| /xsrc/external/mit/MesaLib/dist/src/panfrost/midgard/ |
| H A D | midgard_address.c | 30 * and globals, have support for address arithmetic natively. In particularly,
32 * the address:
67 mir_match_constant(struct mir_address *address) argument
69 if (address->A.def && nir_ssa_scalar_is_const(address->A)) {
70 address->bias += nir_ssa_scalar_as_uint(address->A);
71 address->A.def = NULL;
74 if (address->B.def && nir_ssa_scalar_is_const(address
86 mir_match_iadd(struct mir_address * address,bool first_free) argument
120 mir_match_u2u64(struct mir_address * address) argument
139 mir_match_i2i64(struct mir_address * address) argument
158 mir_match_ishl(struct mir_address * address) argument
183 mir_match_mov(struct mir_address * address) argument
205 struct mir_address address = { local in function:mir_match_offset
[all...] |
| /xsrc/external/mit/brotli/dist/c/common/ |
| H A D | platform.c | 19 void BrotliDefaultFreeFunc(void* opaque, void* address) { argument
21 free(address);
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| /xsrc/external/mit/libX11/dist/src/xlibi18n/ |
| H A D | XimTrInt.h | 73 char *address
80 char *address
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| /xsrc/external/mit/xdm/dist/xdm/ |
| H A D | protodpy.c | 53 Debug ("\taddress: %s", pdpy->address);
54 //PrintSockAddr (pdpy->address, pdpy->addrlen);
63 XdmcpNetaddr address,
73 addressEqual (address, addrlen, pdpy->address, pdpy->addrlen))
96 XdmcpNetaddr address,
112 pdpy->address = malloc (addrlen);
113 if (!pdpy->address)
119 memcpy(pdpy->address, address, addrle
62 FindProtoDisplay(XdmcpNetaddr address,int addrlen,CARD16 displayNumber) argument
95 NewProtoDisplay(XdmcpNetaddr address,int addrlen,CARD16 displayNumber,CARD16 connectionType,ARRAY8Ptr connectionAddress,CARD32 sessionID) argument
[all...] |
| /xsrc/external/mit/xorgproto/dist/specs/SIAddresses/ |
| H A D | IPv6.md | 1 ## ServerInterpreted address definition for type "IPv6"
4 address type of "IPv6" for use with IPv6 literal address formats.
7 This address type specification will be formally issued once the
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| /xsrc/external/mit/xf86-video-nsc/dist/src/gfx/ |
| H A D | gfx_msr.c | 172 gfx_id_msr_device(MSR * pDev, unsigned long address) argument
178 ret_value = redcloud_id_msr_device(pDev, address);
189 gfx_get_msr_dev_address(unsigned int device, unsigned long *address) argument
195 ret_value = redcloud_get_msr_dev_address(device, address);
206 gfx_get_glink_id_at_address(unsigned int *device, unsigned long address) argument
212 ret_value = redcloud_get_glink_id_at_address(device, address);
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| H A D | msr_rdcl.c | 132 DEV_STATUS redcloud_id_msr_device(MSR * pDev, unsigned long address);
134 unsigned long *address);
136 unsigned long address);
262 * This routine walks through the MBUS and records the address value and
267 * nodes are nodes that forward the given MBUS address BACK to the initiator.
305 MBIU0[port].address = port << 29;
309 /* responds at address 0x40000xxx, which does not equal 0 << 29. */
318 MSR_READ(MBD_MSR_CAP, MBIU0[port].address, &(msrValue.high),
352 MBIU1[port].address = (0x02l << 29) + (port << 26);
359 MSR_READ(MBD_MSR_CAP, MBIU1[port].address,
558 redcloud_id_msr_device(MSR * pDev,unsigned long address) argument
598 redcloud_get_msr_dev_address(unsigned int device,unsigned long * address) argument
636 redcloud_get_glink_id_at_address(unsigned int * device,unsigned long address) argument
[all...] |
| H A D | init_gu2.c | 131 unsigned long gu2_pci_config_read(unsigned long address);
132 void gu2_pci_config_write(unsigned long address, unsigned long data);
174 * This routine returns the base address for display controller registers.
191 * This routine returns the base address for the graphics acceleration.
208 * This routine returns the base address for graphics memory.
253 * This routine returns the base address for the video hardware.
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| /xsrc/external/mit/xf86-video-geode/dist/src/gfx/ |
| H A D | gfx_msr.c | 75 gfx_id_msr_device(MSR * pDev, unsigned long address) argument
81 ret_value = redcloud_id_msr_device(pDev, address);
92 gfx_get_msr_dev_address(unsigned int device, unsigned long *address) argument
98 ret_value = redcloud_get_msr_dev_address(device, address);
109 gfx_get_glink_id_at_address(unsigned int *device, unsigned long address) argument
115 ret_value = redcloud_get_glink_id_at_address(device, address);
|
| H A D | msr_rdcl.c | 156 * This routine walks through the MBUS and records the address value and
161 * Reflective nodes are nodes that forward the given MBUS address BACK to the
200 MBIU0[port].address = port << 29;
204 * responds at address 0x40000xxx, which does not equal 0 << 29.
214 MSR_READ(MBD_MSR_CAP, MBIU0[port].address, &(msrValue.high),
248 MBIU1[port].address = (0x02l << 29) + (port << 26);
255 MSR_READ(MBD_MSR_CAP, MBIU1[port].address, &(msrValue.high),
291 MBIU2[port].address =
299 MSR_READ(MBD_MSR_CAP, MBIU2[port].address, &(msrValue.high),
315 MBIU2[port].address
457 redcloud_id_msr_device(MSR * pDev,unsigned long address) argument
497 redcloud_get_msr_dev_address(unsigned int device,unsigned long * address) argument
535 redcloud_get_glink_id_at_address(unsigned int * device,unsigned long address) argument
[all...] |
| /xsrc/external/mit/MesaLib/dist/src/gallium/drivers/r600/sfn/ |
| H A D | sfn_instruction_lds.cpp | 15 LDSReadInstruction::LDSReadInstruction(std::vector<PValue>& address, std::vector<PValue>& value): argument
17 m_address(address),
20 assert(address.size() == value.size());
22 for (unsigned i = 0; i < address.size(); ++i) {
50 LDSAtomicInstruction::LDSAtomicInstruction(PValue& dest, PValue& src0, PValue src1, PValue& address, unsigned op): argument
52 m_address(address),
64 LDSAtomicInstruction::LDSAtomicInstruction(PValue& dest, PValue& src0, PValue& address, unsigned op): argument
65 LDSAtomicInstruction(dest, src0, PValue(), address, op)
91 LDSWriteInstruction::LDSWriteInstruction(PValue address, unsigned idx_offset, PValue value0): argument
92 LDSWriteInstruction::LDSWriteInstruction(address, idx_offse
97 LDSWriteInstruction(PValue address,unsigned idx_offset,PValue value0,PValue value1) argument
[all...] |
| H A D | sfn_instruction_lds.h | 10 LDSReadInstruction(std::vector<PValue>& value, std::vector<PValue>& address);
14 const Value& address(unsigned i) const { return *m_address[i];} function in class:r600::LDSReadInstruction
30 LDSAtomicInstruction(PValue& dest, PValue& src0, PValue src1, PValue& address, unsigned op);
31 LDSAtomicInstruction(PValue& dest, PValue& src0, PValue& address, unsigned op);
33 const Value& address() const { return *m_address;} function in class:r600::LDSAtomicInstruction
55 LDSWriteInstruction(PValue address, unsigned idx_offset, PValue value0);
56 LDSWriteInstruction(PValue address, unsigned idx_offset, PValue value0, PValue value1);
58 const Value& address() const {return *m_address;}; function in class:r600::LDSWriteInstruction
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| /xsrc/external/mit/xf86-video-geode/dist/src/cim/ |
| H A D | cim_init.c | 50 unsigned long address, data; local in function:init_detect_cpu
63 address = 0x80000000 | (bus << 16) | (device << 11);
65 data = init_read_pci(address);
121 address = 0x80000000 | (cpu_bus << 16) | (cpu_device << 11) |
123 data = init_read_pci(address);
141 data = init_read_pci(address + 0x10 + (i << 2));
152 init_video_base = address;
160 * This routine reads an unsigned long value from a PCI address.
164 init_read_pci(unsigned long address) argument
166 OUTD(0xCF8, address);
[all...] |
| /xsrc/external/mit/MesaLib/dist/src/amd/registers/ |
| H A D | makeregheader.py | 135 # The following contain: Object(address, chips, name, regmap/field/enumentry)
146 address=regmap.map.at,
165 address=regmap.map.at,
181 address=regmap.map.at,
190 lines.sort(key=lambda line: (line.address, line.name))
195 if prev and prev.address == line.address and prev.name == line.name:
203 lines.sort(key=lambda line: (line.address, line.name))
209 if prev.address != line.address o
[all...] |
| /xsrc/external/mit/MesaLib.old/dist/src/intel/tools/ |
| H A D | aub_mem.c | 186 aub_mem_local_write(void *_mem, uint64_t address, argument
192 .addr = address,
199 aub_mem_ggtt_entry_write(void *_mem, uint64_t address, argument
203 uint64_t virt_addr = (address / sizeof(uint64_t)) << 12;
252 aub_mem_get_ggtt_bo(void *_mem, uint64_t address) argument
258 if (!i->ppgtt && i->bo.addr <= address && i->bo.addr + i->bo.size > address)
261 address &= ~0xfff;
264 (struct ggtt_entry *)rb_tree_search_sloppy(&mem->ggtt, &address,
266 if (start && start->virt_addr < address)
304 ppgtt_walk(struct aub_mem * mem,uint64_t pml4,uint64_t address) argument
323 ppgtt_mapped(struct aub_mem * mem,uint64_t pml4,uint64_t address) argument
329 aub_mem_get_ppgtt_bo(void * _mem,uint64_t address) argument
[all...] |
| /xsrc/external/mit/MesaLib/dist/src/intel/common/ |
| H A D | intel_aux_map.c | 25 * The aux map provides a multi-level lookup of the main surface address which
27 * the address where the auxiliary data resides.
29 * The 48-bit VMA (GPU) address of the main surface is split to do the address
32 * 48 bit address of main surface
47 * If the `V` (valid) bit is set, then the L2-tbl-addr gives the address for
48 * the level-2 table entries, with the lower address bits filled with zero.
51 * entry, except with 2 additional address bits:
58 * If the `V` bit is set, then the L1-tbl-addr gives the address for the
59 * level-1 table entries, with the lower address bit
345 get_aux_entry(struct intel_aux_map_context * ctx,uint64_t address,uint32_t * l1_index_out,uint64_t * l1_entry_addr_out,uint64_t ** l1_entry_map_out) argument
394 add_mapping(struct intel_aux_map_context * ctx,uint64_t address,uint64_t aux_address,uint64_t format_bits,bool * state_changed) argument
436 intel_aux_map_get_entry(struct intel_aux_map_context * ctx,uint64_t address,uint64_t * entry_address) argument
449 intel_aux_map_add_mapping(struct intel_aux_map_context * ctx,uint64_t address,uint64_t aux_address,uint64_t main_size_B,uint64_t format_bits) argument
476 remove_mapping(struct intel_aux_map_context * ctx,uint64_t address,bool * state_changed) argument
523 intel_aux_map_unmap_range(struct intel_aux_map_context * ctx,uint64_t address,uint64_t size) argument
[all...] |
| /xsrc/external/mit/MesaLib/dist/src/intel/tools/ |
| H A D | aub_mem.c | 195 aub_mem_local_write(void *_mem, uint64_t address, argument
201 .addr = address,
208 aub_mem_ggtt_entry_write(void *_mem, uint64_t address, argument
212 uint64_t virt_addr = (address / sizeof(uint64_t)) << 12;
261 aub_mem_get_ggtt_bo(void *_mem, uint64_t address) argument
267 if (!i->ppgtt && i->bo.addr <= address && i->bo.addr + i->bo.size > address)
270 address &= ~0xfff;
273 (struct ggtt_entry *)rb_tree_search_sloppy(&mem->ggtt, &address,
275 if (start && start->virt_addr < address)
312 ppgtt_walk(struct aub_mem * mem,uint64_t pml4,uint64_t address) argument
331 ppgtt_mapped(struct aub_mem * mem,uint64_t pml4,uint64_t address) argument
337 aub_mem_get_ppgtt_bo(void * _mem,uint64_t address) argument
[all...] |
| /xsrc/external/mit/xf86-video-qxl/dist/src/ |
| H A D | spiceqxl_vdagent.c | 104 struct sockaddr_un address; local in function:on_accept
105 socklen_t length = sizeof(address);
108 virtio_client_fd = accept(virtio_fd, (struct sockaddr *)&address, &length);
140 struct sockaddr_un address; local in function:spiceqxl_vdagent_init
158 address.sun_family = AF_UNIX;
159 snprintf(address.sun_path, sizeof(address.sun_path), "%s", vdagent_virtio_filename);
160 c = bind(virtio_fd, (struct sockaddr *)&address, sizeof(address));
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| /xsrc/external/mit/MesaLib.old/dist/bin/ |
| H A D | perf-annotate-jit.py | 159 for address, instr in asm:
161 sample = samples.pop(address)
167 sys.stdout.write('%6u: %s\n' % (address, instr))
195 call_re = re.compile(r'^\s+(?P<address>[0-9a-fA-F]+)\s+(?P<symbol>.*)\s+\((?P<module>[^)]*)\)$')
209 function_name = mo.group('address')
215 address = mo.group('address')
216 address = int(address, 16)
222 address
[all...] |
| /xsrc/external/mit/MesaLib.old/dist/src/mesa/drivers/dri/i965/ |
| H A D | genX_boilerplate.h | 54 struct brw_address address, uint32_t delta)
59 if (address.bo == NULL) {
60 return address.offset + delta;
64 return brw_state_reloc(batch, offset, address.bo,
65 address.offset + delta,
66 address.reloc_flags);
72 return brw_batch_reloc(batch, offset, address.bo,
73 address.offset + delta,
74 address.reloc_flags);
53 __gen_combine_address(struct brw_context * brw,void * location,struct brw_address address,uint32_t delta) argument
|
| /xsrc/external/mit/MesaLib/dist/bin/ |
| H A D | perf-annotate-jit.py | 159 for address, instr in asm:
161 sample = samples.pop(address)
167 sys.stdout.write('%6u: %s\n' % (address, instr))
195 call_re = re.compile(r'^\s+(?P<address>[0-9a-fA-F]+)\s+(?P<symbol>.*)\s+\((?P<module>[^)]*)\)$')
209 function_name = mo.group('address')
215 address = mo.group('address')
216 address = int(address, 16)
222 address
[all...] |
| /xsrc/external/mit/MesaLib/dist/src/mesa/drivers/dri/i965/ |
| H A D | genX_boilerplate.h | 54 struct brw_address address, uint32_t delta)
59 if (address.bo == NULL) {
60 return address.offset + delta;
64 return brw_state_reloc(batch, offset, address.bo,
65 address.offset + delta,
66 address.reloc_flags);
72 return brw_batch_reloc(batch, offset, address.bo,
73 address.offset + delta,
74 address.reloc_flags);
53 __gen_combine_address(struct brw_context * brw,void * location,struct brw_address address,uint32_t delta) argument
|
| /xsrc/external/mit/xf86-video-xgi/dist/src/ |
| H A D | xgi_cursor.h | 71 #define xgiG2CRT1_SetCursorAddressPattern(address,pat_id) \
76 ulTemp |= (address) & 0x3FFFF ;\
82 #define xgiG2CRT2_SetCursorAddressPattern(address,pat_id) \
88 ulTemp |= (address) & 0x3FFFF ;\
94 #define xgiG2CRT1_SetCursorAddress(address)\
100 ulTemp |= (address) & 0x3FFFF ;\
141 #define xgiG1CRT2_SetCursorAddress(address)\
147 ulTemp |= (address) & 0x3FFFF ;\
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| /xsrc/external/mit/xf86-video-nsc/dist/src/panel/ |
| H A D | cen9211.h | 190 void Centaurus_write_gpio(int width, unsigned long address,
194 unsigned long Centaurus_read_gpio(int width, unsigned long address);
|
| /xsrc/external/mit/xf86-video-geode/dist/src/panel/ |
| H A D | cen9211.h | 81 void Centaurus_write_gpio(int width, unsigned long address, unsigned long data);
84 unsigned long Centaurus_read_gpio(int width, unsigned long address);
|