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Data structures for uniforms

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This commit is contained in:
Emmanuel BENOîT 2017-10-09 10:58:03 +02:00
parent 7ab196df56
commit ab4416ed58
4 changed files with 308 additions and 0 deletions
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1
Makefile
View file

@ -16,6 +16,7 @@ DEMO = \
utilities.cc \
texture.cc \
rendertarget.cc \
uniforms.cc \
camera.cc \
\
filewatcher.cc \

6
externals.hh
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@ -43,6 +43,12 @@
#define NO_MOVE( CLS ) \
CLS( CLS&& ) = delete; \
CLS& operator =( CLS&& ) = delete
#define DEF_COPY( CLS ) \
CLS( CLS const& ) = default; \
CLS& operator =( CLS const& ) = default
#define DEF_MOVE( CLS ) \
CLS( CLS&& ) noexcept = default; \
CLS& operator =( CLS&& ) noexcept = default
#define COPY( CLS ) \
CLS( CLS const& ); \
CLS& operator =( CLS const& )

205
uniforms.cc Normal file
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@ -0,0 +1,205 @@
#include "externals.hh"
#include "uniforms.hh"
/*= Uniform types ============================================================*/
E_UniformCategory GetUniformCategory(
__rd__ const E_UniformType type )
{
switch ( type ) {
case E_UniformType::F1:
case E_UniformType::F2:
case E_UniformType::F3:
case E_UniformType::F4:
return E_UniformCategory::FLOAT;
case E_UniformType::I1:
case E_UniformType::I2:
case E_UniformType::I3:
case E_UniformType::I4:
return E_UniformCategory::INT;
case E_UniformType::SAMPLER2D:
return E_UniformCategory::SAMPLER2D;
}
std::abort( );
}
uint32_t GetElementCount(
__rd__ const E_UniformType type )
{
switch ( type ) {
case E_UniformType::F1:
case E_UniformType::I1:
return 1;
case E_UniformType::F2:
case E_UniformType::I2:
return 2;
case E_UniformType::F3:
case E_UniformType::I3:
return 3;
case E_UniformType::F4:
case E_UniformType::I4:
return 4;
case E_UniformType::SAMPLER2D:
return 0;
}
std::abort( );
}
bool IsVectorCategory(
__rd__ const E_UniformCategory category )
{
assert( category != E_UniformCategory::__COUNT__ );
return category == E_UniformCategory::FLOAT
|| category == E_UniformCategory::INT;
}
/*= PackUniforms =============================================================*/
namespace {
T_PackedUniforms PackVectorUniforms_(
__rd__ T_UniformDeclarations const& declarations ,
__rd__ const E_UniformCategory category )
{
std::vector< std::string > packOrder;
packOrder.reserve( declarations.size( ) );
for ( auto entry : declarations ) {
auto const& u( entry.second );
if ( GetUniformCategory( u.type ) == category ) {
packOrder.push_back( entry.first );
}
}
std::sort( packOrder.begin( ) , packOrder.end( ) ,
[&declarations]( auto const& a , auto const& b )
{
auto const& ua( declarations.find( a )->second );
auto const& ub( declarations.find( b )->second );
return GetElementCount( ub.type ) < GetElementCount( ua.type );
} );
const auto n( packOrder.size( ) );
auto index = 0u;
T_PackedUniforms pu;
// Place vec4's
while ( index < n && GetElementCount( declarations.find( packOrder[ index ] )->second.type ) == 4 ) {
pu.positions[ packOrder[ index ] ] = pu.elements;
pu.elements += 4;
index ++;
}
// Place vec3's
uint32_t s3left( 0 );
while ( index < n && GetElementCount( declarations.find( packOrder[ index ] )->second.type ) == 3 ) {
pu.positions[ packOrder[ index ] ] = pu.elements;
pu.elements += 4;
s3left ++;
index ++;
}
// Place vec2's
const uint32_t s2s( pu.elements );
bool s2spare( false );
while ( index < n && GetElementCount( declarations.find( packOrder[ index ] )->second.type ) == 2 ) {
if ( !s2spare ) {
pu.elements += 4;
}
const uint32_t pos( pu.elements - ( s2spare ? 2 : 4 ) );
pu.positions[ packOrder[ index ] ] = pos;
s2spare = !s2spare;
index ++;
}
// Place single elements
uint32_t s1pos( s2spare ? ( pu.elements - 2 ) : pu.elements );
while ( index < n ) {
uint32_t pos;
if ( s3left ) {
pos = s2s - s3left * 4 + 3;
s3left --;
} else {
if ( s1pos == pu.elements ) {
pu.elements += 4;
}
pos = s1pos;
s1pos ++;
}
pu.positions[ packOrder[ index ] ] = pos;
index ++;
}
return pu;
}
T_PackedUniforms PackOpaqueUniforms_(
__rd__ T_UniformDeclarations const& declarations ,
__rd__ const E_UniformCategory category )
{
T_PackedUniforms pu;
for ( auto entry : declarations ) {
auto const& u( entry.second );
if ( GetUniformCategory( u.type ) == category ) {
pu.positions[ entry.first ] = pu.elements;
pu.elements ++;
}
}
return pu;
}
} // namespace
/*----------------------------------------------------------------------------*/
T_PackedUniforms PackUniforms(
__rd__ T_UniformDeclarations const& declarations ,
__rd__ const E_UniformCategory category )
{
assert( category != E_UniformCategory::__COUNT__ );
if ( IsVectorCategory( category ) ) {
return PackVectorUniforms_( declarations , category );
}
return PackOpaqueUniforms_( declarations , category );
}
/*= T_UniformSet =============================================================*/
constexpr uint32_t T_UniformSet::Invalid;
T_UniformSet::T_UniformSet( )
: vectorElements_( 0 ) , opaqueElements_( 0 )
{ }
T_UniformSet::T_UniformSet(
__rw__ T_UniformDeclarations declarations )
: declarations_( std::move( declarations ) ) ,
vectorElements_( 0 ) , opaqueElements_( 0 )
{
for ( auto i = 0 ; i < int( E_UniformCategory::__COUNT__ ) ; i ++ ) {
const auto cat{ E_UniformCategory( i ) };
packed_[ i ] = PackUniforms( declarations_ , cat );
if ( IsVectorCategory( cat ) ) {
vectorElements_ += packed_[ i ].elements;
} else {
opaqueElements_ += packed_[ i ].elements;
}
}
}
uint32_t T_UniformSet::position(
__rd__ std::string const& uniform ) const
{
const auto pos( declarations_.find( uniform ) );
if ( pos == declarations_.end( ) ) {
return Invalid;
}
const int ci( int( GetUniformCategory( pos->second.type ) ) );
const auto ePos( packed_[ ci ].positions.find( uniform ) );
assert( ePos != packed_[ ci ].positions.end( ) );
return ePos->second;
}

96
uniforms.hh Normal file
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@ -0,0 +1,96 @@
#pragma once
#ifndef REAL_BUILD
# include "externals.hh"
#endif
// Uniform types
enum class E_UniformType {
F1 , F2 , F3 , F4 ,
I1 , I2 , I3 , I4 ,
SAMPLER2D
};
// Categories
enum class E_UniformCategory {
FLOAT , INT ,
SAMPLER2D ,
__COUNT__
};
// Category from type
E_UniformCategory GetUniformCategory(
__rd__ const E_UniformType type );
// Element count from type
uint32_t GetElementCount(
__rd__ const E_UniformType type );
// Is some category a vector type?
bool IsVectorCategory(
__rd__ const E_UniformCategory category );
// Uniform declarations
struct T_UniformDeclaration
{
std::string name;
bool global;
E_UniformType type;
std::string source;
uint32_t line;
};
using T_UniformDeclarations = std::unordered_map< std::string , T_UniformDeclaration >;
// Packed uniforms
struct T_PackedUniforms
{
uint32_t elements = 0;
std::map< std::string , uint32_t > positions;
};
T_PackedUniforms PackUniforms(
__rd__ T_UniformDeclarations const& declarations ,
__rd__ const E_UniformCategory category );
// A set of uniforms, meant for use with a buffer or directly
struct T_UniformSet
{
static constexpr uint32_t Invalid = 0xffffffff;
T_UniformSet( );
explicit T_UniformSet(
__rw__ T_UniformDeclarations uniforms );
DEF_MOVE( T_UniformSet );
NO_COPY( T_UniformSet );
// ---------------------------------------------------------------------
T_UniformDeclarations const& declarations( ) const noexcept
{ return declarations_; }
uint32_t vectorElements( ) const noexcept
{ return vectorElements_; }
uint32_t opaqueElements( ) const noexcept
{ return opaqueElements_; }
uint32_t inCategory(
__rd__ const E_UniformCategory category ) const noexcept
{
assert( category != E_UniformCategory::__COUNT__ );
return packed_[ int( category ) ].elements;
}
// Return the position of the specified uniform in its category.
// If the uniform doesn't exist, this will return Invalid.
uint32_t position(
__rd__ std::string const& uniform ) const;
private:
T_UniformDeclarations declarations_;
uint32_t vectorElements_ , opaqueElements_;
T_PackedUniforms packed_[ int( E_UniformCategory::__COUNT__ ) ];
};