lib/os/Kconfig.cbprintf - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 # Copyright (c) 2020 Nordic Semiconductor ASA
 # SPDX-License-Identifier: Apache-2.0

 choice CBPRINTF_IMPLEMENTATION
 	prompt "Capabilities of cbprintf implementation"
 	default CBPRINTF_COMPLETE

 config CBPRINTF_COMPLETE
 	bool "All selected features"
 	help
 	  Select this for an implementation that supports all potential
 	  conversions, with Kconfig options to control availability at build
 	  time.

 # 80: -53% / 982 B (80 / 00)
 config CBPRINTF_NANO
 	bool "Space-optimized but feature-limited"
 	# nano needs to count characters if it's the formatter for libc
 	select CBPRINTF_LIBC_SUBSTS if MINIMAL_LIBC
 	help
 	  If selected a completely different implementation of the core
 	  formatting capability is substituted.  This has a much smaller code
 	  footprint, but provides fewer capabilities.

 endchoice # CBPRINTF_IMPLEMENTATION

 choice CBPRINTF_INTEGRAL_CONV
 	prompt "Control range of convertible integer values"
 	default CBPRINTF_FULL_INTEGRAL

 # 01: 0% / 0 B (01 / 00)
 config CBPRINTF_FULL_INTEGRAL
 	bool "Convert the full range of integer values"
 	select PICOLIBC_IO_LONG_LONG if PICOLIBC
 	help
 	  Build cbprintf with buffers sized to support converting the full
 	  range of all integral and pointer values.

 	  Selecting this has no effect on code size, but will increase call
 	  stack size by a few words.

 # 00:
 config CBPRINTF_REDUCED_INTEGRAL
 	bool "Convert only integer values that fit in 32 bits"
 	help
 	  Build cbprintf with buffers sized to support converting integer
 	  values with no more than 32 bits.

 	  This will decrease stack space, but affects conversion of any type
 	  with more than 32 bits.  This includes not only intmax_t but any
 	  type that can be converted to an integral representation including
 	  size_t and pointers.

 	  With CBPRINTF_COMPLETE conversions that may result in value-specific
 	  truncation are not supported, and the generated text will be the
 	  specification (e.g. %jd).

 	  With CBPRINTF_NANO all conversions will be attempted but values that
 	  cannot fit will be silently truncated.

 endchoice

 # 02: 82% / 1530 B (02 / 00)
 config CBPRINTF_FP_SUPPORT
 	bool "Floating point formatting in cbprintf"
 	default y if FPU
 	depends on CBPRINTF_COMPLETE
 	select PICOLIBC_IO_FLOAT if PICOLIBC
 	help
 	  Build the cbprintf utility function with support for floating
 	  point format specifiers.  Selecting this increases stack size
 	  requirements slightly, but increases code size significantly.

 # 04: 13% / 456 B (07 / 03)
 config CBPRINTF_FP_A_SUPPORT
 	bool "Floating point %a conversions"
 	depends on CBPRINTF_FULL_INTEGRAL
 	select CBPRINTF_FP_SUPPORT
 	help
 	  The %a hexadecimal format for floating point value conversion was
 	  added in C99, but the output is not easily understood so it rarely
 	  appears in application code.

 	  Selecting this adds support for the conversion, but increases the
 	  overall code size related to FP support.

 # 40: -15% / -508 B (46 / 06)
 config CBPRINTF_FP_ALWAYS_A
 	bool "Select %a format for all floating point specifications"
 	select CBPRINTF_FP_A_SUPPORT
 	help
 	  The %a format for floats requires significantly less code than the
 	  standard decimal representations (%f, %e, %g).  Selecting this
 	  option implicitly uses %a (or %A) for all decimal floating
 	  conversions.  The precision of the original specification is
 	  ignored.

 	  Selecting this decreases code size when FP_SUPPORT is enabled.

 # 08: 3% / 60 B (08 / 00)
 config CBPRINTF_N_SPECIFIER
 	bool "Support %n specifications"
 	depends on CBPRINTF_COMPLETE
 	default y
 	help
 	  If selected %n can be used to determine the number of characters
 	  emitted.  If enabled there is a small increase in code size.

 # 180: 18% / 138 B (180 / 80) [NANO]
 config CBPRINTF_LIBC_SUBSTS
 	bool "Generate C-library compatible functions using cbprintf"
 	help
 	  If selected wrappers are generated for various C library functions
 	  using the cbprintf formatter underneath.  The wrappers use the C
 	  library function name with a cb suffix; e.g. printfcb() or
 	  vsnprintfcb().

 	  When used with CBPRINTF_NANO this increases the implementation code
 	  size by a small amount.

 module = CBPRINTF_PACKAGE
 module-str = cbprintf_package
 source "subsys/logging/Kconfig.template.log_config"

 config CBPRINTF_PACKAGE_LONGDOUBLE
 	bool "Support packaging of long doubles"
 	help
 	  Option impact required alignment for buffers used for packaging
 	  (CBPRINTF_PACKAGE_ALIGNMENT). On most platforms long doubles
 	  requires buffer to be 16 bytes aligned. Long doubles are rarely used
 	  so such alignment is an unnecessary waste. If option is disabled,
 	  then compilation fails if long double is used.

 config CBPRINTF_STATIC_PACKAGE_CHECK_ALIGNMENT
 	bool "Validate alignment of a static package buffer"
 	# To avoid self referential macro when printk is redirected to logging
 	depends on !LOG_PRINTK
 	help
 	  When enabled, CBPRINTF_STATIC_PACKAGE asserts when buffer is not
 	  properly aligned. If macro is widely used then assert may impact
 	  memory footprint.

 config CBPRINTF_PACKAGE_HEADER_STORE_CREATION_FLAGS
 	bool
 	help
 	  Enable this option to store the flags used to create the package
 	  into the package itself.

 config CBPRINTF_PACKAGE_SUPPORT_TAGGED_ARGUMENTS
 	bool
 	depends on !PICOLIBC
 	select CBPRINTF_PACKAGE_HEADER_STORE_CREATION_FLAGS
 	help
 	  Hidden option to support tagged arguments in cbvprint_package().
 	  If enabled and cbvprint_package() is called with the corresponding
 	  flag, the packaging function no longer looks at the format strings
 	  to determine the types of arguments, but instead, each argument is
 	  tagged with a type by preceding it with another argument as type
 	  (integer).
	# Copyright (c) 2020 Nordic Semiconductor ASA
	# SPDX-License-Identifier: Apache-2.0

	choice CBPRINTF_IMPLEMENTATION
	prompt "Capabilities of cbprintf implementation"
	default CBPRINTF_COMPLETE

	config CBPRINTF_COMPLETE
	bool "All selected features"
	help
	Select this for an implementation that supports all potential
	conversions, with Kconfig options to control availability at build
	time.

	# 80: -53% / 982 B (80 / 00)
	config CBPRINTF_NANO
	bool "Space-optimized but feature-limited"
	# nano needs to count characters if it's the formatter for libc
	select CBPRINTF_LIBC_SUBSTS if MINIMAL_LIBC
	help
	If selected a completely different implementation of the core
	formatting capability is substituted. This has a much smaller code
	footprint, but provides fewer capabilities.

	endchoice # CBPRINTF_IMPLEMENTATION

	choice CBPRINTF_INTEGRAL_CONV
	prompt "Control range of convertible integer values"
	default CBPRINTF_FULL_INTEGRAL

	# 01: 0% / 0 B (01 / 00)
	config CBPRINTF_FULL_INTEGRAL
	bool "Convert the full range of integer values"
	select PICOLIBC_IO_LONG_LONG if PICOLIBC
	help
	Build cbprintf with buffers sized to support converting the full
	range of all integral and pointer values.

	Selecting this has no effect on code size, but will increase call
	stack size by a few words.

	# 00:
	config CBPRINTF_REDUCED_INTEGRAL
	bool "Convert only integer values that fit in 32 bits"
	help
	Build cbprintf with buffers sized to support converting integer
	values with no more than 32 bits.

	This will decrease stack space, but affects conversion of any type
	with more than 32 bits. This includes not only intmax_t but any
	type that can be converted to an integral representation including
	size_t and pointers.

	With CBPRINTF_COMPLETE conversions that may result in value-specific
	truncation are not supported, and the generated text will be the
	specification (e.g. %jd).

	With CBPRINTF_NANO all conversions will be attempted but values that
	cannot fit will be silently truncated.

	endchoice

	# 02: 82% / 1530 B (02 / 00)
	config CBPRINTF_FP_SUPPORT
	bool "Floating point formatting in cbprintf"
	default y if FPU
	depends on CBPRINTF_COMPLETE
	select PICOLIBC_IO_FLOAT if PICOLIBC
	help
	Build the cbprintf utility function with support for floating
	point format specifiers. Selecting this increases stack size
	requirements slightly, but increases code size significantly.

	# 04: 13% / 456 B (07 / 03)
	config CBPRINTF_FP_A_SUPPORT
	bool "Floating point %a conversions"
	depends on CBPRINTF_FULL_INTEGRAL
	select CBPRINTF_FP_SUPPORT
	help
	The %a hexadecimal format for floating point value conversion was
	added in C99, but the output is not easily understood so it rarely
	appears in application code.

	Selecting this adds support for the conversion, but increases the
	overall code size related to FP support.

	# 40: -15% / -508 B (46 / 06)
	config CBPRINTF_FP_ALWAYS_A
	bool "Select %a format for all floating point specifications"
	select CBPRINTF_FP_A_SUPPORT
	help
	The %a format for floats requires significantly less code than the
	standard decimal representations (%f, %e, %g). Selecting this
	option implicitly uses %a (or %A) for all decimal floating
	conversions. The precision of the original specification is
	ignored.

	Selecting this decreases code size when FP_SUPPORT is enabled.

	# 08: 3% / 60 B (08 / 00)
	config CBPRINTF_N_SPECIFIER
	bool "Support %n specifications"
	depends on CBPRINTF_COMPLETE
	default y
	help
	If selected %n can be used to determine the number of characters
	emitted. If enabled there is a small increase in code size.

	# 180: 18% / 138 B (180 / 80) [NANO]
	config CBPRINTF_LIBC_SUBSTS
	bool "Generate C-library compatible functions using cbprintf"
	help
	If selected wrappers are generated for various C library functions
	using the cbprintf formatter underneath. The wrappers use the C
	library function name with a cb suffix; e.g. printfcb() or
	vsnprintfcb().

	When used with CBPRINTF_NANO this increases the implementation code
	size by a small amount.

	module = CBPRINTF_PACKAGE
	module-str = cbprintf_package
	source "subsys/logging/Kconfig.template.log_config"

	config CBPRINTF_PACKAGE_LONGDOUBLE
	bool "Support packaging of long doubles"
	help
	Option impact required alignment for buffers used for packaging
	(CBPRINTF_PACKAGE_ALIGNMENT). On most platforms long doubles
	requires buffer to be 16 bytes aligned. Long doubles are rarely used
	so such alignment is an unnecessary waste. If option is disabled,
	then compilation fails if long double is used.

	config CBPRINTF_STATIC_PACKAGE_CHECK_ALIGNMENT
	bool "Validate alignment of a static package buffer"
	# To avoid self referential macro when printk is redirected to logging
	depends on !LOG_PRINTK
	help
	When enabled, CBPRINTF_STATIC_PACKAGE asserts when buffer is not
	properly aligned. If macro is widely used then assert may impact
	memory footprint.

	config CBPRINTF_PACKAGE_HEADER_STORE_CREATION_FLAGS
	bool
	help
	Enable this option to store the flags used to create the package
	into the package itself.

	config CBPRINTF_PACKAGE_SUPPORT_TAGGED_ARGUMENTS
	bool
	depends on !PICOLIBC
	select CBPRINTF_PACKAGE_HEADER_STORE_CREATION_FLAGS
	help
	Hidden option to support tagged arguments in cbvprint_package().
	If enabled and cbvprint_package() is called with the corresponding
	flag, the packaging function no longer looks at the format strings
	to determine the types of arguments, but instead, each argument is
	tagged with a type by preceding it with another argument as type
	(integer).