T>& other) const
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{
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// Taken from:
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@ -83,7 +83,7 @@ class line2d
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if (o1 != o2 && o3 != o4)
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return true;
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// Special Cases to check if segments are coolinear
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// Special Cases to check if segments are colinear
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if (o1 == 0 && other.start.isBetweenPoints( start, end)) return true;
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if (o2 == 0 && other.end.isBetweenPoints( start, end)) return true;
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if (o3 == 0 && start.isBetweenPoints( other.start, other.end)) return true;
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bool nearlyParallel( const vector2d<T> & other, const T factor = relativeErrorFactor<T>()) const
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{
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// https://eagergames.wordpress.com/2017/04/01/fast-parallel-lines-and-vectors-test/
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// if a || b then a.x/a.y = b.x/b.y (similiar triangles)
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// if a || b then a.x/a.y = b.x/b.y (similar triangles)
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// if a || b then either both x are 0 or both y are 0.
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return equalsRelative( X*other.Y, other.X* Y, factor)
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@ -549,8 +549,8 @@ IMesh* CGeometryCreator::createTerrainMesh(video::IImage* texture,
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a cylinder, a cone and a cross
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point up on (0,1.f, 0.f )
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*/
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IMesh* CGeometryCreator::createArrowMesh(const u32 tesselationCylinder,
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const u32 tesselationCone,
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IMesh* CGeometryCreator::createArrowMesh(const u32 tessellationCylinder,
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const u32 tessellationCone,
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const f32 height,
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const f32 cylinderHeight,
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const f32 width0,
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@ -558,9 +558,9 @@ IMesh* CGeometryCreator::createArrowMesh(const u32 tesselationCylinder,
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const video::SColor vtxColor0,
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const video::SColor vtxColor1) const
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{
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SMesh* mesh = (SMesh*)createCylinderMesh(width0, cylinderHeight, tesselationCylinder, vtxColor0, false);
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SMesh* mesh = (SMesh*)createCylinderMesh(width0, cylinderHeight, tessellationCylinder, vtxColor0, false);
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IMesh* mesh2 = createConeMesh(width1, height-cylinderHeight, tesselationCone, vtxColor1, vtxColor0);
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IMesh* mesh2 = createConeMesh(width1, height-cylinderHeight, tessellationCone, vtxColor1, vtxColor0);
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for (u32 i=0; i<mesh2->getMeshBufferCount(); ++i)
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{
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IMeshBuffer* buffer = mesh2->getMeshBuffer(i);
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@ -745,23 +745,23 @@ IMesh* CGeometryCreator::createSphereMesh(f32 radius, u32 polyCountX, u32 polyCo
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/* A cylinder with proper normals and texture coords */
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IMesh* CGeometryCreator::createCylinderMesh(f32 radius, f32 length,
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u32 tesselation, const video::SColor& color,
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u32 tessellation, const video::SColor& color,
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bool closeTop, f32 oblique, u32 normalType) const
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{
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SMeshBuffer* buffer = new SMeshBuffer();
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const f32 recTesselation = core::reciprocal((f32)tesselation);
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const f32 recTesselationHalf = recTesselation * 0.5f;
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const f32 angleStep = (core::PI * 2.f ) * recTesselation;
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const f32 recTessellation = core::reciprocal((f32)tessellation);
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const f32 recTessellationHalf = recTessellation * 0.5f;
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const f32 angleStep = (core::PI * 2.f ) * recTessellation;
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const f32 angleStepHalf = angleStep*0.5f;
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u32 i;
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video::S3DVertex v;
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v.Color = color;
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buffer->Vertices.reallocate(tesselation*4+4+(closeTop?2:1));
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buffer->Indices.reallocate((tesselation*2+1)*(closeTop?12:9));
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buffer->Vertices.reallocate(tessellation*4+4+(closeTop?2:1));
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buffer->Indices.reallocate((tessellation*2+1)*(closeTop?12:9));
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f32 tcx = 0.f;
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for ( i = 0; i <= tesselation; ++i )
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for ( i = 0; i <= tessellation; ++i )
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{
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const f32 angle = angleStep * i;
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v.Pos.X = radius * cosf(angle);
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@ -797,7 +797,7 @@ IMesh* CGeometryCreator::createCylinderMesh(f32 radius, f32 length,
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case 1: v.Normal = v.Pos; break;
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}
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v.Normal.normalize();
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v.TCoords.X=tcx+recTesselationHalf;
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v.TCoords.X=tcx+recTessellationHalf;
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v.TCoords.Y=0.f;
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buffer->Vertices.push_back(v);
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@ -811,11 +811,11 @@ IMesh* CGeometryCreator::createCylinderMesh(f32 radius, f32 length,
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v.Normal.normalize();
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v.TCoords.Y=1.f;
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buffer->Vertices.push_back(v);
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tcx += recTesselation;
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tcx += recTessellation;
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}
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// indices for the main hull part
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const u32 nonWrappedSize = tesselation* 4;
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const u32 nonWrappedSize = tessellation* 4;
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for (i=0; i != nonWrappedSize; i += 2)
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{
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buffer->Indices.push_back(i + 2);
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@ -898,21 +898,21 @@ IMesh* CGeometryCreator::createCylinderMesh(f32 radius, f32 length,
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/* A cone with proper normals and texture coords */
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IMesh* CGeometryCreator::createConeMesh(f32 radius, f32 length, u32 tesselation,
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IMesh* CGeometryCreator::createConeMesh(f32 radius, f32 length, u32 tessellation,
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const video::SColor& colorTop,
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const video::SColor& colorBottom,
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f32 oblique) const
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{
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SMeshBuffer* buffer = new SMeshBuffer();
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const f32 angleStep = (core::PI * 2.f ) / tesselation;
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const f32 angleStep = (core::PI * 2.f ) / tessellation;
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const f32 angleStepHalf = angleStep*0.5f;
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video::S3DVertex v;
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u32 i;
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v.Color = colorTop;
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for ( i = 0; i != tesselation; ++i )
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for ( i = 0; i != tessellation; ++i )
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{
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f32 angle = angleStep * f32(i);
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const core::dimension2d<u32>& defaultVertexBlockSize,
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bool debugBorders=false) const IRR_OVERRIDE;
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virtual IMesh* createArrowMesh(const u32 tesselationCylinder,
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const u32 tesselationCone, const f32 height,
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virtual IMesh* createArrowMesh(const u32 tessellationCylinder,
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const u32 tessellationCone, const f32 height,
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const f32 cylinderHeight, const f32 width0,
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const f32 width1, const video::SColor vtxColor0,
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const video::SColor vtxColor1) const IRR_OVERRIDE;
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virtual IMesh* createSphereMesh(f32 radius, u32 polyCountX, u32 polyCountY) const IRR_OVERRIDE;
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virtual IMesh* createCylinderMesh(f32 radius, f32 length, u32 tesselation,
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virtual IMesh* createCylinderMesh(f32 radius, f32 length, u32 tessellation,
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const video::SColor& color=0xffffffff,
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bool closeTop=true, f32 oblique=0.f, u32 normalType=0) const IRR_OVERRIDE;
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virtual IMesh* createConeMesh(f32 radius, f32 length, u32 tesselation,
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virtual IMesh* createConeMesh(f32 radius, f32 length, u32 tessellation,
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const video::SColor& colorTop=0xffffffff,
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const video::SColor& colorBottom=0xffffffff,
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f32 oblique=0.f) const IRR_OVERRIDE;
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@ -971,7 +971,7 @@ scene::SMesh** CQ3LevelMesh::buildMesh(s32 num)
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break;
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case 2: // patches
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createCurvedSurface_bezier( buffer, i,
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LoadParam.patchTesselation,
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LoadParam.patchTessellation,
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item[g].takeVertexColor
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);
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break;
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@ -1274,7 +1274,7 @@ void CQ3LevelMesh::SBezier::tesselate( s32 level )
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*/
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void CQ3LevelMesh::createCurvedSurface_nosubdivision(SMeshBufferLightMap* meshBuffer,
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s32 faceIndex,
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s32 patchTesselation,
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s32 patchTessellation,
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s32 storevertexcolor)
|
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{
|
||||
tBSPFace * face = &Faces[faceIndex];
|
||||
@ -1318,7 +1318,7 @@ void CQ3LevelMesh::createCurvedSurface_nosubdivision(SMeshBufferLightMap* meshBu
|
||||
*/
|
||||
void CQ3LevelMesh::createCurvedSurface_bezier(SMeshBufferLightMap* meshBuffer,
|
||||
s32 faceIndex,
|
||||
s32 patchTesselation,
|
||||
s32 patchTessellation,
|
||||
s32 storevertexcolor)
|
||||
{
|
||||
|
||||
@ -1372,7 +1372,7 @@ void CQ3LevelMesh::createCurvedSurface_bezier(SMeshBufferLightMap* meshBuffer,
|
||||
Bezier.control[7] = controlPoint[ inx + controlWidth * 2 + 1];
|
||||
Bezier.control[8] = controlPoint[ inx + controlWidth * 2 + 2];
|
||||
|
||||
Bezier.tesselate( patchTesselation );
|
||||
Bezier.tesselate( patchTessellation );
|
||||
}
|
||||
}
|
||||
|
||||
|
@ -324,10 +324,10 @@ namespace scene
|
||||
|
||||
//bi-quadratic bezier patches
|
||||
void createCurvedSurface_bezier(SMeshBufferLightMap* meshBuffer,
|
||||
s32 faceIndex, s32 patchTesselation, s32 storevertexcolor);
|
||||
s32 faceIndex, s32 patchTessellation, s32 storevertexcolor);
|
||||
|
||||
void createCurvedSurface_nosubdivision(SMeshBufferLightMap* meshBuffer,
|
||||
s32 faceIndex, s32 patchTesselation, s32 storevertexcolor);
|
||||
s32 faceIndex, s32 patchTessellation, s32 storevertexcolor);
|
||||
|
||||
struct S3DVertex2TCoords_64
|
||||
{
|
||||
|
@ -1095,14 +1095,14 @@ IAnimatedMesh* CSceneManager::addTerrainMesh(const io::path& name,
|
||||
//! Adds an arrow mesh to the mesh pool.
|
||||
IAnimatedMesh* CSceneManager::addArrowMesh(const io::path& name,
|
||||
video::SColor vtxColor0, video::SColor vtxColor1,
|
||||
u32 tesselationCylinder, u32 tesselationCone, f32 height,
|
||||
u32 tessellationCylinder, u32 tessellationCone, f32 height,
|
||||
f32 cylinderHeight, f32 width0,f32 width1)
|
||||
{
|
||||
if (MeshCache->isMeshLoaded(name))
|
||||
return MeshCache->getMeshByName(name);
|
||||
|
||||
IMesh* mesh = GeometryCreator->createArrowMesh( tesselationCylinder,
|
||||
tesselationCone, height, cylinderHeight, width0,width1,
|
||||
IMesh* mesh = GeometryCreator->createArrowMesh( tessellationCylinder,
|
||||
tessellationCone, height, cylinderHeight, width0,width1,
|
||||
vtxColor0, vtxColor1);
|
||||
if (!mesh)
|
||||
return 0;
|
||||
|
@ -229,7 +229,7 @@ namespace scene
|
||||
//! Add a arrow mesh to the mesh pool
|
||||
virtual IAnimatedMesh* addArrowMesh(const io::path& name,
|
||||
video::SColor vtxColor0, video::SColor vtxColor1,
|
||||
u32 tesselationCylinder, u32 tesselationCone,
|
||||
u32 tessellationCylinder, u32 tessellationCone,
|
||||
f32 height, f32 cylinderHeight, f32 width0,
|
||||
f32 width1) IRR_OVERRIDE;
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user