/kernel/linux/linux-5.10/drivers/input/touchscreen/ |
D | zforce_ts.c | 341 struct zforce_point point; in zforce_touch_event() local 353 point.coord_x = in zforce_touch_event() 355 point.coord_y = in zforce_touch_event() 358 if (point.coord_x > pdata->x_max || in zforce_touch_event() 359 point.coord_y > pdata->y_max) { in zforce_touch_event() 361 point.coord_x, point.coord_y); in zforce_touch_event() 362 point.coord_x = point.coord_y = 0; in zforce_touch_event() 365 point.state = payload[9 * i + 5] & 0x0f; in zforce_touch_event() 366 point.id = (payload[9 * i + 5] & 0xf0) >> 4; in zforce_touch_event() 369 point.area_major = max(payload[9 * i + 6], in zforce_touch_event() [all …]
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D | auo-pixcir-ts.c | 125 struct auo_point_t *point) in auo_pixcir_collect_data() argument 150 point[i].coord_x = in auo_pixcir_collect_data() 152 point[i].coord_y = in auo_pixcir_collect_data() 155 if (point[i].coord_x > pdata->x_max || in auo_pixcir_collect_data() 156 point[i].coord_y > pdata->y_max) { in auo_pixcir_collect_data() 158 point[i].coord_x, point[i].coord_y); in auo_pixcir_collect_data() 159 point[i].coord_x = point[i].coord_y = 0; in auo_pixcir_collect_data() 163 point[i].area_major = max(raw_area[2 * i], raw_area[2 * i + 1]); in auo_pixcir_collect_data() 164 point[i].area_minor = min(raw_area[2 * i], raw_area[2 * i + 1]); in auo_pixcir_collect_data() 165 point[i].orientation = raw_area[2 * i] > raw_area[2 * i + 1]; in auo_pixcir_collect_data() [all …]
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D | raspberrypi-ts.c | 56 } point[RPI_TS_MAX_SUPPORTED_POINTS]; member 85 x = (((int)regs.point[i].xh & 0xf) << 8) + regs.point[i].xl; in rpi_ts_poll() 86 y = (((int)regs.point[i].yh & 0xf) << 8) + regs.point[i].yl; in rpi_ts_poll() 87 touchid = (regs.point[i].yh >> 4) & 0xf; in rpi_ts_poll() 88 event_type = (regs.point[i].xh >> 6) & 0x03; in rpi_ts_poll()
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/kernel/liteos_m/components/debugtools/ |
D | los_schedtrace.c | 48 UINT32 point = count % TRACE_NUM; in DefaultShowFormat() local 53 for (i = point; i < TRACE_NUM; i++) { in DefaultShowFormat() 60 for (i = 0; i < point; i++) { in DefaultShowFormat() 71 UINT32 point = g_schedCount % TRACE_NUM; in DefaultRecordHandle() local 73 g_traceRingBuf[point].newTaskID = newTask->taskID; in DefaultRecordHandle() 74 …(VOID)memcpy_s(g_traceRingBuf[point].newTaskName, LOS_TASK_NAMELEN, newTask->taskName, LOS_TASK_NA… in DefaultRecordHandle() 75 g_traceRingBuf[point].runTaskID = runTask->taskID; in DefaultRecordHandle() 76 …(VOID)memcpy_s(g_traceRingBuf[point].runTaskName, LOS_TASK_NAMELEN, runTask->taskName, LOS_TASK_NA… in DefaultRecordHandle()
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/kernel/linux/linux-5.10/Documentation/ABI/testing/ |
D | sysfs-firmware-dmi-tables | 6 data referenced by a SMBIOS table entry point. The SMBIOS 7 entry point contains general information, like SMBIOS 9 size of SMBIOS entry point is dependent on SMBIOS version. 10 The format of SMBIOS entry point and DMI structures 13 The dmi/tables provides raw SMBIOS entry point and DMI tables 15 from /dev/mem. The raw SMBIOS entry point and DMI table are
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/kernel/linux/linux-5.10/tools/perf/arch/powerpc/util/ |
D | sym-handling.c | 94 if (pev->point.offset || !map || !sym) in arch__fix_tev_from_maps() 98 if (!pev->uprobes && pev->point.retprobe) { in arch__fix_tev_from_maps() 108 tev->point.offset += PPC64LE_LEP_OFFSET; in arch__fix_tev_from_maps() 111 tev->point.address += lep_offset; in arch__fix_tev_from_maps() 113 tev->point.offset += lep_offset; in arch__fix_tev_from_maps() 134 if (map->unmap_ip(map, sym->start) == tev->point.address) { in arch__post_process_probe_trace_events()
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/kernel/linux/linux-5.10/lib/mpi/ |
D | ec.c | 678 int mpi_ec_get_affine(MPI x, MPI y, MPI_POINT point, struct mpi_ec_ctx *ctx) in mpi_ec_get_affine() argument 680 if (!mpi_cmp_ui(point->z, 0)) in mpi_ec_get_affine() 690 ec_invm(z1, point->z, ctx); /* z1 = z^(-1) mod p */ in mpi_ec_get_affine() 694 ec_mulm(x, point->x, z2, ctx); in mpi_ec_get_affine() 699 ec_mulm(y, point->y, z3, ctx); in mpi_ec_get_affine() 711 mpi_set(x, point->x); in mpi_ec_get_affine() 726 ec_invm(z, point->z, ctx); in mpi_ec_get_affine() 734 ctx->mulm(x, point->x, z, ctx); in mpi_ec_get_affine() 739 ctx->mulm(y, point->y, z, ctx); in mpi_ec_get_affine() 754 MPI_POINT point, struct mpi_ec_ctx *ctx) in dup_point_weierstrass() argument [all …]
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/kernel/linux/linux-5.10/arch/arm/nwfpe/ |
D | softfloat-specialize | 5 This C source fragment is part of the SoftFloat IEC/IEEE Floating-point 12 of this code was written as part of a project to build a fixed-point vector 42 Raises the exceptions specified by `flags'. Floating-point traps can be 78 Returns 1 if the single-precision floating-point value `a' is a NaN; 91 Returns 1 if the single-precision floating-point value `a' is a signaling 104 Returns the result of converting the single-precision floating-point NaN 124 precision floating-point format. 136 Takes two single-precision floating-point values `a' and `b', one of which 170 Returns 1 if the double-precision floating-point value `a' is a NaN; 183 Returns 1 if the double-precision floating-point value `a' is a signaling [all …]
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/kernel/linux/linux-5.10/arch/m68k/ifpsp060/ |
D | fskeleton.S | 58 | This is the main exit point for the 68060 Floating-Point 70 | This is the exit point for the 060FPSP when an enabled overflow exception 71 | is present. The routine below should point to the operating system handler 89 | This is the exit point for the 060FPSP when an enabled underflow exception 90 | is present. The routine below should point to the operating system handler 107 | This is the exit point for the 060FPSP when an enabled operand error exception 108 | is present. The routine below should point to the operating system handler 126 | This is the exit point for the 060FPSP when an enabled signalling NaN exception 127 | is present. The routine below should point to the operating system handler 145 | This is the exit point for the 060FPSP when an enabled divide-by-zero exception [all …]
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/kernel/linux/linux-5.10/tools/perf/util/ |
D | probe-event.c | 427 memcpy(tmp, &pev->point, sizeof(*tmp)); in get_alternative_probe_event() 428 memset(&pev->point, 0, sizeof(pev->point)); in get_alternative_probe_event() 429 ret = find_alternative_probe_point(dinfo, tmp, &pev->point, pev->target, in get_alternative_probe_event() 432 memcpy(&pev->point, tmp, sizeof(*tmp)); in get_alternative_probe_event() 731 ret = post_process_probe_trace_point(&tevs[i].point, in post_process_offline_probe_trace_events() 757 tevs[i].point.address -= stext; in add_exec_to_probe_trace_events() 758 tevs[i].point.module = strdup(exec); in add_exec_to_probe_trace_events() 759 if (!tevs[i].point.module) { in add_exec_to_probe_trace_events() 790 ret = post_process_probe_trace_point(&tevs[i].point, in post_process_module_probe_trace_events() 794 tevs[i].point.module = in post_process_module_probe_trace_events() [all …]
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/kernel/linux/linux-5.10/Documentation/devicetree/bindings/thermal/ |
D | db8500-thermal.txt | 11 - tripN-temp : temperature of trip point N, should be in ascending order; 12 - tripN-type : type of trip point N, should be one of "active" "passive" "hot" 15 point N, this is required if trip point N is defined, set it 0 if none, 17 - tripN-cdev-nameM : name of the No. M cooling device of trip point N;
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/kernel/linux/linux-5.10/Documentation/x86/ |
D | booting-dt.rst | 6 There is one single 32bit entry point to the kernel at code32_start, 7 the decompressor (the real mode entry point goes to the same 32bit 8 entry point once it switched into protected mode). That entry point
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/kernel/linux/linux-5.10/arch/m68k/fpsp040/ |
D | slog2.S | 4 | The entry point slog10 computes the base-10 13 | OUTPUT: log_10(X) or log_2(X) returned in floating-point 34 | Notes: Default means round-to-nearest mode, no floating-point 49 | Notes: Default means round-to-nearest mode, no floating-point 63 | Notes: Default means round-to-nearest mode, no floating-point 78 | Notes: Default means round-to-nearest mode, no floating-point 117 |--entry point for Log10(X), X is denormalized 129 |--entry point for Log10(X), X is normalized 143 |--entry point for Log2(X), X is denormalized 156 |--entry point for Log2(X), X is normalized
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/kernel/linux/linux-5.10/drivers/net/wireless/ath/ath5k/ |
D | eeprom.c | 720 u8 pier, point, idx; in ath5k_eeprom_convert_pcal_info_5111() local 772 for (point = 0; point < pd->pd_points; point++) { in ath5k_eeprom_convert_pcal_info_5111() 775 pd->pd_pwr[point] = 2 * pcinfo->pwr[point]; in ath5k_eeprom_convert_pcal_info_5111() 778 pd->pd_step[point] = pcinfo->pcdac[point]; in ath5k_eeprom_convert_pcal_info_5111() 911 unsigned int pier, pdg, point; in ath5k_eeprom_convert_pcal_info_5112() local 957 for (point = 1; point < pd->pd_points; in ath5k_eeprom_convert_pcal_info_5112() 958 point++) { in ath5k_eeprom_convert_pcal_info_5112() 960 pd->pd_pwr[point] = in ath5k_eeprom_convert_pcal_info_5112() 961 pcinfo->pwr_x0[point]; in ath5k_eeprom_convert_pcal_info_5112() 964 pd->pd_step[point] = in ath5k_eeprom_convert_pcal_info_5112() [all …]
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/kernel/linux/linux-5.10/drivers/gpu/drm/nouveau/dispnv50/ |
D | cursc37a.c | 44 NVVAL(NVC37A, SET_CURSOR_HOT_SPOT_POINT_OUT, X, asyw->point.x) | in cursc37a_point() 45 NVVAL(NVC37A, SET_CURSOR_HOT_SPOT_POINT_OUT, Y, asyw->point.y)); in cursc37a_point() 52 .point = cursc37a_point,
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D | wimmc37b.c | 56 NVVAL(NVC37B, SET_POINT_OUT, X, asyw->point.x) | in wimmc37b_point() 57 NVVAL(NVC37B, SET_POINT_OUT, Y, asyw->point.y)); in wimmc37b_point() 63 .point = wimmc37b_point,
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/kernel/linux/linux-5.10/drivers/ntb/ |
D | Kconfig | 6 The PCI-E Non-transparent bridge hardware is a point-to-point PCI-E bus 9 ntb Linux driver uses this point-to-point communication as a method to
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/kernel/linux/linux-5.10/tools/bpf/bpftool/Documentation/ |
D | bpftool-perf.rst | 32 followed by bpf program id, attachment information, and attachment point. 33 The attachment point for raw_tracepoint/tracepoint is the trace probe name. 34 The attachment point for k[ret]probe is either symbol name and offset, 36 The attachment point for u[ret]probe is the file name and the file offset.
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/kernel/linux/linux-5.10/Documentation/arm/nwfpe/ |
D | netwinder-fpe.rst | 5 The following describes the current state of the NetWinder's floating point 8 In the following nomenclature is used to describe the floating point 41 for each floating point register into the memory location given in the 51 FLT{cond}<S,D,E>{P,M,Z} Fn, Rd Convert integer to floating point 52 FIX{cond}{P,M,Z} Rd, Fn Convert floating point to integer 53 WFS{cond} Rd Write floating point status register 54 RFS{cond} Rd Read floating point status register 55 WFC{cond} Rd Write floating point control register 56 RFC{cond} Rd Read floating point control register 143 hardware, but are handled by the floating point support code. They should [all …]
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/kernel/linux/linux-5.10/arch/xtensa/lib/ |
D | strnlen_user.S | 101 # NOTE that in several places below, we point to the byte just after 105 addi a4, a4, 3 # point to zero byte 107 addi a4, a4, 1 # point just beyond zero byte 111 addi a4, a4, 1+1 # point just beyond zero byte 115 addi a4, a4, 2+1 # point just beyond zero byte 131 addi a4, a4, 3+1 # point just beyond zero byte
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/kernel/linux/linux-5.10/Documentation/userspace-api/media/mediactl/ |
D | media-controller-model.rst | 30 - A **data link** is a point-to-point oriented connection between two 34 - An **interface link** is a point-to-point bidirectional control
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/kernel/linux/linux-5.10/drivers/gpu/drm/ |
D | drm_syncobj.c | 208 u64 point; member 254 if (!fence || dma_fence_chain_find_seqno(&fence, wait->point)) { in drm_syncobj_fence_add_wait() 288 uint64_t point) in drm_syncobj_add_point() argument 299 if (prev && prev->seqno >= point) in drm_syncobj_add_point() 301 dma_fence_chain_init(chain, prev, fence, point); in drm_syncobj_add_point() 379 u32 handle, u64 point, u64 flags, in drm_syncobj_find_fence() argument 393 ret = dma_fence_chain_find_seqno(fence, point); in drm_syncobj_find_fence() 415 wait.point = point; in drm_syncobj_find_fence() 929 if (!fence || dma_fence_chain_find_seqno(&fence, wait->point)) { in syncobj_wait_syncobj_func() 982 entries[i].point = points[i]; in drm_syncobj_array_wait_timeout() [all …]
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/kernel/linux/linux-5.10/Documentation/driver-api/thermal/ |
D | sysfs-api.rst | 27 inputs from thermal zone attributes (the current temperature and trip point 57 Bit string: If 'n'th bit is set, then trip point 'n' is writeable. 84 get the type of certain trip point. 86 get the temperature above which the certain trip point 264 point of a thermal zone device. 273 indicates which trip point in this thermal zone the cooling device 276 the Maximum cooling state for this trip point. 280 the Minimum cooling state can be used for this trip point. 293 trip point of a thermal zone device. This function is usually called in 301 indicates which trip point in this thermal zone the cooling device [all …]
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/kernel/linux/linux-5.10/drivers/thermal/intel/ |
D | Kconfig | 42 thermal zone. There are two trip points. One of the trip point can 44 notification methods.The other trip is a critical trip point, which 54 hot & critical. The critical trip point default value is set by 68 the alert trip point interrupts and notifies the thermal framework with 69 the trip point and temperature details of the zone.
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/kernel/linux/linux-5.10/Documentation/filesystems/spufs/ |
D | spu_create.rst | 28 point to a non-existing directory in the mount point of the SPU file 65 point. 72 EINVAL pathname is not a directory in the spufs mount point. 110 pathname must point to a location beneath the mount point of spufs. By
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