// // Copyright 2018 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. // // Context.inl.h: Defines inline functions of gl::Context class // Has to be included after libANGLE/Context.h when using one // of the defined functions #ifndef LIBANGLE_CONTEXT_INL_H_ #define LIBANGLE_CONTEXT_INL_H_ #include "libANGLE/GLES1Renderer.h" #include "libANGLE/renderer/ContextImpl.h" #define ANGLE_HANDLE_ERR(X) \ (void)(X); \ return; #define ANGLE_CONTEXT_TRY(EXPR) ANGLE_TRY_TEMPLATE(EXPR, ANGLE_HANDLE_ERR) namespace gl { constexpr angle::PackedEnumMap kMinimumPrimitiveCounts = {{ {PrimitiveMode::Points, 1}, {PrimitiveMode::Lines, 2}, {PrimitiveMode::LineLoop, 2}, {PrimitiveMode::LineStrip, 2}, {PrimitiveMode::Triangles, 3}, {PrimitiveMode::TriangleStrip, 3}, {PrimitiveMode::TriangleFan, 3}, {PrimitiveMode::LinesAdjacency, 2}, {PrimitiveMode::LineStripAdjacency, 2}, {PrimitiveMode::TrianglesAdjacency, 3}, {PrimitiveMode::TriangleStripAdjacency, 3}, }}; ANGLE_INLINE void MarkTransformFeedbackBufferUsage(const Context *context, GLsizei count, GLsizei instanceCount) { if (context->getStateCache().isTransformFeedbackActiveUnpaused()) { TransformFeedback *transformFeedback = context->getState().getCurrentTransformFeedback(); transformFeedback->onVerticesDrawn(context, count, instanceCount); } } // Return true if the draw is a no-op, else return false. // A no-op draw occurs if the count of vertices is less than the minimum required to // have a valid primitive for this mode (0 for points, 0-1 for lines, 0-2 for tris). ANGLE_INLINE bool Context::noopDraw(PrimitiveMode mode, GLsizei count) { return count < kMinimumPrimitiveCounts[mode]; } ANGLE_INLINE angle::Result Context::syncDirtyBits() { const State::DirtyBits &dirtyBits = mState.getDirtyBits(); ANGLE_TRY(mImplementation->syncState(this, dirtyBits, mAllDirtyBits)); mState.clearDirtyBits(); return angle::Result::Continue; } ANGLE_INLINE angle::Result Context::syncDirtyBits(const State::DirtyBits &bitMask) { const State::DirtyBits &dirtyBits = (mState.getDirtyBits() & bitMask); ANGLE_TRY(mImplementation->syncState(this, dirtyBits, bitMask)); mState.clearDirtyBits(dirtyBits); return angle::Result::Continue; } ANGLE_INLINE angle::Result Context::syncDirtyObjects(const State::DirtyObjects &objectMask) { return mState.syncDirtyObjects(this, objectMask); } ANGLE_INLINE angle::Result Context::prepareForDraw(PrimitiveMode mode) { if (mGLES1Renderer) { ANGLE_TRY(mGLES1Renderer->prepareForDraw(mode, this, &mState)); } ANGLE_TRY(syncDirtyObjects(mDrawDirtyObjects)); ASSERT(!isRobustResourceInitEnabled() || !mState.getDrawFramebuffer()->hasResourceThatNeedsInit()); return syncDirtyBits(); } ANGLE_INLINE void Context::drawArrays(PrimitiveMode mode, GLint first, GLsizei count) { // No-op if count draws no primitives for given mode if (noopDraw(mode, count)) { return; } ANGLE_CONTEXT_TRY(prepareForDraw(mode)); ANGLE_CONTEXT_TRY(mImplementation->drawArrays(this, mode, first, count)); MarkTransformFeedbackBufferUsage(this, count, 1); } ANGLE_INLINE void Context::drawElements(PrimitiveMode mode, GLsizei count, DrawElementsType type, const void *indices) { // No-op if count draws no primitives for given mode if (noopDraw(mode, count)) { return; } ANGLE_CONTEXT_TRY(prepareForDraw(mode)); ANGLE_CONTEXT_TRY(mImplementation->drawElements(this, mode, count, type, indices)); } ANGLE_INLINE void StateCache::onBufferBindingChange(Context *context) { updateBasicDrawStatesError(); updateBasicDrawElementsError(); } ANGLE_INLINE void Context::bindBuffer(BufferBinding target, GLuint buffer) { Buffer *bufferObject = mState.mBufferManager->checkBufferAllocation(mImplementation.get(), buffer); mState.setBufferBinding(this, target, bufferObject); mStateCache.onBufferBindingChange(this); } } // namespace gl #endif // LIBANGLE_CONTEXT_INL_H_