qrhi_p.h source code [qtbase/src/gui/rhi/qrhi_p.h]

1	// Copyright (C) 2023 The Qt Company Ltd.
2	// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR LGPL-3.0-only OR GPL-2.0-only OR GPL-3.0-only
3
4	#ifndef QRHI_P_H
5	#define QRHI_P_H
6
7	//
8	// W A R N I N G
9	// -------------
10	//
11	// This file is not part of the Qt API. It exists purely as an
12	// implementation detail. This header file may change from version to
13	// version without notice, or even be removed.
14	//
15	// We mean it.
16	//
17
18	#include <rhi/qrhi.h>
19	#include <QBitArray>
20	#include <QAtomicInt>
21	#include <QElapsedTimer>
22	#include <QLoggingCategory>
23	#include <QtCore/qset.h>
24	#include <QtCore/qvarlengtharray.h>
25
26	QT_BEGIN_NAMESPACE
27
28	#define QRHI_RES(t, x) static_cast<t *>(x)
29	#define QRHI_RES_RHI(t) t rhiD = static_cast<t >(m_rhi)
30
31	Q_DECLARE_LOGGING_CATEGORY(QRHI_LOG_INFO)
32
33	class QRhiImplementation
34	{
35	public:
36	virtual ~QRhiImplementation();
37
38	virtual bool create(QRhi::Flags flags) = `0`;
39	virtual void destroy() = `0`;
40
41	virtual QRhiGraphicsPipeline *createGraphicsPipeline() = `0`;
42	virtual QRhiComputePipeline *createComputePipeline() = `0`;
43	virtual QRhiShaderResourceBindings *createShaderResourceBindings() = `0`;
44	virtual QRhiBuffer *createBuffer(QRhiBuffer::Type type,
45	QRhiBuffer::UsageFlags usage,
46	quint32 size) = `0`;
47	virtual QRhiRenderBuffer *createRenderBuffer(QRhiRenderBuffer::Type type,
48	const QSize &pixelSize,
49	int sampleCount,
50	QRhiRenderBuffer::Flags flags,
51	QRhiTexture::Format backingFormatHint) = `0`;
52	virtual QRhiTexture *createTexture(QRhiTexture::Format format,
53	const QSize &pixelSize,
54	int depth,
55	int arraySize,
56	int sampleCount,
57	QRhiTexture::Flags flags) = `0`;
58	virtual QRhiSampler *createSampler(QRhiSampler::Filter magFilter,
59	QRhiSampler::Filter minFilter,
60	QRhiSampler::Filter mipmapMode,
61	QRhiSampler:: AddressMode u,
62	QRhiSampler::AddressMode v,
63	QRhiSampler::AddressMode w) = `0`;
64
65	virtual QRhiTextureRenderTarget createTextureRenderTarget(const* QRhiTextureRenderTargetDescription &desc,
66	QRhiTextureRenderTarget::Flags flags) = `0`;
67
68	virtual QRhiSwapChain *createSwapChain() = `0`;
69	virtual QRhi::FrameOpResult beginFrame(QRhiSwapChain *swapChain, QRhi::BeginFrameFlags flags) = `0`;
70	virtual QRhi::FrameOpResult endFrame(QRhiSwapChain *swapChain, QRhi::EndFrameFlags flags) = `0`;
71	virtual QRhi::FrameOpResult beginOffscreenFrame(QRhiCommandBuffer **cb, QRhi::BeginFrameFlags flags) = `0`;
72	virtual QRhi::FrameOpResult endOffscreenFrame(QRhi::EndFrameFlags flags) = `0`;
73	virtual QRhi::FrameOpResult finish() = `0`;
74
75	virtual void resourceUpdate(QRhiCommandBuffer cb, QRhiResourceUpdateBatch resourceUpdates) = `0`;
76
77	virtual void beginPass(QRhiCommandBuffer *cb,
78	QRhiRenderTarget *rt,
79	const QColor &colorClearValue,
80	const QRhiDepthStencilClearValue &depthStencilClearValue,
81	QRhiResourceUpdateBatch *resourceUpdates,
82	QRhiCommandBuffer::BeginPassFlags flags) = `0`;
83	virtual void endPass(QRhiCommandBuffer cb, QRhiResourceUpdateBatch resourceUpdates) = `0`;
84
85	virtual void setGraphicsPipeline(QRhiCommandBuffer *cb,
86	QRhiGraphicsPipeline *ps) = `0`;
87
88	virtual void setShaderResources(QRhiCommandBuffer *cb,
89	QRhiShaderResourceBindings *srb,
90	int dynamicOffsetCount,
91	const QRhiCommandBuffer::DynamicOffset *dynamicOffsets) = `0`;
92
93	virtual void setVertexInput(QRhiCommandBuffer *cb,
94	int startBinding, int bindingCount, const QRhiCommandBuffer::VertexInput *bindings,
95	QRhiBuffer *indexBuf, quint32 indexOffset,
96	QRhiCommandBuffer::IndexFormat indexFormat) = `0`;
97
98	virtual void setViewport(QRhiCommandBuffer cb, const* QRhiViewport &viewport) = `0`;
99	virtual void setScissor(QRhiCommandBuffer cb, const* QRhiScissor &scissor) = `0`;
100	virtual void setBlendConstants(QRhiCommandBuffer cb, const* QColor &c) = `0`;
101	virtual void setStencilRef(QRhiCommandBuffer *cb, quint32 refValue) = `0`;
102
103	virtual void draw(QRhiCommandBuffer *cb, quint32 vertexCount,
104	quint32 instanceCount, quint32 firstVertex, quint32 firstInstance) = `0`;
105	virtual void drawIndexed(QRhiCommandBuffer *cb, quint32 indexCount,
106	quint32 instanceCount, quint32 firstIndex,
107	qint32 vertexOffset, quint32 firstInstance) = `0`;
108
109	virtual void debugMarkBegin(QRhiCommandBuffer cb, const* QByteArray &name) = `0`;
110	virtual void debugMarkEnd(QRhiCommandBuffer *cb) = `0`;
111	virtual void debugMarkMsg(QRhiCommandBuffer cb, const* QByteArray &msg) = `0`;
112
113	virtual void beginComputePass(QRhiCommandBuffer *cb,
114	QRhiResourceUpdateBatch *resourceUpdates,
115	QRhiCommandBuffer::BeginPassFlags flags) = `0`;
116	virtual void endComputePass(QRhiCommandBuffer cb, QRhiResourceUpdateBatch resourceUpdates) = `0`;
117	virtual void setComputePipeline(QRhiCommandBuffer cb, QRhiComputePipeline ps) = `0`;
118	virtual void dispatch(QRhiCommandBuffer cb, int* x, int y, int z) = `0`;
119
120	virtual const QRhiNativeHandles nativeHandles(QRhiCommandBuffer cb) = `0`;
121	virtual void beginExternal(QRhiCommandBuffer *cb) = `0`;
122	virtual void endExternal(QRhiCommandBuffer *cb) = `0`;
123	virtual double lastCompletedGpuTime(QRhiCommandBuffer *cb) = `0`;
124
125	virtual QList<int> supportedSampleCounts() const = `0`;
126	virtual int ubufAlignment() const = `0`;
127	virtual bool isYUpInFramebuffer() const = `0`;
128	virtual bool isYUpInNDC() const = `0`;
129	virtual bool isClipDepthZeroToOne() const = `0`;
130	virtual QMatrix4x4 clipSpaceCorrMatrix() const = `0`;
131	virtual bool isTextureFormatSupported(QRhiTexture::Format format, QRhiTexture::Flags flags) const = `0`;
132	virtual bool isFeatureSupported(QRhi::Feature feature) const = `0`;
133	virtual int resourceLimit(QRhi::ResourceLimit limit) const = `0`;
134	virtual const QRhiNativeHandles *nativeHandles() = `0`;
135	virtual QRhiDriverInfo driverInfo() const = `0`;
136	virtual QRhiStats statistics() = `0`;
137	virtual bool makeThreadLocalNativeContextCurrent() = `0`;
138	virtual void releaseCachedResources() = `0`;
139	virtual bool isDeviceLost() const = `0`;
140
141	virtual QByteArray pipelineCacheData() = `0`;
142	virtual void setPipelineCacheData(const QByteArray &data) = `0`;
143
144	void prepareForCreate(QRhi *rhi, QRhi::Implementation impl, QRhi::Flags flags);
145
146	bool isCompressedFormat(QRhiTexture::Format format) const;
147	void compressedFormatInfo(QRhiTexture::Format format, const QSize &size,
148	quint32 bpl, quint32 byteSize,
149	QSize blockDim) const*;
150	void textureFormatInfo(QRhiTexture::Format format, const QSize &size,
151	quint32 bpl, quint32 byteSize, quint32 bytesPerPixel) const*;
152
153	void registerResource(QRhiResource res, bool* ownsNativeResources = true)
154	{
155	// The ownsNativeResources is relevant for the (graphics resource) leak
156	// check in ~QRhiImplementation; when false, the registration's sole
157	// purpose is to automatically null out the resource's m_rhi pointer in
158	// case the rhi goes away first. (which should not happen in
159	// well-written applications but we try to be graceful)
160	resources.insert(key: res, value: ownsNativeResources);
161	}
162
163	void unregisterResource(QRhiResource *res)
164	{
165	resources.remove(key: res);
166	}
167
168	void addDeleteLater(QRhiResource *res)
169	{
170	if (inFrame)
171	pendingDeleteResources.insert(value: res);
172	else
173	delete res;
174	}
175
176	void addCleanupCallback(const QRhi::CleanupCallback &callback)
177	{
178	cleanupCallbacks.append(t: callback);
179	}
180
181	bool sanityCheckGraphicsPipeline(QRhiGraphicsPipeline *ps);
182	bool sanityCheckShaderResourceBindings(QRhiShaderResourceBindings *srb);
183	void updateLayoutDesc(QRhiShaderResourceBindings *srb);
184
185	quint32 pipelineCacheRhiId() const
186	{
187	const quint32 ver = (QT_VERSION_MAJOR << `16`) \| (QT_VERSION_MINOR << `8`) \| (QT_VERSION_PATCH);
188	return (quint32(implType) << `24`) \| ver;
189	}
190
191	void pipelineCreationStart()
192	{
193	pipelineCreationTimer.start();
194	}
195
196	void pipelineCreationEnd()
197	{
198	accumulatedPipelineCreationTime += pipelineCreationTimer.elapsed();
199	}
200
201	qint64 totalPipelineCreationTime() const
202	{
203	return accumulatedPipelineCreationTime;
204	}
205
206	QRhiVertexInputAttribute::Format shaderDescVariableFormatToVertexInputFormat(QShaderDescription::VariableType type) const;
207	quint32 byteSizePerVertexForVertexInputFormat(QRhiVertexInputAttribute::Format format) const;
208
209	static const QRhiShaderResourceBinding::Data shaderResourceBindingData(const* QRhiShaderResourceBinding &binding)
210	{
211	return &binding.d;
212	}
213
214	static QRhiShaderResourceBinding::Data *shaderResourceBindingData(QRhiShaderResourceBinding &binding)
215	{
216	return &binding.d;
217	}
218
219	static bool sortedBindingLessThan(const QRhiShaderResourceBinding &a, const QRhiShaderResourceBinding &b)
220	{
221	return a.d.binding < b.d.binding;
222	}
223
224	QRhi *q;
225
226	static const int MAX_SHADER_CACHE_ENTRIES = `128`;
227
228	bool debugMarkers = false;
229	int currentFrameSlot = `0`; // for vk, mtl, and similar. unused by gl and d3d11.
230	bool inFrame = false;
231
232	private:
233	QRhi::Implementation implType;
234	QThread *implThread;
235	QVarLengthArray<QRhiResourceUpdateBatch *, `4`> resUpdPool;
236	quint64 resUpdPoolMap = `0`;
237	int lastResUpdIdx = -`1`;
238	QHash<QRhiResource , bool*> resources;
239	QSet<QRhiResource *> pendingDeleteResources;
240	QVarLengthArray<QRhi::CleanupCallback, `4`> cleanupCallbacks;
241	QElapsedTimer pipelineCreationTimer;
242	qint64 accumulatedPipelineCreationTime = `0`;
243
244	friend class QRhi;
245	friend class QRhiResourceUpdateBatchPrivate;
246	};
247
248	enum QRhiTargetRectBoundMode
249	{
250	UnBounded,
251	Bounded
252	};
253
254	template<QRhiTargetRectBoundMode boundingMode, typename T, size_t N>
255	bool qrhi_toTopLeftRenderTargetRect(const QSize &outputSize, const std::array<T, N> &r,
256	T x, T y, T w, T h)
257	{
258	// x,y are bottom-left in QRhiScissor and QRhiViewport but top-left in
259	// Vulkan/Metal/D3D. Our input is an OpenGL-style scissor rect where both
260	// negative x or y, and partly or completely out of bounds rects are
261	// allowed. The only thing the input here cannot have is a negative width
262	// or height. We must handle all other input gracefully, clamping to a zero
263	// width or height rect in the worst case, and ensuring the resulting rect
264	// is inside the rendertarget's bounds because some APIs' validation/debug
265	// layers are allergic to out of bounds scissor rects.
266
267	const T outputWidth = outputSize.width();
268	const T outputHeight = outputSize.height();
269	const T inputWidth = r[`2`];
270	const T inputHeight = r[`3`];
271
272	if (inputWidth < `0` \|\| inputHeight < `0`)
273	return false;
274
275	*x = r[`0`];
276	*y = outputHeight - (r[`1`] + inputHeight);
277	*w = inputWidth;
278	*h = inputHeight;
279
280	if (boundingMode == Bounded) {
281	const T widthOffset = x < `0` ? -x : `0`;
282	const T heightOffset = y < `0` ? -y : `0`;
283	w = x < outputWidth ? qMax<T>(`0`, inputWidth - widthOffset) : `0`;
284	h = y < outputHeight ? qMax<T>(`0`, inputHeight - heightOffset) : `0`;
285
286	if (outputWidth > `0`)
287	x = qBound<T>(`0`, x, outputWidth - `1`);
288	if (outputHeight > `0`)
289	y = qBound<T>(`0`, y, outputHeight - `1`);
290
291	if (x + w > outputWidth)
292	w = qMax<T>(`0`, outputWidth - x);
293	if (y + h > outputHeight)
294	h = qMax<T>(`0`, outputHeight - y);
295	}
296	return true;
297	}
298
299	struct QRhiBufferDataPrivate
300	{
301	Q_DISABLE_COPY_MOVE(QRhiBufferDataPrivate)
302	QRhiBufferDataPrivate() { }
303	~QRhiBufferDataPrivate() { delete[] largeData; }
304	int ref = `1`;
305	quint32 size = `0`;
306	quint32 largeAlloc = `0`;
307	char largeData = nullptr*;
308	static constexpr quint32 SMALL_DATA_SIZE = `1024`;
309	char data[SMALL_DATA_SIZE];
310	};
311
312	// no detach-with-contents, no atomic refcount, no shrink
313	class QRhiBufferData
314	{
315	public:
316	QRhiBufferData() = default;
317	~QRhiBufferData()
318	{
319	if (d && !--d->ref)
320	delete d;
321	}
322	QRhiBufferData(const QRhiBufferData &other)
323	: d(other.d)
324	{
325	if (d)
326	d->ref += `1`;
327	}
328	QRhiBufferData &operator=(const QRhiBufferData &other)
329	{
330	if (d == other.d)
331	return *this;
332	if (other.d)
333	other.d->ref += `1`;
334	if (d && !--d->ref)
335	delete d;
336	d = other.d;
337	return *this;
338	}
339	const char constData() const*
340	{
341	return d->size <= QRhiBufferDataPrivate::SMALL_DATA_SIZE ? d->data : d->largeData;
342	}
343	quint32 size() const
344	{
345	return d->size;
346	}
347	void assign(const char *s, quint32 size)
348	{
349	if (!d) {
350	d = new QRhiBufferDataPrivate;
351	} else if (d->ref != `1`) {
352	d->ref -= `1`;
353	d = new QRhiBufferDataPrivate;
354	}
355	d->size = size;
356	if (size <= QRhiBufferDataPrivate::SMALL_DATA_SIZE) {
357	memcpy(dest: d->data, src: s, n: size);
358	} else {
359	if (d->largeAlloc < size) {
360	delete[] d->largeData;
361	d->largeAlloc = size;
362	d->largeData = new char[size];
363	}
364	memcpy(dest: d->largeData, src: s, n: size);
365	}
366	}
367	private:
368	QRhiBufferDataPrivate d = nullptr*;
369	};
370
371	Q_DECLARE_TYPEINFO(QRhiBufferData, Q_RELOCATABLE_TYPE);
372
373	class QRhiResourceUpdateBatchPrivate
374	{
375	public:
376	struct BufferOp {
377	enum Type {
378	DynamicUpdate,
379	StaticUpload,
380	Read
381	};
382	Type type;
383	QRhiBuffer *buf;
384	quint32 offset;
385	QRhiBufferData data;
386	quint32 readSize;
387	QRhiReadbackResult *result;
388
389	static BufferOp dynamicUpdate(QRhiBuffer buf, quint32 offset, quint32 size, const* void *data)
390	{
391	BufferOp op = {};
392	op.type = DynamicUpdate;
393	op.buf = buf;
394	op.offset = offset;
395	const int effectiveSize = size ? size : buf->size();
396	op.data.assign(s: reinterpret_cast<const char *>(data), size: effectiveSize);
397	return op;
398	}
399
400	static void changeToDynamicUpdate(BufferOp op, QRhiBuffer buf, quint32 offset, quint32 size, const void *data)
401	{
402	op->type = DynamicUpdate;
403	op->buf = buf;
404	op->offset = offset;
405	const int effectiveSize = size ? size : buf->size();
406	op->data.assign(s: reinterpret_cast<const char *>(data), size: effectiveSize);
407	}
408
409	static BufferOp staticUpload(QRhiBuffer buf, quint32 offset, quint32 size, const* void *data)
410	{
411	BufferOp op = {};
412	op.type = StaticUpload;
413	op.buf = buf;
414	op.offset = offset;
415	const int effectiveSize = size ? size : buf->size();
416	op.data.assign(s: reinterpret_cast<const char *>(data), size: effectiveSize);
417	return op;
418	}
419
420	static void changeToStaticUpload(BufferOp op, QRhiBuffer buf, quint32 offset, quint32 size, const void *data)
421	{
422	op->type = StaticUpload;
423	op->buf = buf;
424	op->offset = offset;
425	const int effectiveSize = size ? size : buf->size();
426	op->data.assign(s: reinterpret_cast<const char *>(data), size: effectiveSize);
427	}
428
429	static BufferOp read(QRhiBuffer buf, quint32 offset, quint32 size, QRhiReadbackResult result)
430	{
431	BufferOp op = {};
432	op.type = Read;
433	op.buf = buf;
434	op.offset = offset;
435	op.readSize = size;
436	op.result = result;
437	return op;
438	}
439	};
440
441	struct TextureOp {
442	enum Type {
443	Upload,
444	Copy,
445	Read,
446	GenMips
447	};
448	Type type;
449	QRhiTexture *dst;
450	// Specifying multiple uploads for a subresource must be supported.
451	// In the backend this can then end up, where applicable, as a
452	// single, batched copy operation with only one set of barriers.
453	// This helps when doing for example glyph cache fills.
454	using MipLevelUploadList = std::array<QVector<QRhiTextureSubresourceUploadDescription>, QRhi::MAX_MIP_LEVELS>;
455	QVarLengthArray<MipLevelUploadList, `6`> subresDesc;
456	QRhiTexture *src;
457	QRhiTextureCopyDescription desc;
458	QRhiReadbackDescription rb;
459	QRhiReadbackResult *result;
460
461	static TextureOp upload(QRhiTexture tex, const* QRhiTextureUploadDescription &desc)
462	{
463	TextureOp op = {};
464	op.type = Upload;
465	op.dst = tex;
466	int maxLayer = -`1`;
467	for (auto it = desc.cbeginEntries(), itEnd = desc.cendEntries(); it != itEnd; ++it) {
468	if (it->layer() > maxLayer)
469	maxLayer = it->layer();
470	}
471	op.subresDesc.resize(sz: maxLayer + `1`);
472	for (auto it = desc.cbeginEntries(), itEnd = desc.cendEntries(); it != itEnd; ++it)
473	op.subresDesc [it->layer()][it->level()].append(t: it->description());
474	return op;
475	}
476
477	static TextureOp copy(QRhiTexture dst, QRhiTexture src, const QRhiTextureCopyDescription &desc)
478	{
479	TextureOp op = {};
480	op.type = Copy;
481	op.dst = dst;
482	op.src = src;
483	op.desc = desc;
484	return op;
485	}
486
487	static TextureOp read(const QRhiReadbackDescription &rb, QRhiReadbackResult *result)
488	{
489	TextureOp op = {};
490	op.type = Read;
491	op.rb = rb;
492	op.result = result;
493	return op;
494	}
495
496	static TextureOp genMips(QRhiTexture *tex)
497	{
498	TextureOp op = {};
499	op.type = GenMips;
500	op.dst = tex;
501	return op;
502	}
503	};
504
505	int activeBufferOpCount = `0`; // this is the real number of used elements in bufferOps, not bufferOps.count()
506	static const int BUFFER_OPS_STATIC_ALLOC = `1024`;
507	QVarLengthArray<BufferOp, BUFFER_OPS_STATIC_ALLOC> bufferOps;
508
509	int activeTextureOpCount = `0`; // this is the real number of used elements in textureOps, not textureOps.count()
510	static const int TEXTURE_OPS_STATIC_ALLOC = `256`;
511	QVarLengthArray<TextureOp, TEXTURE_OPS_STATIC_ALLOC> textureOps;
512
513	QRhiResourceUpdateBatch q = nullptr*;
514	QRhiImplementation rhi = nullptr*;
515	int poolIndex = -`1`;
516
517	void free();
518	void merge(QRhiResourceUpdateBatchPrivate *other);
519	bool hasOptimalCapacity() const;
520	void trimOpLists();
521
522	static QRhiResourceUpdateBatchPrivate get(QRhiResourceUpdateBatch b) { return b->d; }
523	};
524
525	template<typename T>
526	struct QRhiBatchedBindings
527	{
528	void feed(int binding, T resource) { // binding must be strictly increasing
529	if (curBinding == -`1` \|\| binding > curBinding + `1`) {
530	finish();
531	curBatch.startBinding = binding;
532	curBatch.resources.clear();
533	curBatch.resources.append(resource);
534	} else {
535	Q_ASSERT(binding == curBinding + `1`);
536	curBatch.resources.append(resource);
537	}
538	curBinding = binding;
539	}
540
541	bool finish() {
542	if (!curBatch.resources.isEmpty())
543	batches.append(curBatch);
544	return !batches.isEmpty();
545	}
546
547	void clear() {
548	batches.clear();
549	curBatch.resources.clear();
550	curBinding = -`1`;
551	}
552
553	struct Batch {
554	uint startBinding;
555	QVarLengthArray<T, `4`> resources;
556
557	bool operator==(const Batch &other) const
558	{
559	return startBinding == other.startBinding && resources == other.resources;
560	}
561
562	bool operator!=(const Batch &other) const
563	{
564	return !operator==(other);
565	}
566	};
567
568	QVarLengthArray<Batch, `4`> batches; // sorted by startBinding
569
570	bool operator==(const QRhiBatchedBindings<T> &other) const
571	{
572	return batches == other.batches;
573	}
574
575	bool operator!=(const QRhiBatchedBindings<T> &other) const
576	{
577	return !operator==(other);
578	}
579
580	private:
581	Batch curBatch;
582	int curBinding = -`1`;
583	};
584
585	class QRhiGlobalObjectIdGenerator
586	{
587	public:
588	#ifdef Q_ATOMIC_INT64_IS_SUPPORTED
589	using Type = quint64;
590	#else
591	using Type = quint32;
592	#endif
593	static Type newId();
594	};
595
596	class QRhiPassResourceTracker
597	{
598	public:
599	bool isEmpty() const;
600	void reset();
601
602	struct UsageState {
603	int layout;
604	int access;
605	int stage;
606	};
607
608	enum BufferStage {
609	BufVertexInputStage,
610	BufVertexStage,
611	BufTCStage,
612	BufTEStage,
613	BufFragmentStage,
614	BufComputeStage,
615	BufGeometryStage
616	};
617
618	enum BufferAccess {
619	BufVertexInput,
620	BufIndexRead,
621	BufUniformRead,
622	BufStorageLoad,
623	BufStorageStore,
624	BufStorageLoadStore
625	};
626
627	void registerBuffer(QRhiBuffer buf, int* slot, BufferAccess access, BufferStage stage,
628	const UsageState &state);
629
630	enum TextureStage {
631	TexVertexStage,
632	TexTCStage,
633	TexTEStage,
634	TexFragmentStage,
635	TexColorOutputStage,
636	TexDepthOutputStage,
637	TexComputeStage,
638	TexGeometryStage
639	};
640
641	enum TextureAccess {
642	TexSample,
643	TexColorOutput,
644	TexDepthOutput,
645	TexStorageLoad,
646	TexStorageStore,
647	TexStorageLoadStore
648	};
649
650	void registerTexture(QRhiTexture tex, TextureAccess access, TextureStage *stage,
651	const UsageState &state);
652
653	struct Buffer {
654	int slot;
655	BufferAccess access;
656	BufferStage stage;
657	UsageState stateAtPassBegin;
658	};
659
660	using BufferIterator = QHash<QRhiBuffer *, Buffer>::const_iterator;
661	BufferIterator cbeginBuffers() const { return m_buffers.cbegin(); }
662	BufferIterator cendBuffers() const { return m_buffers.cend(); }
663
664	struct Texture {
665	TextureAccess access;
666	TextureStage stage;
667	UsageState stateAtPassBegin;
668	};
669
670	using TextureIterator = QHash<QRhiTexture *, Texture>::const_iterator;
671	TextureIterator cbeginTextures() const { return m_textures.cbegin(); }
672	TextureIterator cendTextures() const { return m_textures.cend(); }
673
674	static BufferStage toPassTrackerBufferStage(QRhiShaderResourceBinding::StageFlags stages);
675	static TextureStage toPassTrackerTextureStage(QRhiShaderResourceBinding::StageFlags stages);
676
677	private:
678	QHash<QRhiBuffer *, Buffer> m_buffers;
679	QHash<QRhiTexture *, Texture> m_textures;
680	};
681
682	Q_DECLARE_TYPEINFO(QRhiPassResourceTracker::Buffer, Q_RELOCATABLE_TYPE);
683	Q_DECLARE_TYPEINFO(QRhiPassResourceTracker::Texture, Q_RELOCATABLE_TYPE);
684
685	template<typename T, int GROW = `1024`>
686	class QRhiBackendCommandList
687	{
688	public:
689	QRhiBackendCommandList() = default;
690	~QRhiBackendCommandList() { delete[] v; }
691	inline void reset() { p = `0`; }
692	inline bool isEmpty() const { return p == `0`; }
693	inline T &get() {
694	if (p == a) {
695	a += GROW;
696	T nv = new* T[a];
697	if (v) {
698	memcpy(nv, v, p * sizeof(T));
699	delete[] v;
700	}
701	v = nv;
702	}
703	return v[p++];
704	}
705	inline void unget() { --p; }
706	inline T cbegin() const* { return v; }
707	inline T cend() const* { return v + p; }
708	inline T begin() { return* v; }
709	inline T end() { return* v + p; }
710	private:
711	Q_DISABLE_COPY(QRhiBackendCommandList)
712	T v = nullptr*;
713	int a = `0`;
714	int p = `0`;
715	};
716
717	struct QRhiRenderTargetAttachmentTracker
718	{
719	struct ResId { quint64 id; uint generation; };
720	using ResIdList = QVarLengthArray<ResId, `8` * `2` + `1`>; // color, resolve, ds
721
722	template<typename TexType, typename RenderBufferType>
723	static void updateResIdList(const QRhiTextureRenderTargetDescription &desc, ResIdList *dst);
724
725	template<typename TexType, typename RenderBufferType>
726	static bool isUpToDate(const QRhiTextureRenderTargetDescription &desc, const ResIdList &currentResIdList);
727	};
728
729	inline bool operator==(const QRhiRenderTargetAttachmentTracker::ResId &a, const QRhiRenderTargetAttachmentTracker::ResId &b)
730	{
731	return a.id == b.id && a.generation == b.generation;
732	}
733
734	inline bool operator!=(const QRhiRenderTargetAttachmentTracker::ResId &a, const QRhiRenderTargetAttachmentTracker::ResId &b)
735	{
736	return !(a == b);
737	}
738
739	template<typename TexType, typename RenderBufferType>
740	void QRhiRenderTargetAttachmentTracker::updateResIdList(const QRhiTextureRenderTargetDescription &desc, ResIdList *dst)
741	{
742	const bool hasDepthStencil = desc.depthStencilBuffer() \|\| desc.depthTexture();
743	dst->resize(sz: desc.colorAttachmentCount() * `2` + (hasDepthStencil ? `1` : `0`));
744	int n = `0`;
745	for (auto it = desc.cbeginColorAttachments(), itEnd = desc.cendColorAttachments(); it != itEnd; ++it, ++n) {
746	const QRhiColorAttachment &colorAtt(*it);
747	if (colorAtt.texture()) {
748	TexType *texD = QRHI_RES(TexType, colorAtt.texture());
749	(*dst)[n] = { texD->globalResourceId(), texD->generation };
750	} else if (colorAtt.renderBuffer()) {
751	RenderBufferType *rbD = QRHI_RES(RenderBufferType, colorAtt.renderBuffer());
752	(*dst)[n] = { rbD->globalResourceId(), rbD->generation };
753	} else {
754	(*dst)[n] = { .id: `0`, .generation: `0` };
755	}
756	++n;
757	if (colorAtt.resolveTexture()) {
758	TexType *texD = QRHI_RES(TexType, colorAtt.resolveTexture());
759	(*dst)[n] = { texD->globalResourceId(), texD->generation };
760	} else {
761	(*dst)[n] = { .id: `0`, .generation: `0` };
762	}
763	}
764	if (hasDepthStencil) {
765	if (desc.depthTexture()) {
766	TexType *depthTexD = QRHI_RES(TexType, desc.depthTexture());
767	(*dst)[n] = { depthTexD->globalResourceId(), depthTexD->generation };
768	} else if (desc.depthStencilBuffer()) {
769	RenderBufferType *depthRbD = QRHI_RES(RenderBufferType, desc.depthStencilBuffer());
770	(*dst)[n] = { depthRbD->globalResourceId(), depthRbD->generation };
771	} else {
772	(*dst)[n] = { .id: `0`, .generation: `0` };
773	}
774	}
775	}
776
777	template<typename TexType, typename RenderBufferType>
778	bool QRhiRenderTargetAttachmentTracker::isUpToDate(const QRhiTextureRenderTargetDescription &desc, const ResIdList &currentResIdList)
779	{
780	// Just as setShaderResources() recognizes if an srb's referenced
781	// resources have been rebuilt (got a create() since the srb's
782	// create()), we should do the same for the textures and renderbuffers
783	// referenced from the rendertarget. It is not uncommon that a texture
784	// or ds buffer gets resized due to following a window size in some
785	// form, which involves a create() on them. It is then nice if the
786	// render target auto-rebuilds in beginPass().
787
788	ResIdList resIdList;
789	updateResIdList<TexType, RenderBufferType>(desc, &resIdList);
790	return resIdList == currentResIdList;
791	}
792
793	template<typename T>
794	inline T qrhi_objectFromProxyData(QRhiSwapChainProxyData pd, QWindow *window, QRhi::Implementation impl, uint objectIndex)
795	{
796	Q_ASSERT(objectIndex < std::size(pd->reserved));
797	if (!pd->reserved[objectIndex]) // // was not set, no other choice, do it here, whatever thread this is
798	*pd = QRhi::updateSwapChainProxyData(impl, window);
799	return static_cast<T *>(pd->reserved[objectIndex]);
800	}
801
802	QT_END_NAMESPACE
803
804	#endif
805

source code of qtbase/src/gui/rhi/qrhi_p.h