| /dports/graphics/scantailor/scantailor-advanced-1.0.16/math/ |
| H A D | MatrixCalc.h | 40 virtual T* allocT(size_t size) = 0;
49 virtual T* allocT(size_t size) { return m_poolT.alloc(size); } in allocT() function
181 T* ident_data = alloc->allocT(rows * cols); in inv()
198 T* x_data = alloc->allocT(cols * b.cols); in solve()
199 T* tbuffer = alloc->allocT(cols * (b.rows + b.cols)); in solve()
217 T* p_trans = alloc->allocT(cols * rows); in trans()
267 T* p_res = alloc->allocT(rows * cols);
282 T* p_res = m1.alloc->allocT(m1.rows * m1.cols);
297 T* p_res = m1.alloc->allocT(m1.rows * m1.cols);
312 T* p_res = m1.alloc->allocT(m1.rows * m2.cols);
[all …]
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| /dports/graphics/blend2d/blend2d-592d1ba52672bbf6365aba476bfe26b7bd2dfab8/src/blend2d/raster/ |
| H A D | rasterworkermanager.cpp | 31 BLThread** workerThreads = zone.allocT<BLThread*>(threadCount * sizeof(void*)); in init()
32 …BLRasterWorkerContext** workerContexts = zone.allocT<BLRasterWorkerContext*>(threadCount * sizeof(… in init()
69 …BLRasterWorkerContext* workerContext = zone.allocT<BLRasterWorkerContext>(blAlignUp(sizeof(BLRaste… in init()
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| /dports/science/plumed/plumed2-2.7.2/src/asmjit/ |
| H A D | x86compiler.cpp | 176 CBJump* node = _cbHeap.allocT<CBJump>(sizeof(CBJump) + opCount * sizeof(Operand)); in _emit()
228 CBInst* node = _cbHeap.allocT<CBInst>(sizeof(CBInst) + opCount * sizeof(Operand)); in _emit()
312 CBJump* node = _cbHeap.allocT<CBJump>(sizeof(CBJump) + opCount * sizeof(Operand)); in _emit()
366 CBInst* node = _cbHeap.allocT<CBInst>(sizeof(CBInst) + opCount * sizeof(Operand)); in _emit()
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| H A D | regalloc_p.h | 469 ZoneList<CBNode*>::Link* link = _zone->allocT<ZoneList<CBNode*>::Link>(); in addUnreachableNode()
488 ZoneList<CBNode*>::Link* link = _zone->allocT<ZoneList<CBNode*>::Link>(); in addReturningNode()
499 ZoneList<CBNode*>::Link* link = _zone->allocT<ZoneList<CBNode*>::Link>(); in addJccNode()
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| H A D | constpool.h | 189 Node* node = zone->allocT<Node>(sizeof(Node) + size); in _newNode()
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| /dports/devel/asmjit/asmjit-911a9a50a2cbc9802c4d44e94b8b99e1d9285cf3/src/asmjit/core/ |
| H A D | zone.h | 310 ASMJIT_INLINE T* allocT(size_t size = sizeof(T), size_t alignment = alignof(T)) noexcept {
560 inline T* allocT(size_t size = sizeof(T)) noexcept {
586 void* p = allocT<T>(); in newT()
594 void* p = allocT<T>(); in newT()
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| H A D | builder.cpp | 110 InstNode* node = _allocator.allocT<InstNode>(InstNode::nodeSizeOfOpCapacity(opCapacity)); in newInstNode()
125 InstNode* node = _allocator.allocT<InstNode>(InstNode::nodeSizeOfOpCapacity(opCapacity)); in newInstNode()
141 InstNode* node = _allocator.allocT<InstNode>(InstNode::nodeSizeOfOpCapacity(opCapacity)); in newInstNode()
158 InstNode* node = _allocator.allocT<InstNode>(InstNode::nodeSizeOfOpCapacity(opCapacity)); in newInstNode()
175 InstNode* node = _allocator.allocT<InstNode>(InstNode::nodeSizeOfOpCapacity(opCapacity)); in newInstNodeRaw()
671 InstNode* node = _allocator.allocT<InstNode>(InstNode::nodeSizeOfOpCapacity(opCapacity)); in _emit()
742 InstNode* node = _allocator.allocT<InstNode>(InstNode::nodeSizeOfOpCapacity(opCapacity)); in _emit()
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| H A D | constpool.h | 156 Node* node = zone->allocT<Node>(sizeof(Node) + size); in _newNode()
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| H A D | rastack.cpp | 25 RAStackSlot* slot = allocator()->allocT<RAStackSlot>(); in newSlot()
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| /dports/lang/erlang-runtime24/otp-OTP-24.1.7/erts/emulator/asmjit/core/ |
| H A D | zone.h | 327 ASMJIT_INLINE T* allocT(size_t size = sizeof(T), size_t alignment = alignof(T)) noexcept {
584 inline T* allocT(size_t size = sizeof(T)) noexcept {
610 void* p = allocT<T>(); in newT()
618 void* p = allocT<T>(); in newT()
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| H A D | rastack.cpp | 40 RAStackSlot* slot = allocator()->allocT<RAStackSlot>(); in newSlot()
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| H A D | constpool.h | 185 Node* node = zone->allocT<Node>(sizeof(Node) + size); in _newNode()
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| /dports/emulators/mess/mame-mame0226/3rdparty/asmjit/src/asmjit/core/ |
| H A D | zone.h | 327 ASMJIT_INLINE T* allocT(size_t size = sizeof(T), size_t alignment = alignof(T)) noexcept {
584 inline T* allocT(size_t size = sizeof(T)) noexcept {
610 void* p = allocT<T>(); in newT()
618 void* p = allocT<T>(); in newT()
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| H A D | constpool.h | 185 Node* node = zone->allocT<Node>(sizeof(Node) + size); in _newNode()
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| H A D | rastack.cpp | 40 RAStackSlot* slot = allocator()->allocT<RAStackSlot>(); in newSlot()
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| /dports/emulators/mame/mame-mame0226/3rdparty/asmjit/src/asmjit/core/ |
| H A D | zone.h | 327 ASMJIT_INLINE T* allocT(size_t size = sizeof(T), size_t alignment = alignof(T)) noexcept {
584 inline T* allocT(size_t size = sizeof(T)) noexcept {
610 void* p = allocT<T>(); in newT()
618 void* p = allocT<T>(); in newT()
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| H A D | constpool.h | 185 Node* node = zone->allocT<Node>(sizeof(Node) + size); in _newNode()
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| /dports/lang/erlang-wx/otp-OTP-24.1.7/erts/emulator/asmjit/core/ |
| H A D | zone.h | 327 ASMJIT_INLINE T* allocT(size_t size = sizeof(T), size_t alignment = alignof(T)) noexcept {
584 inline T* allocT(size_t size = sizeof(T)) noexcept {
610 void* p = allocT<T>(); in newT()
618 void* p = allocT<T>(); in newT()
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| /dports/lang/erlang/otp-OTP-24.1.7/erts/emulator/asmjit/core/ |
| H A D | zone.h | 327 ASMJIT_INLINE T* allocT(size_t size = sizeof(T), size_t alignment = alignof(T)) noexcept {
584 inline T* allocT(size_t size = sizeof(T)) noexcept {
610 void* p = allocT<T>(); in newT()
618 void* p = allocT<T>(); in newT()
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| /dports/lang/erlang-java/otp-OTP-24.1.7/erts/emulator/asmjit/core/ |
| H A D | zone.h | 327 ASMJIT_INLINE T* allocT(size_t size = sizeof(T), size_t alignment = alignof(T)) noexcept {
584 inline T* allocT(size_t size = sizeof(T)) noexcept {
610 void* p = allocT<T>(); in newT()
618 void* p = allocT<T>(); in newT()
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| /dports/biology/infernal/infernal-1.1.3/easel/ |
| H A D | esl_huffman.c | 280 int allocT; // current allocation for T in esl_huffman_Decode() local
289 allocT = nX * 4; // an initial guess: 4 bytes per X, maybe 4x compression in esl_huffman_Decode()
290 ESL_ALLOC(T, sizeof(char) * allocT); in esl_huffman_Decode()
297 if (++pos == allocT) { in esl_huffman_Decode()
298 allocT *= 2; in esl_huffman_Decode()
299 ESL_REALLOC(T, sizeof(char) * allocT); in esl_huffman_Decode()
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| /dports/biology/hmmer/hmmer-3.3/easel/ |
| H A D | esl_huffman.c | 280 int allocT; // current allocation for T in esl_huffman_Decode() local
289 allocT = nX * 4; // an initial guess: 4 bytes per X, maybe 4x compression in esl_huffman_Decode()
290 ESL_ALLOC(T, sizeof(char) * allocT); in esl_huffman_Decode()
297 if (++pos == allocT) { in esl_huffman_Decode()
298 allocT *= 2; in esl_huffman_Decode()
299 ESL_REALLOC(T, sizeof(char) * allocT); in esl_huffman_Decode()
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| /dports/science/madness/madness-ebb3fd7/src/apps/chem/ |
| H A D | CC2.h | 177 typedef allocator<double, 3> allocT; in iterate_singles() typedef
178 typedef XNonlinearSolver<vecfunc<double, 3>, double, allocT> solverT; in iterate_singles()
179 allocT alloc(world,singles.size()); in iterate_singles()
180 solverT solver(allocT(world,singles.size())); in iterate_singles()
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| H A D | nemo.cc | 226 typedef allocator<double, 3> allocT; in solve() typedef
227 typedef XNonlinearSolver<vecfunc<double, 3>, double, allocT> solverT; in solve()
228 allocT alloc(world, nemo.size()); in solve()
229 solverT solver(allocT(world, nemo.size())); in solve()
1291 typedef allocator<double, 3> allocT; in solve_cphf() typedef
1292 typedef XNonlinearSolver<vecfunc<double, 3>, double, allocT> solverT; in solve_cphf()
1293 allocT alloc(world, nemo.size()); in solve_cphf()
1294 solverT solver(allocT(world, nemo.size())); in solve_cphf()
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| /dports/biology/migrate/migrate-3.6.11/src/ |
| H A D | mcmc1.c | 464 (*ntl)->tl = (vtlist *) mymalloc ((*otl).allocT * sizeof (vtlist)); in new_localtimelist()
465 (*ntl)->allocT = otl->allocT; in new_localtimelist()
482 if((*ntl)->allocT < otl->allocT) in new_localtimelist_new()
484 (*ntl)->tl = (vtlist *) myrealloc ((*ntl)->tl,(*otl).allocT * sizeof (vtlist)); in new_localtimelist_new()
486 (*ntl)->allocT = otl->allocT; in new_localtimelist_new()
489 memcpy ((*ntl)->tl, otl->tl, otl->allocT * sizeof (vtlist)); in new_localtimelist_new()
491 memcpy ((*ntl)->lineages, otl->lineages, (*ntl)->allocT * numpop * sizeof (long)); in new_localtimelist_new()
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