metaforce/Runtime/Graphics/Shaders/CFluidPlaneShader.cpp

#include "Runtime/Graphics/Shaders/CFluidPlaneShader.hpp"

#include "Runtime/World/CRipple.hpp"
#include "Runtime/World/CRippleManager.hpp"

#include <hecl/Pipeline.hpp>

namespace urde {

CFluidPlaneShader::Cache CFluidPlaneShader::_cache = {};

u16 CFluidPlaneShader::Cache::MakeCacheKey(const SFluidPlaneShaderInfo& info) {
  u16 ret = 0;

  switch (info.m_type) {
  case EFluidType::NormalWater:
  case EFluidType::PhazonFluid:
  case EFluidType::Four:
    if (info.m_hasLightmap) {
      ret |= 1 << 2;
      if (info.m_doubleLightmapBlend)
        ret |= 1 << 3;
    }

    if (!info.m_hasEnvMap && info.m_hasEnvBumpMap)
      ret |= 1 << 4;

    if (info.m_hasEnvMap)
      ret |= 1 << 5;

    break;

  case EFluidType::PoisonWater:
    ret |= 1;

    if (info.m_hasLightmap) {
      ret |= 1 << 2;
      if (info.m_doubleLightmapBlend)
        ret |= 1 << 3;
    }

    if (info.m_hasEnvBumpMap)
      ret |= 1 << 4;

    break;

  case EFluidType::Lava:
    ret |= 2;

    if (info.m_hasBumpMap)
      ret |= 1 << 2;

    break;

  case EFluidType::ThickLava:
    ret |= 3;

    if (info.m_hasBumpMap)
      ret |= 1 << 2;

    break;
  }

  if (info.m_hasPatternTex1)
    ret |= 1 << 6;
  if (info.m_hasPatternTex2)
    ret |= 1 << 7;
  if (info.m_hasColorTex)
    ret |= 1 << 8;

  if (info.m_additive)
    ret |= 1 << 9;

  return ret;
}

u16 CFluidPlaneShader::Cache::MakeCacheKey(const SFluidPlaneDoorShaderInfo& info) {
  u16 ret = 0;

  if (info.m_hasPatternTex1)
    ret |= 1 << 0;
  if (info.m_hasPatternTex2)
    ret |= 1 << 1;
  if (info.m_hasColorTex)
    ret |= 1 << 2;

  return ret;
}

template <>
CFluidPlaneShader::ShaderPair
CFluidPlaneShader::Cache::GetOrBuildShader<SFluidPlaneShaderInfo>(const SFluidPlaneShaderInfo& info) {
  u16 key = MakeCacheKey(info);
  auto& slot = CacheSlot(info, key);
  if (slot.m_regular)
    return slot;

  slot.m_regular = hecl::conv->convert(Shader_CFluidPlaneShader{info, false});
  if (info.m_tessellation)
    slot.m_tessellation = hecl::conv->convert(Shader_CFluidPlaneShader{info, true});

  return slot;
}
template <>
CFluidPlaneShader::ShaderPair
CFluidPlaneShader::Cache::GetOrBuildShader<SFluidPlaneDoorShaderInfo>(const SFluidPlaneDoorShaderInfo& info) {
  u16 key = MakeCacheKey(info);
  auto& slot = CacheSlot(info, key);
  if (slot.m_regular)
    return slot;

  slot.m_regular = hecl::conv->convert(Shader_CFluidPlaneDoorShader{info});

  return slot;
}

void CFluidPlaneShader::Cache::Clear() {
  for (auto& p : m_cache)
    p.reset();
  for (auto& p : m_doorCache)
    p.reset();
}

void CFluidPlaneShader::PrepareBinding(u32 maxVertCount) {
  CGraphics::CommitResources([&](boo::IGraphicsDataFactory::Context& ctx) {
    m_vbo = ctx.newDynamicBuffer(boo::BufferUse::Vertex, sizeof(Vertex), maxVertCount);
    if (m_pipelines.m_tessellation) {
      m_pvbo = ctx.newDynamicBuffer(boo::BufferUse::Vertex, sizeof(PatchVertex), maxVertCount);
    }
    m_uniBuf = ctx.newDynamicBuffer(boo::BufferUse::Uniform, sizeof(Uniform), 1);

    const std::array<boo::ObjToken<boo::IGraphicsBuffer>, 3> ubufs{{
        m_uniBuf.get(),
        m_uniBuf.get(),
        m_uniBuf.get(),
    }};
    constexpr std::array<boo::PipelineStage, 3> ubufStages{
        boo::PipelineStage::Vertex,
        boo::PipelineStage::Vertex,
        boo::PipelineStage::Fragment,
    };
    constexpr std::array<size_t, 3> ubufOffs{
        0,
        0,
        1280,
    };
    constexpr std::array<size_t, 3> ubufSizes{
        1280,
        1280,
        sizeof(CModelShaders::LightingUniform),
    };

    size_t texCount = 0;
    std::array<boo::ObjToken<boo::ITexture>, 8> texs;
    if (m_patternTex1) {
      texs[texCount++] = m_patternTex1->GetBooTexture();
    }
    if (m_patternTex2) {
      texs[texCount++] = m_patternTex2->GetBooTexture();
    }
    if (m_colorTex) {
      texs[texCount++] = m_colorTex->GetBooTexture();
    }
    if (m_bumpMap) {
      texs[texCount++] = m_bumpMap->GetBooTexture();
    }
    if (m_envMap) {
      texs[texCount++] = m_envMap->GetBooTexture();
    }
    if (m_envBumpMap) {
      texs[texCount++] = m_envBumpMap->GetBooTexture();
    }
    if (m_lightmap) {
      texs[texCount++] = m_lightmap->GetBooTexture();
    }
    auto regular = ctx.newShaderDataBinding(m_pipelines.m_regular, m_vbo.get(), nullptr, nullptr, ubufs.size(),
                                            ubufs.data(), ubufStages.data(), ubufOffs.data(), ubufSizes.data(),
                                            texCount, texs.data(), nullptr, nullptr);
    boo::ObjToken<boo::IShaderDataBinding> tessellation;
    if (m_pipelines.m_tessellation) {
      texs[texCount++] = m_rippleMap.get();
      tessellation = ctx.newShaderDataBinding(m_pipelines.m_tessellation, m_pvbo.get(), nullptr, nullptr, ubufs.size(),
                                              ubufs.data(), ubufStages.data(), ubufOffs.data(), ubufSizes.data(),
                                              texCount, texs.data(), nullptr, nullptr);
    }
    m_dataBind = {regular, tessellation};
    return true;
  } BooTrace);
}

void CFluidPlaneShader::Shutdown() { _cache.Clear(); }

CFluidPlaneShader::CFluidPlaneShader(EFluidType type, const TLockedToken<CTexture>& patternTex1,
                                     const TLockedToken<CTexture>& patternTex2, const TLockedToken<CTexture>& colorTex,
                                     const TLockedToken<CTexture>& bumpMap, const TLockedToken<CTexture>& envMap,
                                     const TLockedToken<CTexture>& envBumpMap, const TLockedToken<CTexture>& lightmap,
                                     const boo::ObjToken<boo::ITextureS>& rippleMap, bool doubleLightmapBlend,
                                     bool additive, u32 maxVertCount)
: m_patternTex1(patternTex1)
, m_patternTex2(patternTex2)
, m_colorTex(colorTex)
, m_bumpMap(bumpMap)
, m_envMap(envMap)
, m_envBumpMap(envBumpMap)
, m_lightmap(lightmap)
, m_rippleMap(rippleMap) {
  SFluidPlaneShaderInfo shaderInfo(type, m_patternTex1.operator bool(), m_patternTex2.operator bool(),
                                   m_colorTex.operator bool(), m_bumpMap.operator bool(), m_envMap.operator bool(),
                                   m_envBumpMap.operator bool(), m_lightmap.operator bool(),
                                   m_rippleMap.operator bool(), doubleLightmapBlend, additive);
  m_pipelines = _cache.GetOrBuildShader(shaderInfo);
  PrepareBinding(maxVertCount);
}

CFluidPlaneShader::CFluidPlaneShader(const TLockedToken<CTexture>& patternTex1,
                                     const TLockedToken<CTexture>& patternTex2, const TLockedToken<CTexture>& colorTex,
                                     u32 maxVertCount)
: m_patternTex1(patternTex1), m_patternTex2(patternTex2), m_colorTex(colorTex) {
  SFluidPlaneDoorShaderInfo shaderInfo(m_patternTex1.operator bool(), m_patternTex2.operator bool(),
                                       m_colorTex.operator bool());
  m_pipelines = _cache.GetOrBuildShader(shaderInfo);
  PrepareBinding(maxVertCount);
}

void CFluidPlaneShader::prepareDraw(const RenderSetupInfo& info) {
  Uniform& uni = *reinterpret_cast<Uniform*>(m_uniBuf->map(sizeof(Uniform)));
  uni.m_mv = CGraphics::g_GXModelView.toMatrix4f();
  uni.m_mvNorm = info.normMtx;
  uni.m_proj = CGraphics::GetPerspectiveProjectionMatrix(true);
  uni.m_texMtxs = info.texMtxs;
  uni.m_lighting.ActivateLights(info.lights);
  for (size_t i = 0; i < uni.m_lighting.colorRegs.size(); ++i) {
    uni.m_lighting.colorRegs[i] = info.kColors[i];
  }
  uni.m_lighting.mulColor = info.kColors[3];
  uni.m_lighting.fog = CGraphics::g_Fog;
  uni.m_pad2.x() = info.indScale;
  m_uniBuf->unmap();
}

void CFluidPlaneShader::prepareDraw(const RenderSetupInfo& info, const zeus::CVector3f& waterCenter,
                                    const CRippleManager& rippleManager, const zeus::CColor& colorMul,
                                    float rippleNormResolution) {
  Uniform& uni = *reinterpret_cast<Uniform*>(m_uniBuf->map(sizeof(Uniform)));
  uni.m_mv = CGraphics::g_GXModelView.toMatrix4f();
  uni.m_mvNorm = info.normMtx;
  uni.m_proj = CGraphics::GetPerspectiveProjectionMatrix(true);
  uni.m_texMtxs = info.texMtxs;

  size_t i = 0;
  for (const CRipple& ripple : rippleManager.GetRipples()) {
    assert(i < uni.m_ripple.size() && "Too many ripples");
    Ripple& rOut = uni.m_ripple[i++];
    if (ripple.GetTime() >= ripple.GetTimeFalloff()) {
      rOut.center.zeroOut();
      rOut.params.zeroOut();
      continue;
    }
    zeus::CVector3f localPos = ripple.GetCenter() - waterCenter;
    rOut.center.x() = float(localPos.x());
    rOut.center.y() = float(localPos.y());
    rOut.center.z() = ripple.GetTime() * ripple.GetOOTimeFalloff();
    rOut.center.w() = ripple.GetOODistanceFalloff();
    rOut.params.x() = ripple.GetAmplitude();
    rOut.params.y() = ripple.GetPhase();
    rOut.params.z() =
        (1.f - ripple.GetTime() * ripple.GetOOTimeFalloff() * ripple.GetOOTimeFalloff()) * ripple.GetFrequency();
  }
  uni.m_colorMul = colorMul;
  uni.m_pad[0].x() = rippleNormResolution;
  uni.m_lighting.ActivateLights(info.lights);
  for (i = 0; i < uni.m_lighting.colorRegs.size(); ++i) {
    uni.m_lighting.colorRegs[i] = info.kColors[i];
  }
  uni.m_lighting.mulColor = info.kColors[3];
  uni.m_lighting.fog = CGraphics::g_Fog;
  uni.m_pad2.x() = info.indScale;
  m_uniBuf->unmap();
}

void CFluidPlaneShader::loadVerts(const std::vector<Vertex>& verts, const std::vector<PatchVertex>& pVerts) {
  m_vbo->load(verts.data(), verts.size() * sizeof(Vertex));
  if (m_pvbo)
    m_pvbo->load(pVerts.data(), pVerts.size() * sizeof(PatchVertex));
}

} // namespace urde
Graphics/Shaders: Use forward declarations where applicable Now, with all of the headers normalized, we can safely convert some headers into forward declarations without needing to worry about potentially breaking code in other headers or source files. 2019-09-29 00:30:53 +00:00			`#include "Runtime/Graphics/Shaders/CFluidPlaneShader.hpp"`

			`#include "Runtime/World/CRipple.hpp"`
			`#include "Runtime/World/CRippleManager.hpp"`

			`#include <hecl/Pipeline.hpp>`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`namespace urde {`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
			`CFluidPlaneShader::Cache CFluidPlaneShader::_cache = {};`

New code style refactor 2018-12-08 05:30:43 +00:00			`u16 CFluidPlaneShader::Cache::MakeCacheKey(const SFluidPlaneShaderInfo& info) {`
			`u16 ret = 0;`

			`switch (info.m_type) {`
			`case EFluidType::NormalWater:`
			`case EFluidType::PhazonFluid:`
			`case EFluidType::Four:`
			`if (info.m_hasLightmap) {`
			`ret \|= 1 << 2;`
			`if (info.m_doubleLightmapBlend)`
			`ret \|= 1 << 3;`
			`}`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`if (!info.m_hasEnvMap && info.m_hasEnvBumpMap)`
			`ret \|= 1 << 4;`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`if (info.m_hasEnvMap)`
			`ret \|= 1 << 5;`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`break;`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`case EFluidType::PoisonWater:`
			`ret \|= 1;`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`if (info.m_hasLightmap) {`
			`ret \|= 1 << 2;`
			`if (info.m_doubleLightmapBlend)`
			`ret \|= 1 << 3;`
			`}`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`if (info.m_hasEnvBumpMap)`
			`ret \|= 1 << 4;`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`break;`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`case EFluidType::Lava:`
			`ret \|= 2;`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`if (info.m_hasBumpMap)`
			`ret \|= 1 << 2;`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`break;`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`case EFluidType::ThickLava:`
			`ret \|= 3;`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`if (info.m_hasBumpMap)`
			`ret \|= 1 << 2;`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`break;`
			`}`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`if (info.m_hasPatternTex1)`
			`ret \|= 1 << 6;`
			`if (info.m_hasPatternTex2)`
			`ret \|= 1 << 7;`
			`if (info.m_hasColorTex)`
			`ret \|= 1 << 8;`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`if (info.m_additive)`
			`ret \|= 1 << 9;`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`return ret;`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00			`}`

New code style refactor 2018-12-08 05:30:43 +00:00			`u16 CFluidPlaneShader::Cache::MakeCacheKey(const SFluidPlaneDoorShaderInfo& info) {`
			`u16 ret = 0;`
Implement CFluidPlaneDoor and CScriptDamageableTrigger 2017-08-14 03:55:06 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`if (info.m_hasPatternTex1)`
			`ret \|= 1 << 0;`
			`if (info.m_hasPatternTex2)`
			`ret \|= 1 << 1;`
			`if (info.m_hasColorTex)`
			`ret \|= 1 << 2;`
Implement CFluidPlaneDoor and CScriptDamageableTrigger 2017-08-14 03:55:06 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`return ret;`
Implement CFluidPlaneDoor and CScriptDamageableTrigger 2017-08-14 03:55:06 +00:00			`}`

New code style refactor 2018-12-08 05:30:43 +00:00			`template <>`
			`CFluidPlaneShader::ShaderPair`
			`CFluidPlaneShader::Cache::GetOrBuildShader<SFluidPlaneShaderInfo>(const SFluidPlaneShaderInfo& info) {`
			`u16 key = MakeCacheKey(info);`
			`auto& slot = CacheSlot(info, key);`
			`if (slot.m_regular)`
Changes to support boo object tracker API 2017-11-05 06:17:12 +00:00			`return slot;`
Huge shader refactor 2018-10-07 02:59:17 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`slot.m_regular = hecl::conv->convert(Shader_CFluidPlaneShader{info, false});`
			`if (info.m_tessellation)`
			`slot.m_tessellation = hecl::conv->convert(Shader_CFluidPlaneShader{info, true});`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`return slot;`
Huge shader refactor 2018-10-07 02:59:17 +00:00			`}`
New code style refactor 2018-12-08 05:30:43 +00:00			`template <>`
			`CFluidPlaneShader::ShaderPair`
			`CFluidPlaneShader::Cache::GetOrBuildShader<SFluidPlaneDoorShaderInfo>(const SFluidPlaneDoorShaderInfo& info) {`
			`u16 key = MakeCacheKey(info);`
			`auto& slot = CacheSlot(info, key);`
			`if (slot.m_regular)`
			`return slot;`
Implement CFluidPlaneDoor and CScriptDamageableTrigger 2017-08-14 03:55:06 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`slot.m_regular = hecl::conv->convert(Shader_CFluidPlaneDoorShader{info});`

			`return slot;`
Implement CFluidPlaneDoor and CScriptDamageableTrigger 2017-08-14 03:55:06 +00:00			`}`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`void CFluidPlaneShader::Cache::Clear() {`
			`for (auto& p : m_cache)`
			`p.reset();`
			`for (auto& p : m_doorCache)`
			`p.reset();`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00			`}`

CPuddleToadGamma and animation system fixes 2019-06-21 06:02:56 +00:00			`void CFluidPlaneShader::PrepareBinding(u32 maxVertCount) {`
New code style refactor 2018-12-08 05:30:43 +00:00			`CGraphics::CommitResources([&](boo::IGraphicsDataFactory::Context& ctx) {`
			`m_vbo = ctx.newDynamicBuffer(boo::BufferUse::Vertex, sizeof(Vertex), maxVertCount);`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`if (m_pipelines.m_tessellation) {`
New code style refactor 2018-12-08 05:30:43 +00:00			`m_pvbo = ctx.newDynamicBuffer(boo::BufferUse::Vertex, sizeof(PatchVertex), maxVertCount);`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`}`
New code style refactor 2018-12-08 05:30:43 +00:00			`m_uniBuf = ctx.newDynamicBuffer(boo::BufferUse::Uniform, sizeof(Uniform), 1);`

Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`const std::array<boo::ObjToken<boo::IGraphicsBuffer>, 3> ubufs{{`
			`m_uniBuf.get(),`
			`m_uniBuf.get(),`
			`m_uniBuf.get(),`
			`}};`
			`constexpr std::array<boo::PipelineStage, 3> ubufStages{`
			`boo::PipelineStage::Vertex,`
			`boo::PipelineStage::Vertex,`
			`boo::PipelineStage::Fragment,`
			`};`
			`constexpr std::array<size_t, 3> ubufOffs{`
			`0,`
			`0,`
			`1280,`
			`};`
			`constexpr std::array<size_t, 3> ubufSizes{`
			`1280,`
			`1280,`
			`sizeof(CModelShaders::LightingUniform),`
			`};`

New code style refactor 2018-12-08 05:30:43 +00:00			`size_t texCount = 0;`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`std::array<boo::ObjToken<boo::ITexture>, 8> texs;`
			`if (m_patternTex1) {`
New code style refactor 2018-12-08 05:30:43 +00:00			`texs[texCount++] = m_patternTex1->GetBooTexture();`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`}`
			`if (m_patternTex2) {`
New code style refactor 2018-12-08 05:30:43 +00:00			`texs[texCount++] = m_patternTex2->GetBooTexture();`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`}`
			`if (m_colorTex) {`
New code style refactor 2018-12-08 05:30:43 +00:00			`texs[texCount++] = m_colorTex->GetBooTexture();`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`}`
			`if (m_bumpMap) {`
New code style refactor 2018-12-08 05:30:43 +00:00			`texs[texCount++] = m_bumpMap->GetBooTexture();`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`}`
			`if (m_envMap) {`
New code style refactor 2018-12-08 05:30:43 +00:00			`texs[texCount++] = m_envMap->GetBooTexture();`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`}`
			`if (m_envBumpMap) {`
New code style refactor 2018-12-08 05:30:43 +00:00			`texs[texCount++] = m_envBumpMap->GetBooTexture();`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`}`
			`if (m_lightmap) {`
New code style refactor 2018-12-08 05:30:43 +00:00			`texs[texCount++] = m_lightmap->GetBooTexture();`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`}`
			`auto regular = ctx.newShaderDataBinding(m_pipelines.m_regular, m_vbo.get(), nullptr, nullptr, ubufs.size(),`
			`ubufs.data(), ubufStages.data(), ubufOffs.data(), ubufSizes.data(),`
			`texCount, texs.data(), nullptr, nullptr);`
New code style refactor 2018-12-08 05:30:43 +00:00			`boo::ObjToken<boo::IShaderDataBinding> tessellation;`
CPuddleToadGamma and animation system fixes 2019-06-21 06:02:56 +00:00			`if (m_pipelines.m_tessellation) {`
New code style refactor 2018-12-08 05:30:43 +00:00			`texs[texCount++] = m_rippleMap.get();`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`tessellation = ctx.newShaderDataBinding(m_pipelines.m_tessellation, m_pvbo.get(), nullptr, nullptr, ubufs.size(),`
			`ubufs.data(), ubufStages.data(), ubufOffs.data(), ubufSizes.data(),`
			`texCount, texs.data(), nullptr, nullptr);`
New code style refactor 2018-12-08 05:30:43 +00:00			`}`
			`m_dataBind = {regular, tessellation};`
			`return true;`
			`} BooTrace);`
Vulkan backend fixes 2018-05-20 22:38:56 +00:00			`}`

New code style refactor 2018-12-08 05:30:43 +00:00			`void CFluidPlaneShader::Shutdown() { _cache.Clear(); }`

			`CFluidPlaneShader::CFluidPlaneShader(EFluidType type, const TLockedToken<CTexture>& patternTex1,`
			`const TLockedToken<CTexture>& patternTex2, const TLockedToken<CTexture>& colorTex,`
			`const TLockedToken<CTexture>& bumpMap, const TLockedToken<CTexture>& envMap,`
			`const TLockedToken<CTexture>& envBumpMap, const TLockedToken<CTexture>& lightmap,`
			`const boo::ObjToken<boo::ITextureS>& rippleMap, bool doubleLightmapBlend,`
			`bool additive, u32 maxVertCount)`
			`: m_patternTex1(patternTex1)`
			`, m_patternTex2(patternTex2)`
			`, m_colorTex(colorTex)`
			`, m_bumpMap(bumpMap)`
			`, m_envMap(envMap)`
			`, m_envBumpMap(envBumpMap)`
			`, m_lightmap(lightmap)`
			`, m_rippleMap(rippleMap) {`
			`SFluidPlaneShaderInfo shaderInfo(type, m_patternTex1.operator bool(), m_patternTex2.operator bool(),`
			`m_colorTex.operator bool(), m_bumpMap.operator bool(), m_envMap.operator bool(),`
			`m_envBumpMap.operator bool(), m_lightmap.operator bool(),`
			`m_rippleMap.operator bool(), doubleLightmapBlend, additive);`
CPuddleToadGamma and animation system fixes 2019-06-21 06:02:56 +00:00			`m_pipelines = _cache.GetOrBuildShader(shaderInfo);`
			`PrepareBinding(maxVertCount);`
Implement CFluidPlaneDoor and CScriptDamageableTrigger 2017-08-14 03:55:06 +00:00			`}`

Implement CFluidPlaneGPU for GPU-computed water ripples 2018-06-07 04:43:26 +00:00			`CFluidPlaneShader::CFluidPlaneShader(const TLockedToken<CTexture>& patternTex1,`
New code style refactor 2018-12-08 05:30:43 +00:00			`const TLockedToken<CTexture>& patternTex2, const TLockedToken<CTexture>& colorTex,`
Implement CFluidPlaneDoor and CScriptDamageableTrigger 2017-08-14 03:55:06 +00:00			`u32 maxVertCount)`
New code style refactor 2018-12-08 05:30:43 +00:00			`: m_patternTex1(patternTex1), m_patternTex2(patternTex2), m_colorTex(colorTex) {`
			`SFluidPlaneDoorShaderInfo shaderInfo(m_patternTex1.operator bool(), m_patternTex2.operator bool(),`
			`m_colorTex.operator bool());`
CPuddleToadGamma and animation system fixes 2019-06-21 06:02:56 +00:00			`m_pipelines = _cache.GetOrBuildShader(shaderInfo);`
			`PrepareBinding(maxVertCount);`
Implement CFluidPlaneDoor and CScriptDamageableTrigger 2017-08-14 03:55:06 +00:00			`}`

New code style refactor 2018-12-08 05:30:43 +00:00			`void CFluidPlaneShader::prepareDraw(const RenderSetupInfo& info) {`
			`Uniform& uni = reinterpret_cast<Uniform>(m_uniBuf->map(sizeof(Uniform)));`
			`uni.m_mv = CGraphics::g_GXModelView.toMatrix4f();`
			`uni.m_mvNorm = info.normMtx;`
			`uni.m_proj = CGraphics::GetPerspectiveProjectionMatrix(true);`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`uni.m_texMtxs = info.texMtxs;`
New code style refactor 2018-12-08 05:30:43 +00:00			`uni.m_lighting.ActivateLights(info.lights);`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`for (size_t i = 0; i < uni.m_lighting.colorRegs.size(); ++i) {`
New code style refactor 2018-12-08 05:30:43 +00:00			`uni.m_lighting.colorRegs[i] = info.kColors[i];`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`}`
New code style refactor 2018-12-08 05:30:43 +00:00			`uni.m_lighting.mulColor = info.kColors[3];`
D3D fixes 2019-03-03 23:04:18 +00:00			`uni.m_lighting.fog = CGraphics::g_Fog;`
Various rendering fixes 2019-03-03 06:19:42 +00:00			`uni.m_pad2.x() = info.indScale;`
New code style refactor 2018-12-08 05:30:43 +00:00			`m_uniBuf->unmap();`
Implement triangle fan-to-strip stream converter 2017-08-11 01:16:58 +00:00			`}`
Implement non-rippling CFluidPlaneCPU render path 2017-08-10 23:13:25 +00:00
New code style refactor 2018-12-08 05:30:43 +00:00			`void CFluidPlaneShader::prepareDraw(const RenderSetupInfo& info, const zeus::CVector3f& waterCenter,`
			`const CRippleManager& rippleManager, const zeus::CColor& colorMul,`
			`float rippleNormResolution) {`
			`Uniform& uni = reinterpret_cast<Uniform>(m_uniBuf->map(sizeof(Uniform)));`
			`uni.m_mv = CGraphics::g_GXModelView.toMatrix4f();`
			`uni.m_mvNorm = info.normMtx;`
			`uni.m_proj = CGraphics::GetPerspectiveProjectionMatrix(true);`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`uni.m_texMtxs = info.texMtxs;`

			`size_t i = 0;`
New code style refactor 2018-12-08 05:30:43 +00:00			`for (const CRipple& ripple : rippleManager.GetRipples()) {`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`assert(i < uni.m_ripple.size() && "Too many ripples");`
New code style refactor 2018-12-08 05:30:43 +00:00			`Ripple& rOut = uni.m_ripple[i++];`
			`if (ripple.GetTime() >= ripple.GetTimeFalloff()) {`
			`rOut.center.zeroOut();`
			`rOut.params.zeroOut();`
			`continue;`
Implement CFluidPlaneGPU for GPU-computed water ripples 2018-06-07 04:43:26 +00:00			`}`
New code style refactor 2018-12-08 05:30:43 +00:00			`zeus::CVector3f localPos = ripple.GetCenter() - waterCenter;`
			`rOut.center.x() = float(localPos.x());`
			`rOut.center.y() = float(localPos.y());`
			`rOut.center.z() = ripple.GetTime() * ripple.GetOOTimeFalloff();`
			`rOut.center.w() = ripple.GetOODistanceFalloff();`
			`rOut.params.x() = ripple.GetAmplitude();`
			`rOut.params.y() = ripple.GetPhase();`
			`rOut.params.z() =`
			`(1.f - ripple.GetTime() * ripple.GetOOTimeFalloff() * ripple.GetOOTimeFalloff()) * ripple.GetFrequency();`
			`}`
			`uni.m_colorMul = colorMul;`
			`uni.m_pad[0].x() = rippleNormResolution;`
			`uni.m_lighting.ActivateLights(info.lights);`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`for (i = 0; i < uni.m_lighting.colorRegs.size(); ++i) {`
New code style refactor 2018-12-08 05:30:43 +00:00			`uni.m_lighting.colorRegs[i] = info.kColors[i];`
Graphics/Shaders: Use std::array where applicable Makes the arrays strongly typed and impervious to array->pointer decay. This also allows simplifying some operations (such as being able to call fill() instead of needing to use std::fill, etc). 2019-09-29 02:22:12 +00:00			`}`
New code style refactor 2018-12-08 05:30:43 +00:00			`uni.m_lighting.mulColor = info.kColors[3];`
			`uni.m_lighting.fog = CGraphics::g_Fog;`
			`uni.m_pad2.x() = info.indScale;`
			`m_uniBuf->unmap();`
Implement CFluidPlaneGPU for GPU-computed water ripples 2018-06-07 04:43:26 +00:00			`}`

New code style refactor 2018-12-08 05:30:43 +00:00			`void CFluidPlaneShader::loadVerts(const std::vector<Vertex>& verts, const std::vector<PatchVertex>& pVerts) {`
			`m_vbo->load(verts.data(), verts.size() * sizeof(Vertex));`
			`if (m_pvbo)`
			`m_pvbo->load(pVerts.data(), pVerts.size() * sizeof(PatchVertex));`
Initial CFluidPlane implementation 2017-08-08 06:03:57 +00:00			`}`

New code style refactor 2018-12-08 05:30:43 +00:00			`} // namespace urde`