Fix missing SSBO binding in EGL robustness tests

[platform/upstream/VK-GL-CTS.git] / modules / glshared / glsInteractionTestUtil.cpp

/*-------------------------------------------------------------------------
 * drawElements Quality Program OpenGL (ES) Module
 * -----------------------------------------------
 *
 * Copyright 2014 The Android Open Source Project
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 *
 *//*!
 * \file
 * \brief Interaction test utilities.
 *//*--------------------------------------------------------------------*/

#include "glsInteractionTestUtil.hpp"

#include "tcuVector.hpp"

#include "deRandom.hpp"
#include "deMath.h"

#include "glwEnums.hpp"

namespace deqp
{
namespace gls
{
namespace InteractionTestUtil
{

using tcu::Vec4;
using tcu::IVec2;
using std::vector;

static Vec4 getRandomColor (de::Random& rnd)
{
        static const float components[] = { 0.0f, 0.2f, 0.4f, 0.5f, 0.6f, 0.8f, 1.0f };
        float r = rnd.choose<float>(DE_ARRAY_BEGIN(components), DE_ARRAY_END(components));
        float g = rnd.choose<float>(DE_ARRAY_BEGIN(components), DE_ARRAY_END(components));
        float b = rnd.choose<float>(DE_ARRAY_BEGIN(components), DE_ARRAY_END(components));
        float a = rnd.choose<float>(DE_ARRAY_BEGIN(components), DE_ARRAY_END(components));
        return Vec4(r, g, b, a);
}

void computeRandomRenderState (de::Random& rnd, RenderState& state, glu::ApiType apiType, int targetWidth, int targetHeight)
{
        // Constants governing randomization.
        const float             scissorTestProbability          = 0.2f;
        const float             stencilTestProbability          = 0.4f;
        const float             depthTestProbability            = 0.6f;
        const float             blendProbability                        = 0.4f;
        const float             ditherProbability                       = 0.5f;

        const float             depthWriteProbability           = 0.7f;
        const float             colorWriteProbability           = 0.7f;

        const int               minStencilVal                           = -3;
        const int               maxStencilVal                           = 260;

        const int               maxScissorOutOfBounds           = 10;
        const float             minScissorSize                          = 0.7f;

        static const deUint32 compareFuncs[] =
        {
                GL_NEVER,
                GL_ALWAYS,
                GL_LESS,
                GL_LEQUAL,
                GL_EQUAL,
                GL_GEQUAL,
                GL_GREATER,
                GL_NOTEQUAL
        };

        static const deUint32 stencilOps[] =
        {
                GL_KEEP,
                GL_ZERO,
                GL_REPLACE,
                GL_INCR,
                GL_DECR,
                GL_INVERT,
                GL_INCR_WRAP,
                GL_DECR_WRAP
        };

        static const deUint32 blendEquations[] =
        {
                GL_FUNC_ADD,
                GL_FUNC_SUBTRACT,
                GL_FUNC_REVERSE_SUBTRACT,
                GL_MIN,
                GL_MAX
        };

        static const deUint32 blendFuncs[] =
        {
                GL_ZERO,
                GL_ONE,
                GL_SRC_COLOR,
                GL_ONE_MINUS_SRC_COLOR,
                GL_DST_COLOR,
                GL_ONE_MINUS_DST_COLOR,
                GL_SRC_ALPHA,
                GL_ONE_MINUS_SRC_ALPHA,
                GL_DST_ALPHA,
                GL_ONE_MINUS_DST_ALPHA,
                GL_CONSTANT_COLOR,
                GL_ONE_MINUS_CONSTANT_COLOR,
                GL_CONSTANT_ALPHA,
                GL_ONE_MINUS_CONSTANT_ALPHA,
                GL_SRC_ALPHA_SATURATE
        };

        static const deUint32 blendEquationsES2[] =
        {
                GL_FUNC_ADD,
                GL_FUNC_SUBTRACT,
                GL_FUNC_REVERSE_SUBTRACT
        };

        static const deUint32 blendFuncsDstES2[] =
        {
                GL_ZERO,
                GL_ONE,
                GL_SRC_COLOR,
                GL_ONE_MINUS_SRC_COLOR,
                GL_DST_COLOR,
                GL_ONE_MINUS_DST_COLOR,
                GL_SRC_ALPHA,
                GL_ONE_MINUS_SRC_ALPHA,
                GL_DST_ALPHA,
                GL_ONE_MINUS_DST_ALPHA,
                GL_CONSTANT_COLOR,
                GL_ONE_MINUS_CONSTANT_COLOR,
                GL_CONSTANT_ALPHA,
                GL_ONE_MINUS_CONSTANT_ALPHA
        };

        state.scissorTestEnabled        = rnd.getFloat() < scissorTestProbability;
        state.stencilTestEnabled        = rnd.getFloat() < stencilTestProbability;
        state.depthTestEnabled          = rnd.getFloat() < depthTestProbability;
        state.blendEnabled                      = rnd.getFloat() < blendProbability;
        state.ditherEnabled                     = rnd.getFloat() < ditherProbability;

        if (state.scissorTestEnabled)
        {
                int minScissorW         = deCeilFloatToInt32(minScissorSize * (float)targetWidth);
                int minScissorH         = deCeilFloatToInt32(minScissorSize * (float)targetHeight);
                int maxScissorW         = targetWidth + 2*maxScissorOutOfBounds;
                int maxScissorH         = targetHeight + 2*maxScissorOutOfBounds;

                int scissorW            = rnd.getInt(minScissorW, maxScissorW);
                int     scissorH                = rnd.getInt(minScissorH, maxScissorH);
                int scissorX            = rnd.getInt(-maxScissorOutOfBounds, targetWidth+maxScissorOutOfBounds-scissorW);
                int scissorY            = rnd.getInt(-maxScissorOutOfBounds, targetHeight+maxScissorOutOfBounds-scissorH);

                state.scissorRectangle = rr::WindowRectangle(scissorX, scissorY, scissorW, scissorH);
        }

        if (state.stencilTestEnabled)
        {
                for (int ndx = 0; ndx < 2; ndx++)
                {
                        state.stencil[ndx].function                     = rnd.choose<deUint32>(DE_ARRAY_BEGIN(compareFuncs), DE_ARRAY_END(compareFuncs));
                        state.stencil[ndx].reference            = rnd.getInt(minStencilVal, maxStencilVal);
                        state.stencil[ndx].compareMask          = rnd.getUint32();
                        state.stencil[ndx].stencilFailOp        = rnd.choose<deUint32>(DE_ARRAY_BEGIN(stencilOps), DE_ARRAY_END(stencilOps));
                        state.stencil[ndx].depthFailOp          = rnd.choose<deUint32>(DE_ARRAY_BEGIN(stencilOps), DE_ARRAY_END(stencilOps));
                        state.stencil[ndx].depthPassOp          = rnd.choose<deUint32>(DE_ARRAY_BEGIN(stencilOps), DE_ARRAY_END(stencilOps));
                        state.stencil[ndx].writeMask            = rnd.getUint32();
                }
        }

        if (state.depthTestEnabled)
        {
                state.depthFunc                 = rnd.choose<deUint32>(DE_ARRAY_BEGIN(compareFuncs), DE_ARRAY_END(compareFuncs));
                state.depthWriteMask    = rnd.getFloat() < depthWriteProbability;
        }

        if (state.blendEnabled)
        {
                if (apiType == glu::ApiType::es(2,0))
                {
                        state.blendRGBState.equation    = rnd.choose<deUint32>(DE_ARRAY_BEGIN(blendEquationsES2), DE_ARRAY_END(blendEquationsES2));
                        state.blendRGBState.srcFunc             = rnd.choose<deUint32>(DE_ARRAY_BEGIN(blendFuncs), DE_ARRAY_END(blendFuncs));
                        state.blendRGBState.dstFunc             = rnd.choose<deUint32>(DE_ARRAY_BEGIN(blendFuncsDstES2), DE_ARRAY_END(blendFuncsDstES2));

                        state.blendAState.equation              = rnd.choose<deUint32>(DE_ARRAY_BEGIN(blendEquationsES2), DE_ARRAY_END(blendEquationsES2));
                        state.blendAState.srcFunc               = rnd.choose<deUint32>(DE_ARRAY_BEGIN(blendFuncs), DE_ARRAY_END(blendFuncs));
                        state.blendAState.dstFunc               = rnd.choose<deUint32>(DE_ARRAY_BEGIN(blendFuncsDstES2), DE_ARRAY_END(blendFuncsDstES2));
                }
                else
                {
                        state.blendRGBState.equation    = rnd.choose<deUint32>(DE_ARRAY_BEGIN(blendEquations), DE_ARRAY_END(blendEquations));
                        state.blendRGBState.srcFunc             = rnd.choose<deUint32>(DE_ARRAY_BEGIN(blendFuncs), DE_ARRAY_END(blendFuncs));
                        state.blendRGBState.dstFunc             = rnd.choose<deUint32>(DE_ARRAY_BEGIN(blendFuncs), DE_ARRAY_END(blendFuncs));

                        state.blendAState.equation              = rnd.choose<deUint32>(DE_ARRAY_BEGIN(blendEquations), DE_ARRAY_END(blendEquations));
                        state.blendAState.srcFunc               = rnd.choose<deUint32>(DE_ARRAY_BEGIN(blendFuncs), DE_ARRAY_END(blendFuncs));
                        state.blendAState.dstFunc               = rnd.choose<deUint32>(DE_ARRAY_BEGIN(blendFuncs), DE_ARRAY_END(blendFuncs));
                }

                state.blendColor                                = getRandomColor(rnd);
        }

        for (int ndx = 0; ndx < 4; ndx++)
                state.colorMask[ndx] = rnd.getFloat() < colorWriteProbability;
}

void computeRandomQuad (de::Random& rnd, gls::FragmentOpUtil::IntegerQuad& quad, int targetWidth, int targetHeight)
{
        // \note In viewport coordinates.
        // \todo [2012-12-18 pyry] Out-of-bounds values.
        // \note Not using depth 1.0 since clearing with 1.0 and rendering with 1.0 may not be same value.
        static const float depthValues[] = { 0.0f, 0.2f, 0.4f, 0.5f, 0.51f, 0.6f, 0.8f, 0.95f };

        const int               maxOutOfBounds          = 0;
        const float             minSize                         = 0.5f;

        int minW                = deCeilFloatToInt32(minSize * (float)targetWidth);
        int minH                = deCeilFloatToInt32(minSize * (float)targetHeight);
        int maxW                = targetWidth + 2*maxOutOfBounds;
        int maxH                = targetHeight + 2*maxOutOfBounds;

        int width               = rnd.getInt(minW, maxW);
        int     height          = rnd.getInt(minH, maxH);
        int x                   = rnd.getInt(-maxOutOfBounds, targetWidth+maxOutOfBounds-width);
        int y                   = rnd.getInt(-maxOutOfBounds, targetHeight+maxOutOfBounds-height);

        bool flipX              = rnd.getBool();
        bool flipY              = rnd.getBool();

        float depth             = rnd.choose<float>(DE_ARRAY_BEGIN(depthValues), DE_ARRAY_END(depthValues));

        quad.posA       = IVec2(flipX ? (x+width-1) : x, flipY ? (y+height-1) : y);
        quad.posB       = IVec2(flipX ? x : (x+width-1), flipY ? y : (y+height-1));

        for (int ndx = 0; ndx < DE_LENGTH_OF_ARRAY(quad.color); ndx++)
                quad.color[ndx] = getRandomColor(rnd);

        std::fill(DE_ARRAY_BEGIN(quad.depth), DE_ARRAY_END(quad.depth), depth);
}

void computeRandomRenderCommands (de::Random& rnd, glu::ApiType apiType, int numCommands, int targetW, int targetH, vector<RenderCommand>& dst)
{
        DE_ASSERT(dst.empty());

        dst.resize(numCommands);
        for (vector<RenderCommand>::iterator cmd = dst.begin(); cmd != dst.end(); cmd++)
        {
                computeRandomRenderState(rnd, cmd->state, apiType, targetW, targetH);
                computeRandomQuad(rnd, cmd->quad, targetW, targetH);
        }
}

} // InteractionTestUtil
} // gls
} // deqp