/* * Copyright (c) 2019 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #ifndef ZEPHYR_INCLUDE_TIME_UNITS_H_ #define ZEPHYR_INCLUDE_TIME_UNITS_H_ #ifdef __cplusplus extern "C" { #endif /** @brief System-wide macro to denote "forever" in milliseconds * * Usage of this macro is limited to APIs that want to expose a timeout value * that can optionally be unlimited, or "forever". * This macro can not be fed into kernel functions or macros directly. Use * @ref SYS_TIMEOUT_MS instead. */ #define SYS_FOREVER_MS (-1) /** @brief System-wide macro to convert milliseconds to kernel timeouts */ #define SYS_TIMEOUT_MS(ms) ((ms) == SYS_FOREVER_MS ? K_FOREVER : K_MSEC(ms)) /* Exhaustively enumerated, highly optimized time unit conversion API */ #if defined(CONFIG_TIMER_READS_ITS_FREQUENCY_AT_RUNTIME) __syscall int sys_clock_hw_cycles_per_sec_runtime_get(void); static inline int z_impl_sys_clock_hw_cycles_per_sec_runtime_get(void) { extern int z_clock_hw_cycles_per_sec; return z_clock_hw_cycles_per_sec; } #endif /* CONFIG_TIMER_READS_ITS_FREQUENCY_AT_RUNTIME */ #if defined(__cplusplus) && __cplusplus >= 201402L #if defined(CONFIG_TIMER_READS_ITS_FREQUENCY_AT_RUNTIME) #define TIME_CONSTEXPR #else #define TIME_CONSTEXPR constexpr #endif #else #define TIME_CONSTEXPR #endif static TIME_CONSTEXPR inline int sys_clock_hw_cycles_per_sec(void) { #if defined(CONFIG_TIMER_READS_ITS_FREQUENCY_AT_RUNTIME) return sys_clock_hw_cycles_per_sec_runtime_get(); #else return CONFIG_SYS_CLOCK_HW_CYCLES_PER_SEC; #endif } /* Time converter generator gadget. Selects from one of three * conversion algorithms: ones that take advantage when the * frequencies are an integer ratio (in either direction), or a full * precision conversion. Clever use of extra arguments causes all the * selection logic to be optimized out, and the generated code even * reduces to 32 bit only if a ratio conversion is available and the * result is 32 bits. * * This isn't intended to be used directly, instead being wrapped * appropriately in a user-facing API. The boolean arguments are: * * const_hz - The hz arguments are known to be compile-time * constants (because otherwise the modulus test would * have to be done at runtime) * result32 - The result will be truncated to 32 bits on use * round_up - Return the ceiling of the resulting fraction * round_off - Return the nearest value to the resulting fraction * (pass both round_up/off as false to get "round_down") */ static TIME_CONSTEXPR ALWAYS_INLINE uint64_t z_tmcvt(uint64_t t, uint32_t from_hz, uint32_t to_hz, bool const_hz, bool result32, bool round_up, bool round_off) { bool mul_ratio = const_hz && (to_hz > from_hz) && ((to_hz % from_hz) == 0U); bool div_ratio = const_hz && (from_hz > to_hz) && ((from_hz % to_hz) == 0U); if (from_hz == to_hz) { return result32 ? ((uint32_t)t) : t; } uint64_t off = 0; if (!mul_ratio) { uint32_t rdivisor = div_ratio ? (from_hz / to_hz) : from_hz; if (round_up) { off = rdivisor - 1U; } if (round_off) { off = rdivisor / 2U; } } /* Select (at build time!) between three different expressions for * the same mathematical relationship, each expressed with and * without truncation to 32 bits (I couldn't find a way to make * the compiler correctly guess at the 32 bit result otherwise). */ if (div_ratio) { t += off; if (result32 && (t < BIT64(32))) { return ((uint32_t)t) / (from_hz / to_hz); } else { return t / ((uint64_t)from_hz / to_hz); } } else if (mul_ratio) { if (result32) { return ((uint32_t)t) * (to_hz / from_hz); } else { return t * ((uint64_t)to_hz / from_hz); } } else { if (result32) { return (uint32_t)((t * to_hz + off) / from_hz); } else { return (t * to_hz + off) / from_hz; } } } /* The following code is programmatically generated using this perl * code, which enumerates all possible combinations of units, rounding * modes and precision. Do not edit directly. * * Note that nano/microsecond conversions are only defined with 64 bit * precision. These units conversions were not available in 32 bit * variants historically, and doing 32 bit math with units that small * has precision traps that we probably don't want to support in an * official API. * * #!/usr/bin/perl -w * use strict; * * my %human = ("ms" => "milliseconds", * "us" => "microseconds", * "ns" => "nanoseconds", * "cyc" => "hardware cycles", * "ticks" => "ticks"); * * sub big { return $_[0] eq "us" || $_[0] eq "ns"; } * sub prefix { return $_[0] eq "ms" || $_[0] eq "us" || $_[0] eq "ns"; } * * for my $from_unit ("ms", "us", "ns", "cyc", "ticks") { * for my $to_unit ("ms", "us", "ns", "cyc", "ticks") { * next if $from_unit eq $to_unit; * next if prefix($from_unit) && prefix($to_unit); * for my $round ("floor", "near", "ceil") { * for(my $big=0; $big <= 1; $big++) { * my $sz = $big ? 64 : 32; * my $sym = "k_${from_unit}_to_${to_unit}_$round$sz"; * my $type = "u${sz}_t"; * my $const_hz = ($from_unit eq "cyc" || $to_unit eq "cyc") * ? "Z_CCYC" : "true"; * my $ret32 = $big ? "false" : "true"; * my $rup = $round eq "ceil" ? "true" : "false"; * my $roff = $round eq "near" ? "true" : "false"; * * my $hfrom = $human{$from_unit}; * my $hto = $human{$to_unit}; * print "/", "** \@brief Convert $hfrom to $hto\n"; * print " *\n"; * print " * Converts time values in $hfrom to $hto.\n"; * print " * Computes result in $sz bit precision.\n"; * if ($round eq "ceil") { * print " * Rounds up to the next highest output unit.\n"; * } elsif ($round eq "near") { * print " * Rounds to the nearest output unit.\n"; * } else { * print " * Truncates to the next lowest output unit.\n"; * } * print " *\n"; * print " * \@return The converted time value\n"; * print " *", "/\n"; * * print "static TIME_CONSTEXPR inline $type $sym($type t)\n{\n\t"; * print "/", "* Generated. Do not edit. See above. *", "/\n\t"; * print "return z_tmcvt(t, Z_HZ_$from_unit, Z_HZ_$to_unit,"; * print " $const_hz, $ret32, $rup, $roff);\n"; * print "}\n\n"; * } * } * } * } */ /* Some more concise declarations to simplify the generator script and * save bytes below */ #define Z_HZ_ms 1000 #define Z_HZ_us 1000000 #define Z_HZ_ns 1000000000 #define Z_HZ_cyc sys_clock_hw_cycles_per_sec() #define Z_HZ_ticks CONFIG_SYS_CLOCK_TICKS_PER_SEC #define Z_CCYC (!IS_ENABLED(CONFIG_TIMER_READS_ITS_FREQUENCY_AT_RUNTIME)) /** @brief Convert milliseconds to hardware cycles * * Converts time values in milliseconds to hardware cycles. * Computes result in 32 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ms_to_cyc_floor32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ms, Z_HZ_cyc, Z_CCYC, true, false, false); } /** @brief Convert milliseconds to hardware cycles * * Converts time values in milliseconds to hardware cycles. * Computes result in 64 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ms_to_cyc_floor64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ms, Z_HZ_cyc, Z_CCYC, false, false, false); } /** @brief Convert milliseconds to hardware cycles * * Converts time values in milliseconds to hardware cycles. * Computes result in 32 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ms_to_cyc_near32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ms, Z_HZ_cyc, Z_CCYC, true, false, true); } /** @brief Convert milliseconds to hardware cycles * * Converts time values in milliseconds to hardware cycles. * Computes result in 64 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ms_to_cyc_near64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ms, Z_HZ_cyc, Z_CCYC, false, false, true); } /** @brief Convert milliseconds to hardware cycles * * Converts time values in milliseconds to hardware cycles. * Computes result in 32 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ms_to_cyc_ceil32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ms, Z_HZ_cyc, Z_CCYC, true, true, false); } /** @brief Convert milliseconds to hardware cycles * * Converts time values in milliseconds to hardware cycles. * Computes result in 64 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ms_to_cyc_ceil64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ms, Z_HZ_cyc, Z_CCYC, false, true, false); } /** @brief Convert milliseconds to ticks * * Converts time values in milliseconds to ticks. * Computes result in 32 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ms_to_ticks_floor32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ms, Z_HZ_ticks, true, true, false, false); } /** @brief Convert milliseconds to ticks * * Converts time values in milliseconds to ticks. * Computes result in 64 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ms_to_ticks_floor64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ms, Z_HZ_ticks, true, false, false, false); } /** @brief Convert milliseconds to ticks * * Converts time values in milliseconds to ticks. * Computes result in 32 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ms_to_ticks_near32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ms, Z_HZ_ticks, true, true, false, true); } /** @brief Convert milliseconds to ticks * * Converts time values in milliseconds to ticks. * Computes result in 64 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ms_to_ticks_near64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ms, Z_HZ_ticks, true, false, false, true); } /** @brief Convert milliseconds to ticks * * Converts time values in milliseconds to ticks. * Computes result in 32 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ms_to_ticks_ceil32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ms, Z_HZ_ticks, true, true, true, false); } /** @brief Convert milliseconds to ticks * * Converts time values in milliseconds to ticks. * Computes result in 64 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ms_to_ticks_ceil64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ms, Z_HZ_ticks, true, false, true, false); } /** @brief Convert microseconds to hardware cycles * * Converts time values in microseconds to hardware cycles. * Computes result in 32 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_us_to_cyc_floor32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_us, Z_HZ_cyc, Z_CCYC, true, false, false); } /** @brief Convert microseconds to hardware cycles * * Converts time values in microseconds to hardware cycles. * Computes result in 64 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_us_to_cyc_floor64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_us, Z_HZ_cyc, Z_CCYC, false, false, false); } /** @brief Convert microseconds to hardware cycles * * Converts time values in microseconds to hardware cycles. * Computes result in 32 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_us_to_cyc_near32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_us, Z_HZ_cyc, Z_CCYC, true, false, true); } /** @brief Convert microseconds to hardware cycles * * Converts time values in microseconds to hardware cycles. * Computes result in 64 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_us_to_cyc_near64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_us, Z_HZ_cyc, Z_CCYC, false, false, true); } /** @brief Convert microseconds to hardware cycles * * Converts time values in microseconds to hardware cycles. * Computes result in 32 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_us_to_cyc_ceil32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_us, Z_HZ_cyc, Z_CCYC, true, true, false); } /** @brief Convert microseconds to hardware cycles * * Converts time values in microseconds to hardware cycles. * Computes result in 64 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_us_to_cyc_ceil64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_us, Z_HZ_cyc, Z_CCYC, false, true, false); } /** @brief Convert microseconds to ticks * * Converts time values in microseconds to ticks. * Computes result in 32 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_us_to_ticks_floor32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_us, Z_HZ_ticks, true, true, false, false); } /** @brief Convert microseconds to ticks * * Converts time values in microseconds to ticks. * Computes result in 64 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_us_to_ticks_floor64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_us, Z_HZ_ticks, true, false, false, false); } /** @brief Convert microseconds to ticks * * Converts time values in microseconds to ticks. * Computes result in 32 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_us_to_ticks_near32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_us, Z_HZ_ticks, true, true, false, true); } /** @brief Convert microseconds to ticks * * Converts time values in microseconds to ticks. * Computes result in 64 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_us_to_ticks_near64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_us, Z_HZ_ticks, true, false, false, true); } /** @brief Convert microseconds to ticks * * Converts time values in microseconds to ticks. * Computes result in 32 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_us_to_ticks_ceil32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_us, Z_HZ_ticks, true, true, true, false); } /** @brief Convert microseconds to ticks * * Converts time values in microseconds to ticks. * Computes result in 64 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_us_to_ticks_ceil64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_us, Z_HZ_ticks, true, false, true, false); } /** @brief Convert nanoseconds to hardware cycles * * Converts time values in nanoseconds to hardware cycles. * Computes result in 32 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ns_to_cyc_floor32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ns, Z_HZ_cyc, Z_CCYC, true, false, false); } /** @brief Convert nanoseconds to hardware cycles * * Converts time values in nanoseconds to hardware cycles. * Computes result in 64 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ns_to_cyc_floor64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ns, Z_HZ_cyc, Z_CCYC, false, false, false); } /** @brief Convert nanoseconds to hardware cycles * * Converts time values in nanoseconds to hardware cycles. * Computes result in 32 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ns_to_cyc_near32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ns, Z_HZ_cyc, Z_CCYC, true, false, true); } /** @brief Convert nanoseconds to hardware cycles * * Converts time values in nanoseconds to hardware cycles. * Computes result in 64 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ns_to_cyc_near64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ns, Z_HZ_cyc, Z_CCYC, false, false, true); } /** @brief Convert nanoseconds to hardware cycles * * Converts time values in nanoseconds to hardware cycles. * Computes result in 32 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ns_to_cyc_ceil32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ns, Z_HZ_cyc, Z_CCYC, true, true, false); } /** @brief Convert nanoseconds to hardware cycles * * Converts time values in nanoseconds to hardware cycles. * Computes result in 64 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ns_to_cyc_ceil64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ns, Z_HZ_cyc, Z_CCYC, false, true, false); } /** @brief Convert nanoseconds to ticks * * Converts time values in nanoseconds to ticks. * Computes result in 32 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ns_to_ticks_floor32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ns, Z_HZ_ticks, true, true, false, false); } /** @brief Convert nanoseconds to ticks * * Converts time values in nanoseconds to ticks. * Computes result in 64 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ns_to_ticks_floor64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ns, Z_HZ_ticks, true, false, false, false); } /** @brief Convert nanoseconds to ticks * * Converts time values in nanoseconds to ticks. * Computes result in 32 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ns_to_ticks_near32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ns, Z_HZ_ticks, true, true, false, true); } /** @brief Convert nanoseconds to ticks * * Converts time values in nanoseconds to ticks. * Computes result in 64 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ns_to_ticks_near64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ns, Z_HZ_ticks, true, false, false, true); } /** @brief Convert nanoseconds to ticks * * Converts time values in nanoseconds to ticks. * Computes result in 32 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ns_to_ticks_ceil32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ns, Z_HZ_ticks, true, true, true, false); } /** @brief Convert nanoseconds to ticks * * Converts time values in nanoseconds to ticks. * Computes result in 64 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ns_to_ticks_ceil64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ns, Z_HZ_ticks, true, false, true, false); } /** @brief Convert hardware cycles to milliseconds * * Converts time values in hardware cycles to milliseconds. * Computes result in 32 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_cyc_to_ms_floor32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ms, Z_CCYC, true, false, false); } /** @brief Convert hardware cycles to milliseconds * * Converts time values in hardware cycles to milliseconds. * Computes result in 64 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_cyc_to_ms_floor64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ms, Z_CCYC, false, false, false); } /** @brief Convert hardware cycles to milliseconds * * Converts time values in hardware cycles to milliseconds. * Computes result in 32 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_cyc_to_ms_near32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ms, Z_CCYC, true, false, true); } /** @brief Convert hardware cycles to milliseconds * * Converts time values in hardware cycles to milliseconds. * Computes result in 64 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_cyc_to_ms_near64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ms, Z_CCYC, false, false, true); } /** @brief Convert hardware cycles to milliseconds * * Converts time values in hardware cycles to milliseconds. * Computes result in 32 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_cyc_to_ms_ceil32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ms, Z_CCYC, true, true, false); } /** @brief Convert hardware cycles to milliseconds * * Converts time values in hardware cycles to milliseconds. * Computes result in 64 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_cyc_to_ms_ceil64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ms, Z_CCYC, false, true, false); } /** @brief Convert hardware cycles to microseconds * * Converts time values in hardware cycles to microseconds. * Computes result in 32 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_cyc_to_us_floor32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_us, Z_CCYC, true, false, false); } /** @brief Convert hardware cycles to microseconds * * Converts time values in hardware cycles to microseconds. * Computes result in 64 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_cyc_to_us_floor64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_us, Z_CCYC, false, false, false); } /** @brief Convert hardware cycles to microseconds * * Converts time values in hardware cycles to microseconds. * Computes result in 32 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_cyc_to_us_near32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_us, Z_CCYC, true, false, true); } /** @brief Convert hardware cycles to microseconds * * Converts time values in hardware cycles to microseconds. * Computes result in 64 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_cyc_to_us_near64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_us, Z_CCYC, false, false, true); } /** @brief Convert hardware cycles to microseconds * * Converts time values in hardware cycles to microseconds. * Computes result in 32 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_cyc_to_us_ceil32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_us, Z_CCYC, true, true, false); } /** @brief Convert hardware cycles to microseconds * * Converts time values in hardware cycles to microseconds. * Computes result in 64 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_cyc_to_us_ceil64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_us, Z_CCYC, false, true, false); } /** @brief Convert hardware cycles to nanoseconds * * Converts time values in hardware cycles to nanoseconds. * Computes result in 32 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_cyc_to_ns_floor32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ns, Z_CCYC, true, false, false); } /** @brief Convert hardware cycles to nanoseconds * * Converts time values in hardware cycles to nanoseconds. * Computes result in 64 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_cyc_to_ns_floor64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ns, Z_CCYC, false, false, false); } /** @brief Convert hardware cycles to nanoseconds * * Converts time values in hardware cycles to nanoseconds. * Computes result in 32 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_cyc_to_ns_near32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ns, Z_CCYC, true, false, true); } /** @brief Convert hardware cycles to nanoseconds * * Converts time values in hardware cycles to nanoseconds. * Computes result in 64 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_cyc_to_ns_near64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ns, Z_CCYC, false, false, true); } /** @brief Convert hardware cycles to nanoseconds * * Converts time values in hardware cycles to nanoseconds. * Computes result in 32 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_cyc_to_ns_ceil32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ns, Z_CCYC, true, true, false); } /** @brief Convert hardware cycles to nanoseconds * * Converts time values in hardware cycles to nanoseconds. * Computes result in 64 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_cyc_to_ns_ceil64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ns, Z_CCYC, false, true, false); } /** @brief Convert hardware cycles to ticks * * Converts time values in hardware cycles to ticks. * Computes result in 32 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_cyc_to_ticks_floor32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ticks, Z_CCYC, true, false, false); } /** @brief Convert hardware cycles to ticks * * Converts time values in hardware cycles to ticks. * Computes result in 64 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_cyc_to_ticks_floor64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ticks, Z_CCYC, false, false, false); } /** @brief Convert hardware cycles to ticks * * Converts time values in hardware cycles to ticks. * Computes result in 32 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_cyc_to_ticks_near32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ticks, Z_CCYC, true, false, true); } /** @brief Convert hardware cycles to ticks * * Converts time values in hardware cycles to ticks. * Computes result in 64 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_cyc_to_ticks_near64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ticks, Z_CCYC, false, false, true); } /** @brief Convert hardware cycles to ticks * * Converts time values in hardware cycles to ticks. * Computes result in 32 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_cyc_to_ticks_ceil32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ticks, Z_CCYC, true, true, false); } /** @brief Convert hardware cycles to ticks * * Converts time values in hardware cycles to ticks. * Computes result in 64 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_cyc_to_ticks_ceil64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_cyc, Z_HZ_ticks, Z_CCYC, false, true, false); } /** @brief Convert ticks to milliseconds * * Converts time values in ticks to milliseconds. * Computes result in 32 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ticks_to_ms_floor32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_ms, true, true, false, false); } /** @brief Convert ticks to milliseconds * * Converts time values in ticks to milliseconds. * Computes result in 64 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ticks_to_ms_floor64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_ms, true, false, false, false); } /** @brief Convert ticks to milliseconds * * Converts time values in ticks to milliseconds. * Computes result in 32 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ticks_to_ms_near32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_ms, true, true, false, true); } /** @brief Convert ticks to milliseconds * * Converts time values in ticks to milliseconds. * Computes result in 64 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ticks_to_ms_near64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_ms, true, false, false, true); } /** @brief Convert ticks to milliseconds * * Converts time values in ticks to milliseconds. * Computes result in 32 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ticks_to_ms_ceil32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_ms, true, true, true, false); } /** @brief Convert ticks to milliseconds * * Converts time values in ticks to milliseconds. * Computes result in 64 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ticks_to_ms_ceil64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_ms, true, false, true, false); } /** @brief Convert ticks to microseconds * * Converts time values in ticks to microseconds. * Computes result in 32 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ticks_to_us_floor32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_us, true, true, false, false); } /** @brief Convert ticks to microseconds * * Converts time values in ticks to microseconds. * Computes result in 64 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ticks_to_us_floor64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_us, true, false, false, false); } /** @brief Convert ticks to microseconds * * Converts time values in ticks to microseconds. * Computes result in 32 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ticks_to_us_near32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_us, true, true, false, true); } /** @brief Convert ticks to microseconds * * Converts time values in ticks to microseconds. * Computes result in 64 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ticks_to_us_near64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_us, true, false, false, true); } /** @brief Convert ticks to microseconds * * Converts time values in ticks to microseconds. * Computes result in 32 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ticks_to_us_ceil32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_us, true, true, true, false); } /** @brief Convert ticks to microseconds * * Converts time values in ticks to microseconds. * Computes result in 64 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ticks_to_us_ceil64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_us, true, false, true, false); } /** @brief Convert ticks to nanoseconds * * Converts time values in ticks to nanoseconds. * Computes result in 32 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ticks_to_ns_floor32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_ns, true, true, false, false); } /** @brief Convert ticks to nanoseconds * * Converts time values in ticks to nanoseconds. * Computes result in 64 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ticks_to_ns_floor64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_ns, true, false, false, false); } /** @brief Convert ticks to nanoseconds * * Converts time values in ticks to nanoseconds. * Computes result in 32 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ticks_to_ns_near32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_ns, true, true, false, true); } /** @brief Convert ticks to nanoseconds * * Converts time values in ticks to nanoseconds. * Computes result in 64 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ticks_to_ns_near64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_ns, true, false, false, true); } /** @brief Convert ticks to nanoseconds * * Converts time values in ticks to nanoseconds. * Computes result in 32 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ticks_to_ns_ceil32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_ns, true, true, true, false); } /** @brief Convert ticks to nanoseconds * * Converts time values in ticks to nanoseconds. * Computes result in 64 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ticks_to_ns_ceil64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_ns, true, false, true, false); } /** @brief Convert ticks to hardware cycles * * Converts time values in ticks to hardware cycles. * Computes result in 32 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ticks_to_cyc_floor32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_cyc, Z_CCYC, true, false, false); } /** @brief Convert ticks to hardware cycles * * Converts time values in ticks to hardware cycles. * Computes result in 64 bit precision. * Truncates to the next lowest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ticks_to_cyc_floor64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_cyc, Z_CCYC, false, false, false); } /** @brief Convert ticks to hardware cycles * * Converts time values in ticks to hardware cycles. * Computes result in 32 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ticks_to_cyc_near32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_cyc, Z_CCYC, true, false, true); } /** @brief Convert ticks to hardware cycles * * Converts time values in ticks to hardware cycles. * Computes result in 64 bit precision. * Rounds to the nearest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ticks_to_cyc_near64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_cyc, Z_CCYC, false, false, true); } /** @brief Convert ticks to hardware cycles * * Converts time values in ticks to hardware cycles. * Computes result in 32 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint32_t k_ticks_to_cyc_ceil32(uint32_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_cyc, Z_CCYC, true, true, false); } /** @brief Convert ticks to hardware cycles * * Converts time values in ticks to hardware cycles. * Computes result in 64 bit precision. * Rounds up to the next highest output unit. * * @return The converted time value */ static TIME_CONSTEXPR inline uint64_t k_ticks_to_cyc_ceil64(uint64_t t) { /* Generated. Do not edit. See above. */ return z_tmcvt(t, Z_HZ_ticks, Z_HZ_cyc, Z_CCYC, false, true, false); } #if defined(CONFIG_TIMER_READS_ITS_FREQUENCY_AT_RUNTIME) #include #endif #undef TIME_CONSTEXPR #ifdef __cplusplus } /* extern "C" */ #endif #endif /* ZEPHYR_INCLUDE_TIME_UNITS_H_ */