| /third_party/flutter/skia/gm/ |
| D | convexpaths.cpp | 57 fPaths.back().quadTo(50 * SK_Scalar1, 100 * SK_Scalar1, in makePaths()
59 fPaths.back().lineTo(0, 0); in makePaths()
62 fPaths.back().quadTo(50 * SK_Scalar1, 0, in makePaths()
64 fPaths.back().quadTo(50 * SK_Scalar1, 100 * SK_Scalar1, in makePaths()
107 fPaths.back().lineTo(kLength * SkIntToScalar(i) / kPtsPerSide, 0); in makePaths()
110 fPaths.back().lineTo(kLength, kLength * SkIntToScalar(i) / kPtsPerSide); in makePaths()
113 fPaths.back().lineTo(kLength * SkIntToScalar(i) / kPtsPerSide, kLength); in makePaths()
116 fPaths.back().lineTo(0, kLength * SkIntToScalar(i) / kPtsPerSide); in makePaths()
121 fPaths.back().lineTo(98 * SK_Scalar1, 100 * SK_Scalar1); in makePaths()
122 fPaths.back().lineTo(3 * SK_Scalar1, 96 * SK_Scalar1); in makePaths()
[all …]
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| /third_party/json/include/nlohmann/detail/input/ |
| D | json_sax.hpp | 225 if (JSON_HEDLEY_UNLIKELY(len != std::size_t(-1) && len > ref_stack.back()->max_size())) in start_object()
227 …ROW(out_of_range::create(408, "excessive object size: " + std::to_string(len), *ref_stack.back())); in start_object()
236 object_element = &(ref_stack.back()->m_value.object->operator[](val)); in key()
242 ref_stack.back()->set_parents(); in end_object()
251 if (JSON_HEDLEY_UNLIKELY(len != std::size_t(-1) && len > ref_stack.back()->max_size())) in start_array()
253 …HROW(out_of_range::create(408, "excessive array size: " + std::to_string(len), *ref_stack.back())); in start_array()
261 ref_stack.back()->set_parents(); in end_array()
301 JSON_ASSERT(ref_stack.back()->is_array() || ref_stack.back()->is_object()); in handle_value()
303 if (ref_stack.back()->is_array()) in handle_value()
305 ref_stack.back()->m_value.array->emplace_back(std::forward<Value>(v)); in handle_value()
[all …]
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| /third_party/libabigail/doc/vizualization/graph/gv/ |
| D | sa-base.gv | 6 Node1 -> Node2 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
8 Node2 -> Node3 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
10 Node2 -> Node3 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
11 Node2 -> Node4 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
13 Node2 -> Node5 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
15 Node1 -> Node2 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
16 Node1 -> Node2 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
17 Node1 -> Node6 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
19 Node6 -> Node4 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
20 Node1 -> Node6 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
[all …]
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| D | sa-DD4.gv | 6 Node2 -> Node1 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
8 Node3 -> Node2 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
10 Node4 -> Node3 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
12 Node4 -> Node3 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
13 Node4 -> Node3 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
14 Node3 -> Node2 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
15 Node5 -> Node1 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
17 Node6 -> Node5 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
19 Node4 -> Node6 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
20 Node4 -> Node6 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
[all …]
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| D | sa-DD2.gv | 6 Node2 -> Node1 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
8 Node3 -> Node2 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
10 Node3 -> Node2 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
11 Node3 -> Node2 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
12 Node4 -> Node1 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
14 Node5 -> Node4 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
16 Node3 -> Node5 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
17 Node3 -> Node5 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
18 Node3 -> Node5 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
19 Node5 -> Node4 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
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| D | sa-C3.gv | 6 Node2 -> Node1 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
8 Node2 -> Node1 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
9 Node2 -> Node1 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
10 Node1 -> Node3 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
12 Node3 -> Node4 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
14 Node1 -> Node3 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
15 Node1 -> Node5 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
17 Node5 -> Node6 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
19 Node1 -> Node7 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
21 Node7 -> Node6 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
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| D | sa-DD3.gv | 6 Node2 -> Node1 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
8 Node3 -> Node2 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
10 Node4 -> Node3 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
12 Node4 -> Node3 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
13 Node4 -> Node3 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
14 Node3 -> Node2 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
15 Node5 -> Node1 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
17 Node3 -> Node5 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
18 Node3 -> Node5 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
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| D | sa-C1.gv | 6 Node2 -> Node1 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
8 Node2 -> Node1 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
9 Node2 -> Node1 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
10 Node1 -> Node3 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
12 Node3 -> Node4 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
14 Node1 -> Node3 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
15 Node1 -> Node5 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
17 Node5 -> Node4 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
18 Node1 -> Node5 [dir="back",color="midnightblue",fontsize="9",style="solid",fontname="FreeSans"];
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| /third_party/skia/third_party/externals/swiftshader/third_party/llvm-10.0/llvm/lib/BinaryFormat/ |
| D | MsgPackDocument.cpp | 129 else if (Stack.back().Node.getKind() == Type::Array) { in readFromBlob()
131 auto &Array = Stack.back().Node.getArray(); in readFromBlob()
134 auto &Map = Stack.back().Node.getMap(); in readFromBlob()
135 if (!Stack.back().MapEntry) { in readFromBlob()
137 Stack.back().MapEntry = &Map[Node]; in readFromBlob()
140 *Stack.back().MapEntry = Node; in readFromBlob()
141 Stack.back().MapEntry = nullptr; in readFromBlob()
157 if (Stack.back().Node.getKind() == msgpack::Type::Array) { in readFromBlob()
158 if (Stack.back().Node.getArray().size() != Stack.back().Length) in readFromBlob()
161 if (Stack.back().MapEntry || in readFromBlob()
[all …]
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| /third_party/skia/third_party/externals/swiftshader/third_party/llvm-subzero/lib/Demangle/ |
| D | ItaniumDemangle.cpp | 465 if (!db.template_param.back().empty()) { in parse_template_param()
466 for (auto &t : db.template_param.back().front()) in parse_template_param()
484 if (sub < db.template_param.back().size()) { in parse_template_param()
485 for (auto &temp : db.template_param.back()[sub]) in parse_template_param()
512 auto expr = db.names.back().move_full(); in parse_const_cast_expr()
516 db.names.back() = in parse_const_cast_expr()
517 "const_cast<" + db.names.back().move_full() + ">(" + expr + ")"; in parse_const_cast_expr()
538 auto expr = db.names.back().move_full(); in parse_dynamic_cast_expr()
542 db.names.back() = in parse_dynamic_cast_expr()
543 "dynamic_cast<" + db.names.back().move_full() + ">(" + expr + ")"; in parse_dynamic_cast_expr()
[all …]
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| /third_party/icu/icu4c/source/layoutex/ |
| D | LXUtilities.cpp | 79 le_int32 front, back; in reverse() local
81 for (front = 0, back = length - 1; front < back; front += 1, back -= 1) { in reverse()
84 array[front] = array[back]; in reverse()
85 array[back] = swap; in reverse()
91 le_int32 front, back; in reverse() local
93 for (front = 0, back = length - 1; front < back; front += 1, back -= 1) { in reverse()
96 array[front] = array[back]; in reverse()
97 array[back] = swap; in reverse()
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| /third_party/flutter/skia/src/gpu/ |
| D | GrBufferAllocPool.cpp | 97 GrBuffer* buffer = fBlocks.back().fBuffer.get(); in deleteBlocks()
99 UNMAP_BUFFER(fBlocks.back()); in deleteBlocks()
125 BufferBlock& block = fBlocks.back(); in unmap()
132 this->flushCpuData(fBlocks.back(), flushSize); in unmap()
145 const GrBuffer* buffer = fBlocks.back().fBuffer.get(); in validate()
150 const GrBuffer* buffer = fBlocks.back().fBuffer.get(); in validate()
191 BufferBlock& back = fBlocks.back(); in makeSpace() local
192 size_t usedBytes = back.fBuffer->size() - back.fBytesFree; in makeSpace()
199 if (alignedSize <= back.fBytesFree) { in makeSpace()
203 *buffer = back.fBuffer; in makeSpace()
[all …]
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| /third_party/vk-gl-cts/external/amber/src/src/vulkan/ |
| D | vertex_buffer.cc | 47 vertex_attr_desc_.back().binding = binding; in SetData()
48 vertex_attr_desc_.back().location = location; in SetData()
49 vertex_attr_desc_.back().offset = offset; in SetData()
50 vertex_attr_desc_.back().format = device_->GetVkFormat(*format); in SetData()
53 vertex_binding_desc_.back().binding = binding; in SetData()
54 vertex_binding_desc_.back().stride = stride; in SetData()
55 vertex_binding_desc_.back().inputRate = GetVkInputRate(rate); in SetData()
88 Result r = transfer_buffers_.back()->AddUsageFlags( in SendVertexData()
92 r = transfer_buffers_.back()->Initialize(); in SendVertexData()
94 std::memcpy(transfer_buffers_.back()->HostAccessibleMemoryPtr(), in SendVertexData()
[all …]
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| /third_party/nghttp2/lib/ |
| D | nghttp2_queue.c | 31 queue->front = queue->back = NULL; in nghttp2_queue_init()
55 if (queue->back) { in nghttp2_queue_push()
56 queue->back->next = new_cell; in nghttp2_queue_push()
57 queue->back = new_cell; in nghttp2_queue_push()
60 queue->front = queue->back = new_cell; in nghttp2_queue_push()
69 if (front == queue->back) { in nghttp2_queue_pop()
70 queue->back = NULL; in nghttp2_queue_pop()
81 assert(queue->back); in nghttp2_queue_back()
82 return queue->back->data; in nghttp2_queue_back()
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| /third_party/node/deps/nghttp2/lib/ |
| D | nghttp2_queue.c | 31 queue->front = queue->back = NULL; in nghttp2_queue_init()
55 if (queue->back) { in nghttp2_queue_push()
56 queue->back->next = new_cell; in nghttp2_queue_push()
57 queue->back = new_cell; in nghttp2_queue_push()
60 queue->front = queue->back = new_cell; in nghttp2_queue_push()
69 if (front == queue->back) { in nghttp2_queue_pop()
70 queue->back = NULL; in nghttp2_queue_pop()
81 assert(queue->back); in nghttp2_queue_back()
82 return queue->back->data; in nghttp2_queue_back()
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| /third_party/skia/src/gpu/ |
| D | GrBufferAllocPool.cpp | 97 GrBuffer* buffer = fBlocks.back().fBuffer.get(); in deleteBlocks()
99 UNMAP_BUFFER(fBlocks.back()); in deleteBlocks()
125 BufferBlock& block = fBlocks.back(); in unmap()
132 this->flushCpuData(fBlocks.back(), flushSize); in unmap()
145 const GrBuffer* buffer = fBlocks.back().fBuffer.get(); in validate()
150 const GrBuffer* buffer = fBlocks.back().fBuffer.get(); in validate()
199 BufferBlock& back = fBlocks.back(); in makeSpace() local
200 size_t usedBytes = back.fBuffer->size() - back.fBytesFree; in makeSpace()
207 if (alignedSize <= back.fBytesFree) { in makeSpace()
211 *buffer = back.fBuffer; in makeSpace()
[all …]
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| /third_party/ffmpeg/libavutil/ |
| D | lzo.c | 118 static inline void copy_backptr(LZOContext *c, int back, int cnt) in copy_backptr() argument
122 if (dst - c->out_start < back) { in copy_backptr()
130 av_memcpy_backptr(dst, back, cnt); in copy_backptr()
162 int cnt, back; in av_lzo1x_decode() local
166 back = (GETB(c) << 3) + ((x >> 2) & 7) + 1; in av_lzo1x_decode()
170 back = (GETB(c) << 6) + (x >> 2) + 1; in av_lzo1x_decode()
173 back = (1 << 14) + ((x & 8) << 11); in av_lzo1x_decode()
175 back += (GETB(c) << 6) + (x >> 2); in av_lzo1x_decode()
176 if (back == (1 << 14)) { in av_lzo1x_decode()
189 back = (1 << 11) + (GETB(c) << 2) + (x >> 2) + 1; in av_lzo1x_decode()
[all …]
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| /third_party/skia/src/core/ |
| D | SkRasterClipStack.h | 29 Rec& rec = fStack.back(); in setNewSize()
34 const SkRasterClip& rc() const { return fStack.back().fRC; } in rc()
38 SkASSERT(fStack.back().fDeferredCount >= 0); in save()
39 fStack.back().fDeferredCount += 1; in save()
46 if (--fStack.back().fDeferredCount < 0) { in restore()
47 SkASSERT(fStack.back().fDeferredCount == -1); in restore()
112 SkASSERT(fStack.back().fDeferredCount >= 0); in writable_rc()
113 if (fStack.back().fDeferredCount > 0) { in writable_rc()
114 fStack.back().fDeferredCount -= 1; in writable_rc()
115 fStack.emplace_back(fStack.back().fRC); in writable_rc()
[all …]
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| /third_party/skia/third_party/externals/swiftshader/third_party/llvm-10.0/llvm/include/llvm/ADT/ |
| D | SCCIterator.h | 160 while (VisitStack.back().NextChild != GT::child_end(VisitStack.back().Node)) { in DFSVisitChildren()
162 NodeRef childN = *VisitStack.back().NextChild++; in DFSVisitChildren()
172 if (VisitStack.back().MinVisited > childNum) in DFSVisitChildren()
173 VisitStack.back().MinVisited = childNum; in DFSVisitChildren()
183 NodeRef visitingN = VisitStack.back().Node; in GetNextSCC()
184 unsigned minVisitNum = VisitStack.back().MinVisited; in GetNextSCC()
185 assert(VisitStack.back().NextChild == GT::child_end(visitingN)); in GetNextSCC()
189 if (!VisitStack.empty() && VisitStack.back().MinVisited > minVisitNum) in GetNextSCC()
190 VisitStack.back().MinVisited = minVisitNum; in GetNextSCC()
206 CurrentSCC.push_back(SCCNodeStack.back()); in GetNextSCC()
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| /third_party/flutter/skia/samplecode/ |
| D | SampleShadowUtils.cpp | 56 fConcavePaths.back().lineTo(9.62f, -16.6667f); in onOnceBeforeDraw()
57 fConcavePaths.back().lineTo(28.867f, -16.6667f); in onOnceBeforeDraw()
58 fConcavePaths.back().lineTo(19.24f, 0.0f); in onOnceBeforeDraw()
59 fConcavePaths.back().lineTo(28.867f, 16.6667f); in onOnceBeforeDraw()
60 fConcavePaths.back().lineTo(9.62f, 16.6667f); in onOnceBeforeDraw()
61 fConcavePaths.back().lineTo(0.0f, 33.3333f); in onOnceBeforeDraw()
62 fConcavePaths.back().lineTo(-9.62f, 16.6667f); in onOnceBeforeDraw()
63 fConcavePaths.back().lineTo(-28.867f, 16.6667f); in onOnceBeforeDraw()
64 fConcavePaths.back().lineTo(-19.24f, 0.0f); in onOnceBeforeDraw()
65 fConcavePaths.back().lineTo(-28.867f, -16.6667f); in onOnceBeforeDraw()
[all …]
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| /third_party/skia/samplecode/ |
| D | SampleShadowUtils.cpp | 55 fConcavePaths.back().lineTo(9.62f, -16.6667f); in onOnceBeforeDraw()
56 fConcavePaths.back().lineTo(28.867f, -16.6667f); in onOnceBeforeDraw()
57 fConcavePaths.back().lineTo(19.24f, 0.0f); in onOnceBeforeDraw()
58 fConcavePaths.back().lineTo(28.867f, 16.6667f); in onOnceBeforeDraw()
59 fConcavePaths.back().lineTo(9.62f, 16.6667f); in onOnceBeforeDraw()
60 fConcavePaths.back().lineTo(0.0f, 33.3333f); in onOnceBeforeDraw()
61 fConcavePaths.back().lineTo(-9.62f, 16.6667f); in onOnceBeforeDraw()
62 fConcavePaths.back().lineTo(-28.867f, 16.6667f); in onOnceBeforeDraw()
63 fConcavePaths.back().lineTo(-19.24f, 0.0f); in onOnceBeforeDraw()
64 fConcavePaths.back().lineTo(-28.867f, -16.6667f); in onOnceBeforeDraw()
[all …]
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| /third_party/gn/src/gn/ |
| D | functions_target_rust_unittest.cc | 32 ASSERT_EQ(item_collector.back()->AsTarget()->rust_values().crate_name(), in TEST_F()
43 ASSERT_EQ(item_collector.back()->AsTarget()->rust_values().crate_name(), in TEST_F()
45 << item_collector.back()->AsTarget()->rust_values().crate_name(); in TEST_F()
67 item_collector.back()->AsTarget()->rust_values().crate_root().value(), in TEST_F()
81 item_collector.back()->AsTarget()->rust_values().crate_root().value(), in TEST_F()
93 item_collector.back()->AsTarget()->rust_values().crate_root().value(), in TEST_F()
105 item_collector.back()->AsTarget()->rust_values().crate_root().value(), in TEST_F()
117 item_collector.back()->AsTarget()->rust_values().crate_root().value(), in TEST_F()
140 item_collector.back()->AsTarget()->rust_values().crate_root().value(), in TEST_F()
162 ASSERT_EQ(item_collector.back()->AsTarget()->rust_values().crate_type(), in TEST_F()
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| /third_party/json/doc/examples/ |
| D | back.cpp | 19 std::cout << j_boolean.back() << '\n'; in main()
20 std::cout << j_number_integer.back() << '\n'; in main()
21 std::cout << j_number_float.back() << '\n'; in main()
22 std::cout << j_object.back() << '\n'; in main()
24 std::cout << j_array.back() << '\n'; in main()
26 std::cout << j_string.back() << '\n'; in main()
32 j_null.back(); in main()
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| /third_party/mesa3d/src/amd/compiler/ |
| D | aco_insert_exec_mask.cpp | 189 if (ctx.info[idx].exec.back().second & mask_type_wqm) in transition_to_WQM()
191 if (ctx.info[idx].exec.back().second & mask_type_global) { in transition_to_WQM()
192 Operand exec_mask = ctx.info[idx].exec.back().first; in transition_to_WQM()
195 ctx.info[idx].exec.back().first = exec_mask; in transition_to_WQM()
205 assert(ctx.info[idx].exec.back().second & mask_type_wqm); in transition_to_WQM()
206 assert(ctx.info[idx].exec.back().first.size() == bld.lm.size()); in transition_to_WQM()
207 assert(ctx.info[idx].exec.back().first.isTemp()); in transition_to_WQM()
208 ctx.info[idx].exec.back().first = in transition_to_WQM()
209 bld.copy(Definition(exec, bld.lm), ctx.info[idx].exec.back().first); in transition_to_WQM()
215 if (ctx.info[idx].exec.back().second & mask_type_exact) in transition_to_Exact()
[all …]
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| /third_party/openGLES/extensions/EXT/ |
| D | EXT_stencil_two_side.txt | 43 mask, and write mask) may be different for front- and back-facing
57 passing back-facing polygons in a single pass can use the following
92 approach because front- and back-facing polygons are mixed together,
93 rather than processing batches of front-facing then back-facing
116 // Decrement for back faces
129 Should there be just front and back stencil test state, or should
130 the stencil write mask also have a front and back state?
133 should have front and back versions.
136 not require differing front and back versions of the stencil write
137 mask, but we anticipate other applications where front and back
[all …]
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