//
// Copyright 2002 The ANGLE Project Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
//
// Config.cpp: Implements the egl::Config class, describing the format, type
// and size for an egl::Surface. Implements EGLConfig and related functionality.
// [EGL 1.5] section 3.4 page 19.
#include "libANGLE/Config.h"
#include "libANGLE/AttributeMap.h"
#include <algorithm>
#include <vector>
#include <EGL/eglext.h>
#include "angle_gl.h"
#include "common/debug.h"
namespace egl
{
Config::Config()
: renderTargetFormat(GL_NONE),
depthStencilFormat(GL_NONE),
bufferSize(0),
redSize(0),
greenSize(0),
blueSize(0),
luminanceSize(0),
alphaSize(0),
alphaMaskSize(0),
bindToTextureRGB(EGL_FALSE),
bindToTextureRGBA(EGL_FALSE),
bindToTextureTarget(EGL_TEXTURE_2D),
colorBufferType(EGL_RGB_BUFFER),
configCaveat(EGL_NONE),
configID(0),
conformant(0),
depthSize(0),
level(0),
matchNativePixmap(EGL_FALSE),
maxPBufferWidth(0),
maxPBufferHeight(0),
maxPBufferPixels(0),
maxSwapInterval(0),
minSwapInterval(0),
nativeRenderable(EGL_FALSE),
nativeVisualID(0),
nativeVisualType(0),
renderableType(0),
sampleBuffers(0),
samples(0),
stencilSize(0),
surfaceType(0),
transparentType(EGL_NONE),
transparentRedValue(0),
transparentGreenValue(0),
transparentBlueValue(0),
optimalOrientation(0),
colorComponentType(EGL_COLOR_COMPONENT_TYPE_FIXED_EXT),
recordable(EGL_FALSE),
framebufferTarget(EGL_FALSE),
// TODO: http://anglebug.com/4208
yInverted(EGL_FALSE)
{}
Config::~Config() {}
Config::Config(
const Config &other) =
default;
Config &Config::
operator=(
const Config &other) =
default;
ConfigSet::ConfigSet() =
default;
ConfigSet::ConfigSet(
const ConfigSet &other) =
default;
ConfigSet &ConfigSet::
operator=(
const ConfigSet &other) =
default;
ConfigSet::~ConfigSet() =
default;
EGLint ConfigSet::add(
const Config &config)
{
// Set the config's ID to a small number that starts at 1 ([EGL 1.5] section 3.4)
EGLint id =
static_cast<EGLint>(mConfigs.size()) + 1;
Config copyConfig(config);
copyConfig.configID = id;
mConfigs.insert(std::make_pair(id, copyConfig));
return id;
}
const Config &ConfigSet::get(EGLint id)
const
{
ASSERT(mConfigs.find(id) != mConfigs.end());
return mConfigs.find(id)->second;
}
void ConfigSet::clear()
{
mConfigs.clear();
}
size_t ConfigSet::size()
const
{
return mConfigs.size();
}
bool ConfigSet::contains(
const Config *config)
const
{
for (
auto i = mConfigs.begin(); i != mConfigs.end(); i++)
{
const Config &item = i->second;
if (config == &item)
{
return true;
}
}
return false;
}
// Function object used by STL sorting routines for ordering Configs according to [EGL 1.5]
// section 3.4.1.2 page 28.
class ConfigSorter
{
public:
explicit ConfigSorter(
const AttributeMap &attributeMap)
: mWantRed(
false),
mWantGreen(
false),
mWantBlue(
false),
mWantAlpha(
false),
mWantLuminance(
false)
{
scanForWantedComponents(attributeMap);
}
bool operator()(
const Config *x,
const Config *y)
const {
return (*
this)(*x, *y); }
bool operator()(
const Config &x,
const Config &y)
const
{
#define SORT(attribute) \
do \
{ \
if (x.attribute != y.attribute) \
return x.attribute < y.attribute; \
}
while (0)
static_assert(EGL_NONE < EGL_SLOW_CONFIG && EGL_SLOW_CONFIG < EGL_NON_CONFORMANT_CONFIG,
"Unexpected EGL enum value.");
SORT(configCaveat);
static_assert(EGL_COLOR_COMPONENT_TYPE_FIXED_EXT < EGL_COLOR_COMPONENT_TYPE_FLOAT_E
XT,
"Unexpected order of EGL enums.");
SORT(colorComponentType);
static_assert(EGL_RGB_BUFFER < EGL_LUMINANCE_BUFFER, "Unexpected EGL enum value.");
SORT(colorBufferType);
// By larger total number of color bits, only considering those that are requested to be >
// 0.
EGLint xComponentsSize = wantedComponentsSize(x);
EGLint yComponentsSize = wantedComponentsSize(y);
if (xComponentsSize != yComponentsSize)
{
return xComponentsSize > yComponentsSize;
}
SORT(bufferSize);
SORT(sampleBuffers);
SORT(samples);
SORT(depthSize);
SORT(stencilSize);
SORT(alphaMaskSize);
SORT(nativeVisualType);
SORT(configID);
#undef SORT
return false;
}
private:
static bool wantsComponent(const AttributeMap &attributeMap, EGLAttrib component)
{
// [EGL 1.5] section 3.4.1.2 page 30
// Sorting rule #3: by larger total number of color bits, not considering
// components that are 0 or don't-care.
EGLAttrib value = attributeMap.get(component, 0);
return value != 0 && value != EGL_DONT_CARE;
}
void scanForWantedComponents(const AttributeMap &attributeMap)
{
mWantRed = wantsComponent(attributeMap, EGL_RED_SIZE);
mWantGreen = wantsComponent(attributeMap, EGL_GREEN_SIZE);
mWantBlue = wantsComponent(attributeMap, EGL_BLUE_SIZE);
mWantAlpha = wantsComponent(attributeMap, EGL_ALPHA_SIZE);
mWantLuminance = wantsComponent(attributeMap, EGL_LUMINANCE_SIZE);
}
EGLint wantedComponentsSize(const Config &config) const
{
EGLint total = 0;
if (mWantRed)
total += config.redSize;
if (mWantGreen)
total += config.greenSize;
if (mWantBlue)
total += config.blueSize;
if (mWantAlpha)
total += config.alphaSize;
if (mWantLuminance)
total += config.luminanceSize;
return total;
}
bool mWantRed;
bool mWantGreen;
bool mWantBlue;
bool mWantAlpha;
bool mWantLuminance;
};
std::vector<const Config *> ConfigSet::filter(const AttributeMap &attributeMap) const
{
std::vector<const Config *> result;
result.reserve(mConfigs.size());
for (auto configIter = mConfigs.begin(); configIter != mConfigs.end(); configIter++)
{
const Config &config = configIter->second;
bool match = true;
for (auto attribIter = attributeMap.begin(); attribIter != attributeMap.end(); attribIter++)
{
EGLAttrib attributeKey = attribIter->first;
EGLAttrib attributeValue = attribIter->second;
if (attributeValue == EGL_DONT_CARE)
{
continue;
}
switch (attributeKey)
{
case EGL_BUFFER_SIZE:
match = config.bufferSize >= attributeValue;
break;
case EGL_ALPHA_SIZE:
match = config.alphaSize >= attributeValue;
break;
case EGL_BLUE_SIZE:
match = config.blueSize >= attributeValue;
break;
case EGL_GREEN_SIZE:
match = config.greenSize >= attributeValue;
break;
case EGL_RED_SIZE:
match = config.redSize >= attributeValue;
break;
case EGL_DEPTH_SIZE:
match = config.depthSize >= attributeValue;
break;
case EGL_STENCIL_SIZE:
match = config.stencilSize >= attributeValue;
break;
case EGL_CONFIG_CAVEAT:
match = config.configCaveat == static_cast<EGLenum>(attributeValue);
break;
case EGL_CONFIG_ID:
match = config.configID == attributeValue;
break;
case EGL_LEVEL:
match = config.level == attributeValue;
break;
case EGL_NATIVE_RENDERABLE:
match = config.nativeRenderable == static_cast<EGLBoolean>(attributeValue);
break;
case EGL_NATIVE_VISUAL_TYPE:
match = config.nativeVisualType == attributeValue;
break;
case EGL_SAMPLES:
match = config.samples >= attributeValue;
break;
case EGL_SAMPLE_BUFFERS:
match = config.sampleBuffers >= attributeValue;
break;
case EGL_SURFACE_TYPE:
match = (config.surfaceType & attributeValue) == attributeValue;
break;
case EGL_TRANSPARENT_TYPE:
match = config.transparentType == static_cast<EGLenum>(attributeValue);
break;
case EGL_TRANSPARENT_BLUE_VALUE:
if (attributeMap.get(EGL_TRANSPARENT_TYPE, EGL_NONE) != EGL_NONE)
{
match = config.transparentBlueValue == attributeValue;
}
break;
case EGL_TRANSPARENT_GREEN_VALUE:
if (attributeMap.get(EGL_TRANSPARENT_TYPE, EGL_NONE) != EGL_NONE)
{
match = config.transparentGreenValue == attributeValue;
}
break;
case EGL_TRANSPARENT_RED_VALUE:
if (attributeMap.get(EGL_TRANSPARENT_TYPE, EGL_NONE) != EGL_NONE)
{
match = config.transparentRedValue == attributeValue;
}
break;
case EGL_BIND_TO_TEXTURE_RGB:
match = config.bindToTextureRGB == static_cast<EGLBoolean>(attributeValue);
break;
case EGL_BIND_TO_TEXTURE_RGBA:
match = config.bindToTextureRGBA == static_cast<EGLBoolean>(attributeValue);
break;
case EGL_BIND_TO_TEXTURE_TARGET_ANGLE:
match = config.bindToTextureTarget == static_cast<EGLenum>(attributeValue);
break;
case EGL_MIN_SWAP_INTERVAL:
match = config.minSwapInterval == attributeValue;
break;
case EGL_MAX_SWAP_INTERVAL:
match = config.maxSwapInterval == attributeValue;
break;
case EGL_LUMINANCE_SIZE:
match = config.luminanceSize >= attributeValue;
break;
case EGL_ALPHA_MASK_SIZE:
match = config.alphaMaskSize >= attributeValue;
break;
case EGL_COLOR_BUFFER_TYPE:
match = config.colorBufferType == static_cast<EGLenum>(attributeValue);
break;
case EGL_RENDERABLE_TYPE:
match = (config.renderableType & attributeValue) == attributeValue;
break;
case EGL_MATCH_NATIVE_PIXMAP:
match = false;
UNIMPLEMENTED();
break;
case EGL_CONFORMANT:
match = (config.conformant & attributeValue) == attributeValue;
break;
case EGL_MAX_PBUFFER_WIDTH:
match = config.maxPBufferWidth >= attributeValue;
break;
case EGL_MAX_PBUFFER_HEIGHT:
match = config.maxPBufferHeight >= attributeValue;
break;
case EGL_MAX_PBUFFER_PIXELS:
match = config.maxPBufferPixels >= attributeValue;
break;
case EGL_OPTIMAL_SURFACE_ORIENTATION_ANGLE:
match = config.optimalOrientation == attributeValue;
break;
case EGL_COLOR_COMPONENT_TYPE_EXT:
match = config.colorComponentType == static_cast<EGLenum>(attributeValue);
break;
case EGL_RECORDABLE_ANDROID:
match = config.recordable == static_cast<EGLBoolean>(attributeValue);
break;
case EGL_FRAMEBUFFER_TARGET_ANDROID:
match = config.framebufferTarget == static_cast<EGLBoolean>(attributeValue);
break;
case EGL_Y_INVERTED_NOK:
match = config.yInverted == static_cast<EGLBoolean>(attributeValue);
break;
case EGL_MATCH_FORMAT_KHR:
if (attributeValue == EGL_NONE)
{
match = (config.surfaceType & EGL_LOCK_SURFACE_BIT_KHR) == 0;
}
else
{
match = config.matchFormat == attributeValue;
}
break;
default:
UNREACHABLE();
}
if (!match)
{
break;
}
}
if (match)
{
result.push_back(&config);
}
}
// Sort the result
std::sort(result.begin(), result.end(), ConfigSorter(attributeMap));
return result;
}
ConfigSet::ConfigMap::iterator ConfigSet::begin()
{
return mConfigs.begin();
}
ConfigSet::ConfigMap::iterator ConfigSet::end()
{
return mConfigs.end();
}
} // namespace egl
