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git-svn-id: svn://svn.code.sf.net/p/irrlicht/code/branches/ogl-es@6193 dfc29bdd-3216-0410-991c-e03cc46cb475
419 lines
10 KiB
C++
419 lines
10 KiB
C++
// Copyright (C) 2002-2012 Nikolaus Gebhardt / Thomas Alten
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// This file is part of the "Irrlicht Engine".
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// For conditions of distribution and use, see copyright notice in irrlicht.h
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#include "IrrCompileConfig.h"
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#ifdef _IRR_COMPILE_WITH_BURNINGSVIDEO_
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#include "SoftwareDriver2_compile_config.h"
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#include "IBurningShader.h"
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#include "CSoftwareDriver2.h"
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#include "IShaderConstantSetCallBack.h"
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namespace irr
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{
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namespace video
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{
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const tFixPointu IBurningShader::dithermask[] =
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{
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0x00,0x80,0x20,0xa0,
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0xc0,0x40,0xe0,0x60,
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0x30,0xb0,0x10,0x90,
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0xf0,0x70,0xd0,0x50
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};
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void IBurningShader::constructor_IBurningShader(CBurningVideoDriver* driver)
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{
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#ifdef _DEBUG
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setDebugName("IBurningShader");
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#endif
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#if defined(ENV64BIT)
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if (((unsigned long long)&scan & 15) || ((unsigned long long)&line & 15))
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{
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os::Printer::log("BurningVideo Shader not 16 byte aligned", ELL_ERROR);
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_IRR_DEBUG_BREAK_IF(1);
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}
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#endif
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Interlaced.enable = 0;
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Interlaced.bypass = 1;
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Interlaced.nr = 0;
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EdgeTestPass = edge_test_pass;
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EdgeTestPass_stack = edge_test_pass;
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for (u32 i = 0; i < BURNING_MATERIAL_MAX_TEXTURES; ++i)
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{
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IT[i].Texture = 0;
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}
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Driver = driver;
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CallBack = 0;
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RenderTarget = 0;
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ColorMask = COLOR_BRIGHT_WHITE;
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DepthBuffer = (CDepthBuffer*)driver->getDepthBuffer();
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if (DepthBuffer)
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DepthBuffer->grab();
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Stencil = (CStencilBuffer*)driver->getStencilBuffer();
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if (Stencil)
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Stencil->grab();
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stencilOp[0] = StencilOp_KEEP;
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stencilOp[1] = StencilOp_KEEP;
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stencilOp[2] = StencilOp_KEEP;
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AlphaRef = 0;
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RenderPass_ShaderIsTransparent = 0;
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PrimitiveColor = COLOR_BRIGHT_WHITE;
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TL_Flag = 0;
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}
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IBurningShader::IBurningShader(CBurningVideoDriver* driver)
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{
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constructor_IBurningShader(driver);
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}
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//! Constructor
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IBurningShader::IBurningShader(
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CBurningVideoDriver* driver,
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s32& outMaterialTypeNr,
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const c8* vertexShaderProgram,
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const c8* vertexShaderEntryPointName,
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E_VERTEX_SHADER_TYPE vsCompileTarget,
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const c8* pixelShaderProgram,
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const c8* pixelShaderEntryPointName,
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E_PIXEL_SHADER_TYPE psCompileTarget,
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const c8* geometryShaderProgram,
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const c8* geometryShaderEntryPointName,
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E_GEOMETRY_SHADER_TYPE gsCompileTarget,
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scene::E_PRIMITIVE_TYPE inType,
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scene::E_PRIMITIVE_TYPE outType,
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u32 verticesOut,
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IShaderConstantSetCallBack* callback,
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E_MATERIAL_TYPE baseMaterial,
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s32 userData)
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{
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constructor_IBurningShader(driver);
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BaseMaterial = baseMaterial;
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UserData = userData;
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CallBack = callback;
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if (CallBack)
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CallBack->grab();
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// register myself as new material
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outMaterialTypeNr = Driver->addMaterialRenderer(this);
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}
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//! destructor
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IBurningShader::~IBurningShader()
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{
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if (RenderTarget)
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RenderTarget->drop();
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if (DepthBuffer)
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DepthBuffer->drop();
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if (Stencil)
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Stencil->drop();
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for (u32 i = 0; i != BURNING_MATERIAL_MAX_TEXTURES; ++i)
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{
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if (IT[i].Texture)
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IT[i].Texture->drop();
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}
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if (CallBack)
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CallBack->drop();
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}
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//! sets a render target
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void IBurningShader::setRenderTarget(video::IImage* surface, const core::rect<s32>& viewPort, const interlaced_control interlaced)
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{
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Interlaced = interlaced;
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if (RenderTarget)
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RenderTarget->drop();
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RenderTarget = (video::CImage*) surface;
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if (RenderTarget)
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{
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RenderTarget->grab();
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//(fp24*) DepthBuffer->lock() = DepthBuffer->lock();
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}
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}
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//! sets the Texture
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void IBurningShader::setTextureParam(const size_t stage, video::CSoftwareTexture2* texture, s32 lodFactor)
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{
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sInternalTexture* it = &IT[stage];
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if (it->Texture)
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it->Texture->drop();
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it->Texture = texture;
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if (it->Texture)
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{
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it->Texture->grab();
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// select mignify and magnify
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it->lodFactor = lodFactor;
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//only mipmap chain (means positive lodFactor)
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u32 existing_level = it->Texture->getMipmapLevel(lodFactor);
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#if !defined(PATCH_SUPERTUX_8_0_1_with_1_9_0)
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it->data = (tVideoSample*)it->Texture->lock(ETLM_READ_ONLY, existing_level, 0);
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#else
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it->data = (tVideoSample*)it->Texture->lock(ETLM_READ_ONLY, existing_level);
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#endif
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// prepare for optimal fixpoint
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it->pitchlog2 = s32_log2_s32(it->Texture->getPitch());
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const core::dimension2d<u32>& dim = it->Texture->getSize();
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it->textureXMask = s32_to_fixPoint(dim.Width - 1) & FIX_POINT_UNSIGNED_MASK;
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it->textureYMask = s32_to_fixPoint(dim.Height - 1) & FIX_POINT_UNSIGNED_MASK;
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}
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}
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//emulate a line with degenerate triangle and special shader mode (not perfect...)
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void IBurningShader::drawLine(const s4DVertex* a, const s4DVertex* b)
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{
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sVec2 d;
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d.x = b->Pos.x - a->Pos.x; d.x *= d.x;
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d.y = b->Pos.y - a->Pos.y; d.y *= d.y;
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//if ( d.x * d.y < 0.001f ) return;
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if (a->Pos.x > b->Pos.x) swapVertexPointer(&a, &b);
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s4DVertex c = *a;
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const f32 w = (f32)RenderTarget->getDimension().Width - 1;
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const f32 h = (f32)RenderTarget->getDimension().Height - 1;
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if (d.x < 2.f) { c.Pos.x = b->Pos.x + 1.f + d.y; if (c.Pos.x > w) c.Pos.x = w; }
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else c.Pos.x = b->Pos.x;
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if (d.y < 2.f) { c.Pos.y = b->Pos.y + 1.f; if (c.Pos.y > h) c.Pos.y = h; EdgeTestPass |= edge_test_first_line; }
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drawTriangle(a, b, &c);
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EdgeTestPass &= ~edge_test_first_line;
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}
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void IBurningShader::drawPoint(const s4DVertex* a)
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{
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}
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void IBurningShader::drawWireFrameTriangle(const s4DVertex* a, const s4DVertex* b, const s4DVertex* c)
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{
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if (EdgeTestPass & edge_test_pass) drawTriangle(a, b, c);
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else if (EdgeTestPass & edge_test_point)
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{
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drawPoint(a);
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drawPoint(b);
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drawPoint(c);
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}
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else
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{
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drawLine(a, b);
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drawLine(b, c);
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drawLine(a, c);
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}
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}
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void IBurningShader::OnSetMaterial(const SMaterial& material, const SMaterial& lastMaterial,
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bool resetAllRenderstates, IMaterialRendererServices* services)
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{
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if (Driver)
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Driver->setFallback_Material(BaseMaterial);
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services->setBasicRenderStates(material, lastMaterial, resetAllRenderstates);
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if (CallBack)
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CallBack->OnSetMaterial(material);
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}
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void IBurningShader::OnUnsetMaterial()
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{
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}
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bool IBurningShader::OnRender(IMaterialRendererServices* service, E_VERTEX_TYPE vtxtype)
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{
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// call callback to set shader constants
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if (CallBack)
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CallBack->OnSetConstants(this, UserData);
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return true;
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}
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//! Returns if the material is transparent.
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bool IBurningShader::isTransparent() const
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{
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return RenderPass_ShaderIsTransparent != 0;
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}
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//! Access the callback provided by the users when creating shader materials
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IShaderConstantSetCallBack* IBurningShader::getShaderConstantSetCallBack() const
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{
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return CallBack;
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}
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// implementations for the render services
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void IBurningShader::setBasicRenderStates(const SMaterial& material, const SMaterial& lastMaterial, bool resetAllRenderstates)
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{
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// forward
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Driver->setBasicRenderStates(material, lastMaterial, resetAllRenderstates);
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}
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s32 IBurningShader::getShaderConstantID(EBurningUniformFlags flags, const c8* name)
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{
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if (!name || !name[0])
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return -1;
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BurningUniform add;
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tiny_strcpy(add.name, name);
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add.type = flags;
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s32 index = UniformInfo.linear_search(add);
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if (index < 0)
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{
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UniformInfo.push_back(add);
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index = UniformInfo.size() - 1;
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}
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return index;
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}
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const char* tiny_itoa(s32 value, int base)
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{
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static char b[32];
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int p = 31;
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//int sign = 0;
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//if (value < 0) { sign = 1; value = -value; }
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b[p] = '\0';
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do {
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b[--p] = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ"[value % base];
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value /= base;
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} while (value && p > 0);
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//if (sign && p > 0) { b[--p] = '-'; }
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return b + p;
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}
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bool IBurningShader::setShaderConstantID(EBurningUniformFlags flags, s32 index, const void* data, size_t u32_count)
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{
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if ((u32)index >= UniformInfo.size())
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return false;
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#if 0
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BurningUniform add;
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while ((u32)index >= UniformInfo.size())
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{
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tiny_strcpy(add.name, tiny_itoa(UniformInfo.size(), 10));
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add.type = flags;
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UniformInfo.push_back(add);
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}
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#endif
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BurningUniform& use = UniformInfo[index];
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use.type = flags;
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const u32* s = (u32*)data;
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u32* d = (u32*)use.data;
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if (!s) u32_count = 0;
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if (u32_count > array_size(use.data)) u32_count = array_size(use.data);
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for (size_t i = 0; i < u32_count; ++i)
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{
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d[i] = s[i];
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}
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return true;
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}
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s32 IBurningShader::getVertexShaderConstantID(const c8* name)
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{
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return getShaderConstantID(BL_VERTEX_PROGRAM, name);
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}
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s32 IBurningShader::getPixelShaderConstantID(const c8* name)
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{
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return getShaderConstantID(BL_FRAGMENT_PROGRAM, name);
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}
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void IBurningShader::setVertexShaderConstant(const f32* data, s32 startRegister, s32 constantAmount)
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{
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c8 name[BL_ACTIVE_UNIFORM_MAX_LENGTH];
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tiny_strcpy(name, tiny_itoa(startRegister, 10));
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setShaderConstantID(BL_VERTEX_FLOAT, getShaderConstantID(BL_VERTEX_PROGRAM, name), data, constantAmount);
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}
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void IBurningShader::setPixelShaderConstant(const f32* data, s32 startRegister, s32 constantAmount)
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{
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c8 name[BL_ACTIVE_UNIFORM_MAX_LENGTH];
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tiny_strcpy(name, tiny_itoa(startRegister, 10));
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setShaderConstantID(BL_FRAGMENT_FLOAT, getShaderConstantID(BL_FRAGMENT_PROGRAM, name), data, constantAmount);
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}
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bool IBurningShader::setVertexShaderConstant(s32 index, const f32* floats, int count)
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{
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return setShaderConstantID(BL_VERTEX_FLOAT, index, floats, count);
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}
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bool IBurningShader::setVertexShaderConstant(s32 index, const s32* ints, int count)
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{
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return setShaderConstantID(BL_VERTEX_INT, index, ints, count);
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}
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bool IBurningShader::setVertexShaderConstant(s32 index, const u32* ints, int count)
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{
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return setShaderConstantID(BL_VERTEX_UINT, index, ints, count);
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}
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bool IBurningShader::setPixelShaderConstant(s32 index, const f32* floats, int count)
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{
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return setShaderConstantID(BL_FRAGMENT_FLOAT, index, floats, count);
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}
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bool IBurningShader::setPixelShaderConstant(s32 index, const s32* ints, int count)
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{
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return setShaderConstantID(BL_FRAGMENT_INT, index, ints, count);
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}
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bool IBurningShader::setPixelShaderConstant(s32 index, const u32* ints, int count)
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{
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return setShaderConstantID(BL_FRAGMENT_UINT, index, ints, count);
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}
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void IBurningShader::setStencilOp(eBurningStencilOp sfail, eBurningStencilOp dpfail, eBurningStencilOp dppass)
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{
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stencilOp[0] = sfail;
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stencilOp[1] = dpfail;
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stencilOp[2] = dppass;
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}
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IVideoDriver* IBurningShader::getVideoDriver()
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{
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return Driver;
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}
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} // end namespace video
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} // end namespace irr
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#endif // _IRR_COMPILE_WITH_BURNINGSVIDEO_
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