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TARGET_KL46Z/core_cmInstr.h@140:97feb9bacc10, 2017-04-12 (annotated)

Committer:: <>
Date:: Wed Apr 12 16:07:08 2017 +0100
Revision:: 140:97feb9bacc10
Parent:: 110:165afa46840b

Release 140 of the mbed library

Ports for Upcoming Targets

3841: Add nRf52840 target https://github.com/ARMmbed/mbed-os/pull/3841

3992: Introducing UBLOX_C030 platform. https://github.com/ARMmbed/mbed-os/pull/3992

Fixes and Changes

3951: [NUCLEO_F303ZE] Correct ARDUINO pin https://github.com/ARMmbed/mbed-os/pull/3951

4021: Fixing a macro to detect when RTOS was in use for the NRF52840_DK https://github.com/ARMmbed/mbed-os/pull/4021

3979: KW24D: Add missing SPI defines and Arduino connector definitions https://github.com/ARMmbed/mbed-os/pull/3979

3990: UBLOX_C027: construct a ticker-based wait, rather than calling wait_ms(), in the https://github.com/ARMmbed/mbed-os/pull/3990

4003: Fixed OBOE in async serial tx for NRF52 target, fixes #4002 https://github.com/ARMmbed/mbed-os/pull/4003

4012: STM32: Correct I2C master error handling https://github.com/ARMmbed/mbed-os/pull/4012

4020: NUCLEO_L011K4 remove unsupported tool chain files https://github.com/ARMmbed/mbed-os/pull/4020

4065: K66F: Move bss section to m_data_2 Section https://github.com/ARMmbed/mbed-os/pull/4065

4014: Issue 3763: Reduce heap allocation in the GCC linker file https://github.com/ARMmbed/mbed-os/pull/4014

4030: [STM32L0] reduce IAR heap and stack size for small targets https://github.com/ARMmbed/mbed-os/pull/4030

4109: NUCLEO_L476RG : minor serial pin update https://github.com/ARMmbed/mbed-os/pull/4109

3982: Ticker - kl25z bugfix for handling events in the past https://github.com/ARMmbed/mbed-os/pull/3982

Who changed what in which revision?

User	Revision	Line number	New contents of line
bogdanm	73:1efda918f0ba	1	/************************************************************************//
bogdanm	73:1efda918f0ba	2	* @file core_cmInstr.h
bogdanm	73:1efda918f0ba	3	* @brief CMSIS Cortex-M Core Instruction Access Header File
Kojto	110:165afa46840b	4	* @version V4.10
Kojto	110:165afa46840b	5	* @date 18. March 2015
bogdanm	73:1efda918f0ba	6	*
bogdanm	73:1efda918f0ba	7	* @note
bogdanm	73:1efda918f0ba	8	*
bogdanm	73:1efda918f0ba	9	******************************************************************************/
Kojto	110:165afa46840b	10	/* Copyright (c) 2009 - 2014 ARM LIMITED
bogdanm	73:1efda918f0ba	11
bogdanm	73:1efda918f0ba	12	All rights reserved.
bogdanm	73:1efda918f0ba	13	Redistribution and use in source and binary forms, with or without
bogdanm	73:1efda918f0ba	14	modification, are permitted provided that the following conditions are met:
bogdanm	73:1efda918f0ba	15	- Redistributions of source code must retain the above copyright
bogdanm	73:1efda918f0ba	16	notice, this list of conditions and the following disclaimer.
bogdanm	73:1efda918f0ba	17	- Redistributions in binary form must reproduce the above copyright
bogdanm	73:1efda918f0ba	18	notice, this list of conditions and the following disclaimer in the
bogdanm	73:1efda918f0ba	19	documentation and/or other materials provided with the distribution.
bogdanm	73:1efda918f0ba	20	- Neither the name of ARM nor the names of its contributors may be used
bogdanm	73:1efda918f0ba	21	to endorse or promote products derived from this software without
bogdanm	73:1efda918f0ba	22	specific prior written permission.
bogdanm	73:1efda918f0ba	23	*
bogdanm	73:1efda918f0ba	24	THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
bogdanm	73:1efda918f0ba	25	AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
bogdanm	73:1efda918f0ba	26	IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
bogdanm	73:1efda918f0ba	27	ARE DISCLAIMED. IN NO EVENT SHALL COPYRIGHT HOLDERS AND CONTRIBUTORS BE
bogdanm	73:1efda918f0ba	28	LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
bogdanm	73:1efda918f0ba	29	CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
bogdanm	73:1efda918f0ba	30	SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
bogdanm	73:1efda918f0ba	31	INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
bogdanm	73:1efda918f0ba	32	CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
bogdanm	73:1efda918f0ba	33	ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
bogdanm	73:1efda918f0ba	34	POSSIBILITY OF SUCH DAMAGE.
bogdanm	73:1efda918f0ba	35	---------------------------------------------------------------------------*/
bogdanm	73:1efda918f0ba	36
bogdanm	73:1efda918f0ba	37
bogdanm	73:1efda918f0ba	38	#ifndef __CORE_CMINSTR_H
bogdanm	73:1efda918f0ba	39	#define __CORE_CMINSTR_H
bogdanm	73:1efda918f0ba	40
bogdanm	73:1efda918f0ba	41
bogdanm	73:1efda918f0ba	42	/* ########################## Core Instruction Access ######################### */
bogdanm	73:1efda918f0ba	43	/** \defgroup CMSIS_Core_InstructionInterface CMSIS Core Instruction Interface
bogdanm	73:1efda918f0ba	44	Access to dedicated instructions
bogdanm	73:1efda918f0ba	45	@{
bogdanm	73:1efda918f0ba	46	*/
bogdanm	73:1efda918f0ba	47
bogdanm	73:1efda918f0ba	48	#if defined ( __CC_ARM ) /------------------RealView Compiler -----------------/
bogdanm	73:1efda918f0ba	49	/* ARM armcc specific functions */
bogdanm	73:1efda918f0ba	50
bogdanm	73:1efda918f0ba	51	#if (__ARMCC_VERSION < 400677)
bogdanm	73:1efda918f0ba	52	#error "Please use ARM Compiler Toolchain V4.0.677 or later!"
bogdanm	73:1efda918f0ba	53	#endif
bogdanm	73:1efda918f0ba	54
bogdanm	73:1efda918f0ba	55
bogdanm	73:1efda918f0ba	56	/** \brief No Operation
bogdanm	73:1efda918f0ba	57
bogdanm	73:1efda918f0ba	58	No Operation does nothing. This instruction can be used for code alignment purposes.
bogdanm	73:1efda918f0ba	59	*/
bogdanm	73:1efda918f0ba	60	#define __NOP __nop
bogdanm	73:1efda918f0ba	61
bogdanm	73:1efda918f0ba	62
bogdanm	73:1efda918f0ba	63	/** \brief Wait For Interrupt
bogdanm	73:1efda918f0ba	64
bogdanm	73:1efda918f0ba	65	Wait For Interrupt is a hint instruction that suspends execution
bogdanm	73:1efda918f0ba	66	until one of a number of events occurs.
bogdanm	73:1efda918f0ba	67	*/
bogdanm	73:1efda918f0ba	68	#define __WFI __wfi
bogdanm	73:1efda918f0ba	69
bogdanm	73:1efda918f0ba	70
bogdanm	73:1efda918f0ba	71	/** \brief Wait For Event
bogdanm	73:1efda918f0ba	72
bogdanm	73:1efda918f0ba	73	Wait For Event is a hint instruction that permits the processor to enter
bogdanm	73:1efda918f0ba	74	a low-power state until one of a number of events occurs.
bogdanm	73:1efda918f0ba	75	*/
bogdanm	73:1efda918f0ba	76	#define __WFE __wfe
bogdanm	73:1efda918f0ba	77
bogdanm	73:1efda918f0ba	78
bogdanm	73:1efda918f0ba	79	/** \brief Send Event
bogdanm	73:1efda918f0ba	80
bogdanm	73:1efda918f0ba	81	Send Event is a hint instruction. It causes an event to be signaled to the CPU.
bogdanm	73:1efda918f0ba	82	*/
bogdanm	73:1efda918f0ba	83	#define __SEV __sev
bogdanm	73:1efda918f0ba	84
bogdanm	73:1efda918f0ba	85
bogdanm	73:1efda918f0ba	86	/** \brief Instruction Synchronization Barrier
bogdanm	73:1efda918f0ba	87
bogdanm	73:1efda918f0ba	88	Instruction Synchronization Barrier flushes the pipeline in the processor,
bogdanm	73:1efda918f0ba	89	so that all instructions following the ISB are fetched from cache or
bogdanm	73:1efda918f0ba	90	memory, after the instruction has been completed.
bogdanm	73:1efda918f0ba	91	*/
Kojto	110:165afa46840b	92	#define __ISB() do {\
Kojto	110:165afa46840b	93	__schedule_barrier();\
Kojto	110:165afa46840b	94	__isb(0xF);\
Kojto	110:165afa46840b	95	__schedule_barrier();\
Kojto	110:165afa46840b	96	} while (0)
bogdanm	73:1efda918f0ba	97
bogdanm	73:1efda918f0ba	98	/** \brief Data Synchronization Barrier
bogdanm	73:1efda918f0ba	99
bogdanm	73:1efda918f0ba	100	This function acts as a special kind of Data Memory Barrier.
bogdanm	73:1efda918f0ba	101	It completes when all explicit memory accesses before this instruction complete.
bogdanm	73:1efda918f0ba	102	*/
Kojto	110:165afa46840b	103	#define __DSB() do {\
Kojto	110:165afa46840b	104	__schedule_barrier();\
Kojto	110:165afa46840b	105	__dsb(0xF);\
Kojto	110:165afa46840b	106	__schedule_barrier();\
Kojto	110:165afa46840b	107	} while (0)
bogdanm	73:1efda918f0ba	108
bogdanm	73:1efda918f0ba	109	/** \brief Data Memory Barrier
bogdanm	73:1efda918f0ba	110
bogdanm	73:1efda918f0ba	111	This function ensures the apparent order of the explicit memory operations before
bogdanm	73:1efda918f0ba	112	and after the instruction, without ensuring their completion.
bogdanm	73:1efda918f0ba	113	*/
Kojto	110:165afa46840b	114	#define __DMB() do {\
Kojto	110:165afa46840b	115	__schedule_barrier();\
Kojto	110:165afa46840b	116	__dmb(0xF);\
Kojto	110:165afa46840b	117	__schedule_barrier();\
Kojto	110:165afa46840b	118	} while (0)
bogdanm	73:1efda918f0ba	119
bogdanm	73:1efda918f0ba	120	/** \brief Reverse byte order (32 bit)
bogdanm	73:1efda918f0ba	121
bogdanm	73:1efda918f0ba	122	This function reverses the byte order in integer value.
bogdanm	73:1efda918f0ba	123
bogdanm	73:1efda918f0ba	124	\param [in] value Value to reverse
bogdanm	73:1efda918f0ba	125	\return Reversed value
bogdanm	73:1efda918f0ba	126	*/
bogdanm	73:1efda918f0ba	127	#define __REV __rev
bogdanm	73:1efda918f0ba	128
bogdanm	73:1efda918f0ba	129
bogdanm	73:1efda918f0ba	130	/** \brief Reverse byte order (16 bit)
bogdanm	73:1efda918f0ba	131
bogdanm	73:1efda918f0ba	132	This function reverses the byte order in two unsigned short values.
bogdanm	73:1efda918f0ba	133
bogdanm	73:1efda918f0ba	134	\param [in] value Value to reverse
bogdanm	73:1efda918f0ba	135	\return Reversed value
bogdanm	73:1efda918f0ba	136	*/
bogdanm	73:1efda918f0ba	137	#ifndef __NO_EMBEDDED_ASM
bogdanm	73:1efda918f0ba	138	__attribute__((section(".rev16_text"))) __STATIC_INLINE __ASM uint32_t __REV16(uint32_t value)
bogdanm	73:1efda918f0ba	139	{
bogdanm	73:1efda918f0ba	140	rev16 r0, r0
bogdanm	73:1efda918f0ba	141	bx lr
bogdanm	73:1efda918f0ba	142	}
bogdanm	73:1efda918f0ba	143	#endif
bogdanm	73:1efda918f0ba	144
bogdanm	73:1efda918f0ba	145	/** \brief Reverse byte order in signed short value
bogdanm	73:1efda918f0ba	146
bogdanm	73:1efda918f0ba	147	This function reverses the byte order in a signed short value with sign extension to integer.
bogdanm	73:1efda918f0ba	148
bogdanm	73:1efda918f0ba	149	\param [in] value Value to reverse
bogdanm	73:1efda918f0ba	150	\return Reversed value
bogdanm	73:1efda918f0ba	151	*/
bogdanm	73:1efda918f0ba	152	#ifndef __NO_EMBEDDED_ASM
bogdanm	73:1efda918f0ba	153	__attribute__((section(".revsh_text"))) __STATIC_INLINE __ASM int32_t __REVSH(int32_t value)
bogdanm	73:1efda918f0ba	154	{
bogdanm	73:1efda918f0ba	155	revsh r0, r0
bogdanm	73:1efda918f0ba	156	bx lr
bogdanm	73:1efda918f0ba	157	}
bogdanm	73:1efda918f0ba	158	#endif
bogdanm	73:1efda918f0ba	159
bogdanm	73:1efda918f0ba	160
bogdanm	73:1efda918f0ba	161	/** \brief Rotate Right in unsigned value (32 bit)
bogdanm	73:1efda918f0ba	162
bogdanm	73:1efda918f0ba	163	This function Rotate Right (immediate) provides the value of the contents of a register rotated by a variable number of bits.
bogdanm	73:1efda918f0ba	164
bogdanm	73:1efda918f0ba	165	\param [in] value Value to rotate
bogdanm	73:1efda918f0ba	166	\param [in] value Number of Bits to rotate
bogdanm	73:1efda918f0ba	167	\return Rotated value
bogdanm	73:1efda918f0ba	168	*/
bogdanm	73:1efda918f0ba	169	#define __ROR __ror
bogdanm	73:1efda918f0ba	170
bogdanm	73:1efda918f0ba	171
bogdanm	73:1efda918f0ba	172	/** \brief Breakpoint
bogdanm	73:1efda918f0ba	173
bogdanm	73:1efda918f0ba	174	This function causes the processor to enter Debug state.
bogdanm	73:1efda918f0ba	175	Debug tools can use this to investigate system state when the instruction at a particular address is reached.
bogdanm	73:1efda918f0ba	176
bogdanm	73:1efda918f0ba	177	\param [in] value is ignored by the processor.
bogdanm	73:1efda918f0ba	178	If required, a debugger can use it to store additional information about the breakpoint.
bogdanm	73:1efda918f0ba	179	*/
bogdanm	73:1efda918f0ba	180	#define __BKPT(value) __breakpoint(value)
bogdanm	73:1efda918f0ba	181
bogdanm	73:1efda918f0ba	182
bogdanm	73:1efda918f0ba	183	/** \brief Reverse bit order of value
bogdanm	73:1efda918f0ba	184
bogdanm	73:1efda918f0ba	185	This function reverses the bit order of the given value.
bogdanm	73:1efda918f0ba	186
bogdanm	73:1efda918f0ba	187	\param [in] value Value to reverse
bogdanm	73:1efda918f0ba	188	\return Reversed value
bogdanm	73:1efda918f0ba	189	*/
Kojto	110:165afa46840b	190	#if (__CORTEX_M >= 0x03) \|\| (__CORTEX_SC >= 300)
Kojto	110:165afa46840b	191	#define __RBIT __rbit
Kojto	110:165afa46840b	192	#else
Kojto	110:165afa46840b	193	__attribute__((always_inline)) __STATIC_INLINE uint32_t __RBIT(uint32_t value)
Kojto	110:165afa46840b	194	{
Kojto	110:165afa46840b	195	uint32_t result;
Kojto	110:165afa46840b	196	int32_t s = 4 /sizeof(v)/ * 8 - 1; // extra shift needed at end
bogdanm	73:1efda918f0ba	197
Kojto	110:165afa46840b	198	result = value; // r will be reversed bits of v; first get LSB of v
Kojto	110:165afa46840b	199	for (value >>= 1; value; value >>= 1)
Kojto	110:165afa46840b	200	{
Kojto	110:165afa46840b	201	result <<= 1;
Kojto	110:165afa46840b	202	result \|= value & 1;
Kojto	110:165afa46840b	203	s--;
Kojto	110:165afa46840b	204	}
Kojto	110:165afa46840b	205	result <<= s; // shift when v's highest bits are zero
Kojto	110:165afa46840b	206	return(result);
Kojto	110:165afa46840b	207	}
Kojto	110:165afa46840b	208	#endif
Kojto	110:165afa46840b	209
Kojto	110:165afa46840b	210
Kojto	110:165afa46840b	211	/** \brief Count leading zeros
Kojto	110:165afa46840b	212
Kojto	110:165afa46840b	213	This function counts the number of leading zeros of a data value.
Kojto	110:165afa46840b	214
Kojto	110:165afa46840b	215	\param [in] value Value to count the leading zeros
Kojto	110:165afa46840b	216	\return number of leading zeros in value
Kojto	110:165afa46840b	217	*/
Kojto	110:165afa46840b	218	#define __CLZ __clz
Kojto	110:165afa46840b	219
Kojto	110:165afa46840b	220
Kojto	110:165afa46840b	221	#if (__CORTEX_M >= 0x03) \|\| (__CORTEX_SC >= 300)
bogdanm	73:1efda918f0ba	222
bogdanm	73:1efda918f0ba	223	/** \brief LDR Exclusive (8 bit)
bogdanm	73:1efda918f0ba	224
Kojto	110:165afa46840b	225	This function executes a exclusive LDR instruction for 8 bit value.
bogdanm	73:1efda918f0ba	226
bogdanm	73:1efda918f0ba	227	\param [in] ptr Pointer to data
bogdanm	73:1efda918f0ba	228	\return value of type uint8_t at (*ptr)
bogdanm	73:1efda918f0ba	229	*/
bogdanm	73:1efda918f0ba	230	#define __LDREXB(ptr) ((uint8_t ) __ldrex(ptr))
bogdanm	73:1efda918f0ba	231
bogdanm	73:1efda918f0ba	232
bogdanm	73:1efda918f0ba	233	/** \brief LDR Exclusive (16 bit)
bogdanm	73:1efda918f0ba	234
Kojto	110:165afa46840b	235	This function executes a exclusive LDR instruction for 16 bit values.
bogdanm	73:1efda918f0ba	236
bogdanm	73:1efda918f0ba	237	\param [in] ptr Pointer to data
bogdanm	73:1efda918f0ba	238	\return value of type uint16_t at (*ptr)
bogdanm	73:1efda918f0ba	239	*/
bogdanm	73:1efda918f0ba	240	#define __LDREXH(ptr) ((uint16_t) __ldrex(ptr))
bogdanm	73:1efda918f0ba	241
bogdanm	73:1efda918f0ba	242
bogdanm	73:1efda918f0ba	243	/** \brief LDR Exclusive (32 bit)
bogdanm	73:1efda918f0ba	244
Kojto	110:165afa46840b	245	This function executes a exclusive LDR instruction for 32 bit values.
bogdanm	73:1efda918f0ba	246
bogdanm	73:1efda918f0ba	247	\param [in] ptr Pointer to data
bogdanm	73:1efda918f0ba	248	\return value of type uint32_t at (*ptr)
bogdanm	73:1efda918f0ba	249	*/
bogdanm	73:1efda918f0ba	250	#define __LDREXW(ptr) ((uint32_t ) __ldrex(ptr))
bogdanm	73:1efda918f0ba	251
bogdanm	73:1efda918f0ba	252
bogdanm	73:1efda918f0ba	253	/** \brief STR Exclusive (8 bit)
bogdanm	73:1efda918f0ba	254
Kojto	110:165afa46840b	255	This function executes a exclusive STR instruction for 8 bit values.
bogdanm	73:1efda918f0ba	256
bogdanm	73:1efda918f0ba	257	\param [in] value Value to store
bogdanm	73:1efda918f0ba	258	\param [in] ptr Pointer to location
bogdanm	73:1efda918f0ba	259	\return 0 Function succeeded
bogdanm	73:1efda918f0ba	260	\return 1 Function failed
bogdanm	73:1efda918f0ba	261	*/
bogdanm	73:1efda918f0ba	262	#define __STREXB(value, ptr) __strex(value, ptr)
bogdanm	73:1efda918f0ba	263
bogdanm	73:1efda918f0ba	264
bogdanm	73:1efda918f0ba	265	/** \brief STR Exclusive (16 bit)
bogdanm	73:1efda918f0ba	266
Kojto	110:165afa46840b	267	This function executes a exclusive STR instruction for 16 bit values.
bogdanm	73:1efda918f0ba	268
bogdanm	73:1efda918f0ba	269	\param [in] value Value to store
bogdanm	73:1efda918f0ba	270	\param [in] ptr Pointer to location
bogdanm	73:1efda918f0ba	271	\return 0 Function succeeded
bogdanm	73:1efda918f0ba	272	\return 1 Function failed
bogdanm	73:1efda918f0ba	273	*/
bogdanm	73:1efda918f0ba	274	#define __STREXH(value, ptr) __strex(value, ptr)
bogdanm	73:1efda918f0ba	275
bogdanm	73:1efda918f0ba	276
bogdanm	73:1efda918f0ba	277	/** \brief STR Exclusive (32 bit)
bogdanm	73:1efda918f0ba	278
Kojto	110:165afa46840b	279	This function executes a exclusive STR instruction for 32 bit values.
bogdanm	73:1efda918f0ba	280
bogdanm	73:1efda918f0ba	281	\param [in] value Value to store
bogdanm	73:1efda918f0ba	282	\param [in] ptr Pointer to location
bogdanm	73:1efda918f0ba	283	\return 0 Function succeeded
bogdanm	73:1efda918f0ba	284	\return 1 Function failed
bogdanm	73:1efda918f0ba	285	*/
bogdanm	73:1efda918f0ba	286	#define __STREXW(value, ptr) __strex(value, ptr)
bogdanm	73:1efda918f0ba	287
bogdanm	73:1efda918f0ba	288
bogdanm	73:1efda918f0ba	289	/** \brief Remove the exclusive lock
bogdanm	73:1efda918f0ba	290
bogdanm	73:1efda918f0ba	291	This function removes the exclusive lock which is created by LDREX.
bogdanm	73:1efda918f0ba	292
bogdanm	73:1efda918f0ba	293	*/
bogdanm	73:1efda918f0ba	294	#define __CLREX __clrex
bogdanm	73:1efda918f0ba	295
bogdanm	73:1efda918f0ba	296
bogdanm	73:1efda918f0ba	297	/** \brief Signed Saturate
bogdanm	73:1efda918f0ba	298
bogdanm	73:1efda918f0ba	299	This function saturates a signed value.
bogdanm	73:1efda918f0ba	300
bogdanm	73:1efda918f0ba	301	\param [in] value Value to be saturated
bogdanm	73:1efda918f0ba	302	\param [in] sat Bit position to saturate to (1..32)
bogdanm	73:1efda918f0ba	303	\return Saturated value
bogdanm	73:1efda918f0ba	304	*/
bogdanm	73:1efda918f0ba	305	#define __SSAT __ssat
bogdanm	73:1efda918f0ba	306
bogdanm	73:1efda918f0ba	307
bogdanm	73:1efda918f0ba	308	/** \brief Unsigned Saturate
bogdanm	73:1efda918f0ba	309
bogdanm	73:1efda918f0ba	310	This function saturates an unsigned value.
bogdanm	73:1efda918f0ba	311
bogdanm	73:1efda918f0ba	312	\param [in] value Value to be saturated
bogdanm	73:1efda918f0ba	313	\param [in] sat Bit position to saturate to (0..31)
bogdanm	73:1efda918f0ba	314	\return Saturated value
bogdanm	73:1efda918f0ba	315	*/
bogdanm	73:1efda918f0ba	316	#define __USAT __usat
bogdanm	73:1efda918f0ba	317
bogdanm	73:1efda918f0ba	318
Kojto	110:165afa46840b	319	/** \brief Rotate Right with Extend (32 bit)
Kojto	110:165afa46840b	320
Kojto	110:165afa46840b	321	This function moves each bit of a bitstring right by one bit.
Kojto	110:165afa46840b	322	The carry input is shifted in at the left end of the bitstring.
bogdanm	73:1efda918f0ba	323
Kojto	110:165afa46840b	324	\param [in] value Value to rotate
Kojto	110:165afa46840b	325	\return Rotated value
Kojto	110:165afa46840b	326	*/
Kojto	110:165afa46840b	327	#ifndef __NO_EMBEDDED_ASM
Kojto	110:165afa46840b	328	__attribute__((section(".rrx_text"))) __STATIC_INLINE __ASM uint32_t __RRX(uint32_t value)
Kojto	110:165afa46840b	329	{
Kojto	110:165afa46840b	330	rrx r0, r0
Kojto	110:165afa46840b	331	bx lr
Kojto	110:165afa46840b	332	}
Kojto	110:165afa46840b	333	#endif
Kojto	110:165afa46840b	334
bogdanm	73:1efda918f0ba	335
Kojto	110:165afa46840b	336	/** \brief LDRT Unprivileged (8 bit)
Kojto	110:165afa46840b	337
Kojto	110:165afa46840b	338	This function executes a Unprivileged LDRT instruction for 8 bit value.
Kojto	110:165afa46840b	339
Kojto	110:165afa46840b	340	\param [in] ptr Pointer to data
Kojto	110:165afa46840b	341	\return value of type uint8_t at (*ptr)
bogdanm	73:1efda918f0ba	342	*/
Kojto	110:165afa46840b	343	#define __LDRBT(ptr) ((uint8_t ) __ldrt(ptr))
Kojto	110:165afa46840b	344
Kojto	110:165afa46840b	345
Kojto	110:165afa46840b	346	/** \brief LDRT Unprivileged (16 bit)
bogdanm	73:1efda918f0ba	347
Kojto	110:165afa46840b	348	This function executes a Unprivileged LDRT instruction for 16 bit values.
Kojto	110:165afa46840b	349
Kojto	110:165afa46840b	350	\param [in] ptr Pointer to data
Kojto	110:165afa46840b	351	\return value of type uint16_t at (*ptr)
Kojto	110:165afa46840b	352	*/
Kojto	110:165afa46840b	353	#define __LDRHT(ptr) ((uint16_t) __ldrt(ptr))
bogdanm	73:1efda918f0ba	354
bogdanm	73:1efda918f0ba	355
Kojto	110:165afa46840b	356	/** \brief LDRT Unprivileged (32 bit)
bogdanm	73:1efda918f0ba	357
Kojto	110:165afa46840b	358	This function executes a Unprivileged LDRT instruction for 32 bit values.
Kojto	110:165afa46840b	359
Kojto	110:165afa46840b	360	\param [in] ptr Pointer to data
Kojto	110:165afa46840b	361	\return value of type uint32_t at (*ptr)
Kojto	110:165afa46840b	362	*/
Kojto	110:165afa46840b	363	#define __LDRT(ptr) ((uint32_t ) __ldrt(ptr))
Kojto	110:165afa46840b	364
bogdanm	73:1efda918f0ba	365
Kojto	110:165afa46840b	366	/** \brief STRT Unprivileged (8 bit)
Kojto	110:165afa46840b	367
Kojto	110:165afa46840b	368	This function executes a Unprivileged STRT instruction for 8 bit values.
Kojto	110:165afa46840b	369
Kojto	110:165afa46840b	370	\param [in] value Value to store
Kojto	110:165afa46840b	371	\param [in] ptr Pointer to location
Kojto	110:165afa46840b	372	*/
Kojto	110:165afa46840b	373	#define __STRBT(value, ptr) __strt(value, ptr)
bogdanm	73:1efda918f0ba	374
bogdanm	73:1efda918f0ba	375
Kojto	110:165afa46840b	376	/** \brief STRT Unprivileged (16 bit)
Kojto	110:165afa46840b	377
Kojto	110:165afa46840b	378	This function executes a Unprivileged STRT instruction for 16 bit values.
Kojto	110:165afa46840b	379
Kojto	110:165afa46840b	380	\param [in] value Value to store
Kojto	110:165afa46840b	381	\param [in] ptr Pointer to location
Kojto	110:165afa46840b	382	*/
Kojto	110:165afa46840b	383	#define __STRHT(value, ptr) __strt(value, ptr)
Kojto	110:165afa46840b	384
bogdanm	73:1efda918f0ba	385
Kojto	110:165afa46840b	386	/** \brief STRT Unprivileged (32 bit)
Kojto	110:165afa46840b	387
Kojto	110:165afa46840b	388	This function executes a Unprivileged STRT instruction for 32 bit values.
Kojto	110:165afa46840b	389
Kojto	110:165afa46840b	390	\param [in] value Value to store
Kojto	110:165afa46840b	391	\param [in] ptr Pointer to location
Kojto	110:165afa46840b	392	*/
Kojto	110:165afa46840b	393	#define __STRT(value, ptr) __strt(value, ptr)
Kojto	110:165afa46840b	394
Kojto	110:165afa46840b	395	#endif /* (__CORTEX_M >= 0x03) \|\| (__CORTEX_SC >= 300) */
bogdanm	73:1efda918f0ba	396
bogdanm	73:1efda918f0ba	397
bogdanm	73:1efda918f0ba	398	#elif defined ( __GNUC__ ) /------------------ GNU Compiler ---------------------/
bogdanm	73:1efda918f0ba	399	/* GNU gcc specific functions */
bogdanm	73:1efda918f0ba	400
bogdanm	73:1efda918f0ba	401	/* Define macros for porting to both thumb1 and thumb2.
bogdanm	73:1efda918f0ba	402	* For thumb1, use low register (r0-r7), specified by constrant "l"
bogdanm	73:1efda918f0ba	403	* Otherwise, use general registers, specified by constrant "r" */
bogdanm	73:1efda918f0ba	404	#if defined (__thumb__) && !defined (__thumb2__)
bogdanm	73:1efda918f0ba	405	#define __CMSIS_GCC_OUT_REG(r) "=l" (r)
bogdanm	73:1efda918f0ba	406	#define __CMSIS_GCC_USE_REG(r) "l" (r)
bogdanm	73:1efda918f0ba	407	#else
bogdanm	73:1efda918f0ba	408	#define __CMSIS_GCC_OUT_REG(r) "=r" (r)
bogdanm	73:1efda918f0ba	409	#define __CMSIS_GCC_USE_REG(r) "r" (r)
bogdanm	73:1efda918f0ba	410	#endif
bogdanm	73:1efda918f0ba	411
bogdanm	73:1efda918f0ba	412	/** \brief No Operation
bogdanm	73:1efda918f0ba	413
bogdanm	73:1efda918f0ba	414	No Operation does nothing. This instruction can be used for code alignment purposes.
bogdanm	73:1efda918f0ba	415	*/
Kojto	110:165afa46840b	416	__attribute__((always_inline)) __STATIC_INLINE void __NOP(void)
bogdanm	73:1efda918f0ba	417	{
bogdanm	73:1efda918f0ba	418	__ASM volatile ("nop");
bogdanm	73:1efda918f0ba	419	}
bogdanm	73:1efda918f0ba	420
bogdanm	73:1efda918f0ba	421
bogdanm	73:1efda918f0ba	422	/** \brief Wait For Interrupt
bogdanm	73:1efda918f0ba	423
bogdanm	73:1efda918f0ba	424	Wait For Interrupt is a hint instruction that suspends execution
bogdanm	73:1efda918f0ba	425	until one of a number of events occurs.
bogdanm	73:1efda918f0ba	426	*/
Kojto	110:165afa46840b	427	__attribute__((always_inline)) __STATIC_INLINE void __WFI(void)
bogdanm	73:1efda918f0ba	428	{
bogdanm	73:1efda918f0ba	429	__ASM volatile ("wfi");
bogdanm	73:1efda918f0ba	430	}
bogdanm	73:1efda918f0ba	431
bogdanm	73:1efda918f0ba	432
bogdanm	73:1efda918f0ba	433	/** \brief Wait For Event
bogdanm	73:1efda918f0ba	434
bogdanm	73:1efda918f0ba	435	Wait For Event is a hint instruction that permits the processor to enter
bogdanm	73:1efda918f0ba	436	a low-power state until one of a number of events occurs.
bogdanm	73:1efda918f0ba	437	*/
Kojto	110:165afa46840b	438	__attribute__((always_inline)) __STATIC_INLINE void __WFE(void)
bogdanm	73:1efda918f0ba	439	{
bogdanm	73:1efda918f0ba	440	__ASM volatile ("wfe");
bogdanm	73:1efda918f0ba	441	}
bogdanm	73:1efda918f0ba	442
bogdanm	73:1efda918f0ba	443
bogdanm	73:1efda918f0ba	444	/** \brief Send Event
bogdanm	73:1efda918f0ba	445
bogdanm	73:1efda918f0ba	446	Send Event is a hint instruction. It causes an event to be signaled to the CPU.
bogdanm	73:1efda918f0ba	447	*/
Kojto	110:165afa46840b	448	__attribute__((always_inline)) __STATIC_INLINE void __SEV(void)
bogdanm	73:1efda918f0ba	449	{
bogdanm	73:1efda918f0ba	450	__ASM volatile ("sev");
bogdanm	73:1efda918f0ba	451	}
bogdanm	73:1efda918f0ba	452
bogdanm	73:1efda918f0ba	453
bogdanm	73:1efda918f0ba	454	/** \brief Instruction Synchronization Barrier
bogdanm	73:1efda918f0ba	455
bogdanm	73:1efda918f0ba	456	Instruction Synchronization Barrier flushes the pipeline in the processor,
bogdanm	73:1efda918f0ba	457	so that all instructions following the ISB are fetched from cache or
bogdanm	73:1efda918f0ba	458	memory, after the instruction has been completed.
bogdanm	73:1efda918f0ba	459	*/
Kojto	110:165afa46840b	460	__attribute__((always_inline)) __STATIC_INLINE void __ISB(void)
bogdanm	73:1efda918f0ba	461	{
Kojto	110:165afa46840b	462	__ASM volatile ("isb 0xF":::"memory");
bogdanm	73:1efda918f0ba	463	}
bogdanm	73:1efda918f0ba	464
bogdanm	73:1efda918f0ba	465
bogdanm	73:1efda918f0ba	466	/** \brief Data Synchronization Barrier
bogdanm	73:1efda918f0ba	467
bogdanm	73:1efda918f0ba	468	This function acts as a special kind of Data Memory Barrier.
bogdanm	73:1efda918f0ba	469	It completes when all explicit memory accesses before this instruction complete.
bogdanm	73:1efda918f0ba	470	*/
Kojto	110:165afa46840b	471	__attribute__((always_inline)) __STATIC_INLINE void __DSB(void)
bogdanm	73:1efda918f0ba	472	{
Kojto	110:165afa46840b	473	__ASM volatile ("dsb 0xF":::"memory");
bogdanm	73:1efda918f0ba	474	}
bogdanm	73:1efda918f0ba	475
bogdanm	73:1efda918f0ba	476
bogdanm	73:1efda918f0ba	477	/** \brief Data Memory Barrier
bogdanm	73:1efda918f0ba	478
bogdanm	73:1efda918f0ba	479	This function ensures the apparent order of the explicit memory operations before
bogdanm	73:1efda918f0ba	480	and after the instruction, without ensuring their completion.
bogdanm	73:1efda918f0ba	481	*/
Kojto	110:165afa46840b	482	__attribute__((always_inline)) __STATIC_INLINE void __DMB(void)
bogdanm	73:1efda918f0ba	483	{
Kojto	110:165afa46840b	484	__ASM volatile ("dmb 0xF":::"memory");
bogdanm	73:1efda918f0ba	485	}
bogdanm	73:1efda918f0ba	486
bogdanm	73:1efda918f0ba	487
bogdanm	73:1efda918f0ba	488	/** \brief Reverse byte order (32 bit)
bogdanm	73:1efda918f0ba	489
bogdanm	73:1efda918f0ba	490	This function reverses the byte order in integer value.
bogdanm	73:1efda918f0ba	491
bogdanm	73:1efda918f0ba	492	\param [in] value Value to reverse
bogdanm	73:1efda918f0ba	493	\return Reversed value
bogdanm	73:1efda918f0ba	494	*/
Kojto	110:165afa46840b	495	__attribute__((always_inline)) __STATIC_INLINE uint32_t __REV(uint32_t value)
bogdanm	73:1efda918f0ba	496	{
bogdanm	73:1efda918f0ba	497	#if (__GNUC__ > 4) \|\| (__GNUC__ == 4 && __GNUC_MINOR__ >= 5)
bogdanm	73:1efda918f0ba	498	return __builtin_bswap32(value);
bogdanm	73:1efda918f0ba	499	#else
bogdanm	73:1efda918f0ba	500	uint32_t result;
bogdanm	73:1efda918f0ba	501
bogdanm	73:1efda918f0ba	502	__ASM volatile ("rev %0, %1" : __CMSIS_GCC_OUT_REG (result) : __CMSIS_GCC_USE_REG (value) );
bogdanm	73:1efda918f0ba	503	return(result);
bogdanm	73:1efda918f0ba	504	#endif
bogdanm	73:1efda918f0ba	505	}
bogdanm	73:1efda918f0ba	506
bogdanm	73:1efda918f0ba	507
bogdanm	73:1efda918f0ba	508	/** \brief Reverse byte order (16 bit)
bogdanm	73:1efda918f0ba	509
bogdanm	73:1efda918f0ba	510	This function reverses the byte order in two unsigned short values.
bogdanm	73:1efda918f0ba	511
bogdanm	73:1efda918f0ba	512	\param [in] value Value to reverse
bogdanm	73:1efda918f0ba	513	\return Reversed value
bogdanm	73:1efda918f0ba	514	*/
Kojto	110:165afa46840b	515	__attribute__((always_inline)) __STATIC_INLINE uint32_t __REV16(uint32_t value)
bogdanm	73:1efda918f0ba	516	{
bogdanm	73:1efda918f0ba	517	uint32_t result;
bogdanm	73:1efda918f0ba	518
bogdanm	73:1efda918f0ba	519	__ASM volatile ("rev16 %0, %1" : __CMSIS_GCC_OUT_REG (result) : __CMSIS_GCC_USE_REG (value) );
bogdanm	73:1efda918f0ba	520	return(result);
bogdanm	73:1efda918f0ba	521	}
bogdanm	73:1efda918f0ba	522
bogdanm	73:1efda918f0ba	523
bogdanm	73:1efda918f0ba	524	/** \brief Reverse byte order in signed short value
bogdanm	73:1efda918f0ba	525
bogdanm	73:1efda918f0ba	526	This function reverses the byte order in a signed short value with sign extension to integer.
bogdanm	73:1efda918f0ba	527
bogdanm	73:1efda918f0ba	528	\param [in] value Value to reverse
bogdanm	73:1efda918f0ba	529	\return Reversed value
bogdanm	73:1efda918f0ba	530	*/
Kojto	110:165afa46840b	531	__attribute__((always_inline)) __STATIC_INLINE int32_t __REVSH(int32_t value)
bogdanm	73:1efda918f0ba	532	{
bogdanm	73:1efda918f0ba	533	#if (__GNUC__ > 4) \|\| (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)
bogdanm	73:1efda918f0ba	534	return (short)__builtin_bswap16(value);
bogdanm	73:1efda918f0ba	535	#else
bogdanm	73:1efda918f0ba	536	uint32_t result;
bogdanm	73:1efda918f0ba	537
bogdanm	73:1efda918f0ba	538	__ASM volatile ("revsh %0, %1" : __CMSIS_GCC_OUT_REG (result) : __CMSIS_GCC_USE_REG (value) );
bogdanm	73:1efda918f0ba	539	return(result);
bogdanm	73:1efda918f0ba	540	#endif
bogdanm	73:1efda918f0ba	541	}
bogdanm	73:1efda918f0ba	542
bogdanm	73:1efda918f0ba	543
bogdanm	73:1efda918f0ba	544	/** \brief Rotate Right in unsigned value (32 bit)
bogdanm	73:1efda918f0ba	545
bogdanm	73:1efda918f0ba	546	This function Rotate Right (immediate) provides the value of the contents of a register rotated by a variable number of bits.
bogdanm	73:1efda918f0ba	547
bogdanm	73:1efda918f0ba	548	\param [in] value Value to rotate
bogdanm	73:1efda918f0ba	549	\param [in] value Number of Bits to rotate
bogdanm	73:1efda918f0ba	550	\return Rotated value
bogdanm	73:1efda918f0ba	551	*/
Kojto	110:165afa46840b	552	__attribute__((always_inline)) __STATIC_INLINE uint32_t __ROR(uint32_t op1, uint32_t op2)
bogdanm	73:1efda918f0ba	553	{
Kojto	110:165afa46840b	554	return (op1 >> op2) \| (op1 << (32 - op2));
bogdanm	73:1efda918f0ba	555	}
bogdanm	73:1efda918f0ba	556
bogdanm	73:1efda918f0ba	557
bogdanm	73:1efda918f0ba	558	/** \brief Breakpoint
bogdanm	73:1efda918f0ba	559
bogdanm	73:1efda918f0ba	560	This function causes the processor to enter Debug state.
bogdanm	73:1efda918f0ba	561	Debug tools can use this to investigate system state when the instruction at a particular address is reached.
bogdanm	73:1efda918f0ba	562
bogdanm	73:1efda918f0ba	563	\param [in] value is ignored by the processor.
bogdanm	73:1efda918f0ba	564	If required, a debugger can use it to store additional information about the breakpoint.
bogdanm	73:1efda918f0ba	565	*/
bogdanm	73:1efda918f0ba	566	#define __BKPT(value) __ASM volatile ("bkpt "#value)
bogdanm	73:1efda918f0ba	567
bogdanm	73:1efda918f0ba	568
bogdanm	73:1efda918f0ba	569	/** \brief Reverse bit order of value
bogdanm	73:1efda918f0ba	570
bogdanm	73:1efda918f0ba	571	This function reverses the bit order of the given value.
bogdanm	73:1efda918f0ba	572
bogdanm	73:1efda918f0ba	573	\param [in] value Value to reverse
bogdanm	73:1efda918f0ba	574	\return Reversed value
bogdanm	73:1efda918f0ba	575	*/
Kojto	110:165afa46840b	576	__attribute__((always_inline)) __STATIC_INLINE uint32_t __RBIT(uint32_t value)
bogdanm	73:1efda918f0ba	577	{
bogdanm	73:1efda918f0ba	578	uint32_t result;
bogdanm	73:1efda918f0ba	579
Kojto	110:165afa46840b	580	#if (__CORTEX_M >= 0x03) \|\| (__CORTEX_SC >= 300)
bogdanm	73:1efda918f0ba	581	__ASM volatile ("rbit %0, %1" : "=r" (result) : "r" (value) );
Kojto	110:165afa46840b	582	#else
Kojto	110:165afa46840b	583	int32_t s = 4 /sizeof(v)/ * 8 - 1; // extra shift needed at end
Kojto	110:165afa46840b	584
Kojto	110:165afa46840b	585	result = value; // r will be reversed bits of v; first get LSB of v
Kojto	110:165afa46840b	586	for (value >>= 1; value; value >>= 1)
Kojto	110:165afa46840b	587	{
Kojto	110:165afa46840b	588	result <<= 1;
Kojto	110:165afa46840b	589	result \|= value & 1;
Kojto	110:165afa46840b	590	s--;
Kojto	110:165afa46840b	591	}
Kojto	110:165afa46840b	592	result <<= s; // shift when v's highest bits are zero
Kojto	110:165afa46840b	593	#endif
Kojto	110:165afa46840b	594	return(result);
bogdanm	73:1efda918f0ba	595	}
bogdanm	73:1efda918f0ba	596
bogdanm	73:1efda918f0ba	597
Kojto	110:165afa46840b	598	/** \brief Count leading zeros
Kojto	110:165afa46840b	599
Kojto	110:165afa46840b	600	This function counts the number of leading zeros of a data value.
Kojto	110:165afa46840b	601
Kojto	110:165afa46840b	602	\param [in] value Value to count the leading zeros
Kojto	110:165afa46840b	603	\return number of leading zeros in value
Kojto	110:165afa46840b	604	*/
Kojto	110:165afa46840b	605	#define __CLZ __builtin_clz
Kojto	110:165afa46840b	606
Kojto	110:165afa46840b	607
Kojto	110:165afa46840b	608	#if (__CORTEX_M >= 0x03) \|\| (__CORTEX_SC >= 300)
Kojto	110:165afa46840b	609
bogdanm	73:1efda918f0ba	610	/** \brief LDR Exclusive (8 bit)
bogdanm	73:1efda918f0ba	611
Kojto	110:165afa46840b	612	This function executes a exclusive LDR instruction for 8 bit value.
bogdanm	73:1efda918f0ba	613
bogdanm	73:1efda918f0ba	614	\param [in] ptr Pointer to data
bogdanm	73:1efda918f0ba	615	\return value of type uint8_t at (*ptr)
bogdanm	73:1efda918f0ba	616	*/
Kojto	110:165afa46840b	617	__attribute__((always_inline)) __STATIC_INLINE uint8_t __LDREXB(volatile uint8_t *addr)
bogdanm	73:1efda918f0ba	618	{
bogdanm	73:1efda918f0ba	619	uint32_t result;
bogdanm	73:1efda918f0ba	620
bogdanm	73:1efda918f0ba	621	#if (__GNUC__ > 4) \|\| (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)
bogdanm	73:1efda918f0ba	622	__ASM volatile ("ldrexb %0, %1" : "=r" (result) : "Q" (*addr) );
bogdanm	73:1efda918f0ba	623	#else
bogdanm	73:1efda918f0ba	624	/* Prior to GCC 4.8, "Q" will be expanded to [rx, #0] which is not
bogdanm	73:1efda918f0ba	625	accepted by assembler. So has to use following less efficient pattern.
bogdanm	73:1efda918f0ba	626	*/
bogdanm	73:1efda918f0ba	627	__ASM volatile ("ldrexb %0, [%1]" : "=r" (result) : "r" (addr) : "memory" );
bogdanm	73:1efda918f0ba	628	#endif
Kojto	110:165afa46840b	629	return ((uint8_t) result); /* Add explicit type cast here */
bogdanm	73:1efda918f0ba	630	}
bogdanm	73:1efda918f0ba	631
bogdanm	73:1efda918f0ba	632
bogdanm	73:1efda918f0ba	633	/** \brief LDR Exclusive (16 bit)
bogdanm	73:1efda918f0ba	634
Kojto	110:165afa46840b	635	This function executes a exclusive LDR instruction for 16 bit values.
bogdanm	73:1efda918f0ba	636
bogdanm	73:1efda918f0ba	637	\param [in] ptr Pointer to data
bogdanm	73:1efda918f0ba	638	\return value of type uint16_t at (*ptr)
bogdanm	73:1efda918f0ba	639	*/
Kojto	110:165afa46840b	640	__attribute__((always_inline)) __STATIC_INLINE uint16_t __LDREXH(volatile uint16_t *addr)
bogdanm	73:1efda918f0ba	641	{
bogdanm	73:1efda918f0ba	642	uint32_t result;
bogdanm	73:1efda918f0ba	643
bogdanm	73:1efda918f0ba	644	#if (__GNUC__ > 4) \|\| (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)
bogdanm	73:1efda918f0ba	645	__ASM volatile ("ldrexh %0, %1" : "=r" (result) : "Q" (*addr) );
bogdanm	73:1efda918f0ba	646	#else
bogdanm	73:1efda918f0ba	647	/* Prior to GCC 4.8, "Q" will be expanded to [rx, #0] which is not
bogdanm	73:1efda918f0ba	648	accepted by assembler. So has to use following less efficient pattern.
bogdanm	73:1efda918f0ba	649	*/
bogdanm	73:1efda918f0ba	650	__ASM volatile ("ldrexh %0, [%1]" : "=r" (result) : "r" (addr) : "memory" );
bogdanm	73:1efda918f0ba	651	#endif
Kojto	110:165afa46840b	652	return ((uint16_t) result); /* Add explicit type cast here */
bogdanm	73:1efda918f0ba	653	}
bogdanm	73:1efda918f0ba	654
bogdanm	73:1efda918f0ba	655
bogdanm	73:1efda918f0ba	656	/** \brief LDR Exclusive (32 bit)
bogdanm	73:1efda918f0ba	657
Kojto	110:165afa46840b	658	This function executes a exclusive LDR instruction for 32 bit values.
bogdanm	73:1efda918f0ba	659
bogdanm	73:1efda918f0ba	660	\param [in] ptr Pointer to data
bogdanm	73:1efda918f0ba	661	\return value of type uint32_t at (*ptr)
bogdanm	73:1efda918f0ba	662	*/
Kojto	110:165afa46840b	663	__attribute__((always_inline)) __STATIC_INLINE uint32_t __LDREXW(volatile uint32_t *addr)
bogdanm	73:1efda918f0ba	664	{
bogdanm	73:1efda918f0ba	665	uint32_t result;
bogdanm	73:1efda918f0ba	666
bogdanm	73:1efda918f0ba	667	__ASM volatile ("ldrex %0, %1" : "=r" (result) : "Q" (*addr) );
bogdanm	73:1efda918f0ba	668	return(result);
bogdanm	73:1efda918f0ba	669	}
bogdanm	73:1efda918f0ba	670
bogdanm	73:1efda918f0ba	671
bogdanm	73:1efda918f0ba	672	/** \brief STR Exclusive (8 bit)
bogdanm	73:1efda918f0ba	673
Kojto	110:165afa46840b	674	This function executes a exclusive STR instruction for 8 bit values.
bogdanm	73:1efda918f0ba	675
bogdanm	73:1efda918f0ba	676	\param [in] value Value to store
bogdanm	73:1efda918f0ba	677	\param [in] ptr Pointer to location
bogdanm	73:1efda918f0ba	678	\return 0 Function succeeded
bogdanm	73:1efda918f0ba	679	\return 1 Function failed
bogdanm	73:1efda918f0ba	680	*/
Kojto	110:165afa46840b	681	__attribute__((always_inline)) __STATIC_INLINE uint32_t __STREXB(uint8_t value, volatile uint8_t *addr)
bogdanm	73:1efda918f0ba	682	{
bogdanm	73:1efda918f0ba	683	uint32_t result;
bogdanm	73:1efda918f0ba	684
Kojto	110:165afa46840b	685	__ASM volatile ("strexb %0, %2, %1" : "=&r" (result), "=Q" (*addr) : "r" ((uint32_t)value) );
bogdanm	73:1efda918f0ba	686	return(result);
bogdanm	73:1efda918f0ba	687	}
bogdanm	73:1efda918f0ba	688
bogdanm	73:1efda918f0ba	689
bogdanm	73:1efda918f0ba	690	/** \brief STR Exclusive (16 bit)
bogdanm	73:1efda918f0ba	691
Kojto	110:165afa46840b	692	This function executes a exclusive STR instruction for 16 bit values.
bogdanm	73:1efda918f0ba	693
bogdanm	73:1efda918f0ba	694	\param [in] value Value to store
bogdanm	73:1efda918f0ba	695	\param [in] ptr Pointer to location
bogdanm	73:1efda918f0ba	696	\return 0 Function succeeded
bogdanm	73:1efda918f0ba	697	\return 1 Function failed
bogdanm	73:1efda918f0ba	698	*/
Kojto	110:165afa46840b	699	__attribute__((always_inline)) __STATIC_INLINE uint32_t __STREXH(uint16_t value, volatile uint16_t *addr)
bogdanm	73:1efda918f0ba	700	{
bogdanm	73:1efda918f0ba	701	uint32_t result;
bogdanm	73:1efda918f0ba	702
Kojto	110:165afa46840b	703	__ASM volatile ("strexh %0, %2, %1" : "=&r" (result), "=Q" (*addr) : "r" ((uint32_t)value) );
bogdanm	73:1efda918f0ba	704	return(result);
bogdanm	73:1efda918f0ba	705	}
bogdanm	73:1efda918f0ba	706
bogdanm	73:1efda918f0ba	707
bogdanm	73:1efda918f0ba	708	/** \brief STR Exclusive (32 bit)
bogdanm	73:1efda918f0ba	709
Kojto	110:165afa46840b	710	This function executes a exclusive STR instruction for 32 bit values.
bogdanm	73:1efda918f0ba	711
bogdanm	73:1efda918f0ba	712	\param [in] value Value to store
bogdanm	73:1efda918f0ba	713	\param [in] ptr Pointer to location
bogdanm	73:1efda918f0ba	714	\return 0 Function succeeded
bogdanm	73:1efda918f0ba	715	\return 1 Function failed
bogdanm	73:1efda918f0ba	716	*/
Kojto	110:165afa46840b	717	__attribute__((always_inline)) __STATIC_INLINE uint32_t __STREXW(uint32_t value, volatile uint32_t *addr)
bogdanm	73:1efda918f0ba	718	{
bogdanm	73:1efda918f0ba	719	uint32_t result;
bogdanm	73:1efda918f0ba	720
bogdanm	73:1efda918f0ba	721	__ASM volatile ("strex %0, %2, %1" : "=&r" (result), "=Q" (*addr) : "r" (value) );
bogdanm	73:1efda918f0ba	722	return(result);
bogdanm	73:1efda918f0ba	723	}
bogdanm	73:1efda918f0ba	724
bogdanm	73:1efda918f0ba	725
bogdanm	73:1efda918f0ba	726	/** \brief Remove the exclusive lock
bogdanm	73:1efda918f0ba	727
bogdanm	73:1efda918f0ba	728	This function removes the exclusive lock which is created by LDREX.
bogdanm	73:1efda918f0ba	729
bogdanm	73:1efda918f0ba	730	*/
Kojto	110:165afa46840b	731	__attribute__((always_inline)) __STATIC_INLINE void __CLREX(void)
bogdanm	73:1efda918f0ba	732	{
bogdanm	73:1efda918f0ba	733	__ASM volatile ("clrex" ::: "memory");
bogdanm	73:1efda918f0ba	734	}
bogdanm	73:1efda918f0ba	735
bogdanm	73:1efda918f0ba	736
bogdanm	73:1efda918f0ba	737	/** \brief Signed Saturate
bogdanm	73:1efda918f0ba	738
bogdanm	73:1efda918f0ba	739	This function saturates a signed value.
bogdanm	73:1efda918f0ba	740
bogdanm	73:1efda918f0ba	741	\param [in] value Value to be saturated
bogdanm	73:1efda918f0ba	742	\param [in] sat Bit position to saturate to (1..32)
bogdanm	73:1efda918f0ba	743	\return Saturated value
bogdanm	73:1efda918f0ba	744	*/
bogdanm	73:1efda918f0ba	745	#define __SSAT(ARG1,ARG2) \
bogdanm	73:1efda918f0ba	746	({ \
bogdanm	73:1efda918f0ba	747	uint32_t __RES, __ARG1 = (ARG1); \
bogdanm	73:1efda918f0ba	748	__ASM ("ssat %0, %1, %2" : "=r" (__RES) : "I" (ARG2), "r" (__ARG1) ); \
bogdanm	73:1efda918f0ba	749	__RES; \
bogdanm	73:1efda918f0ba	750	})
bogdanm	73:1efda918f0ba	751
bogdanm	73:1efda918f0ba	752
bogdanm	73:1efda918f0ba	753	/** \brief Unsigned Saturate
bogdanm	73:1efda918f0ba	754
bogdanm	73:1efda918f0ba	755	This function saturates an unsigned value.
bogdanm	73:1efda918f0ba	756
bogdanm	73:1efda918f0ba	757	\param [in] value Value to be saturated
bogdanm	73:1efda918f0ba	758	\param [in] sat Bit position to saturate to (0..31)
bogdanm	73:1efda918f0ba	759	\return Saturated value
bogdanm	73:1efda918f0ba	760	*/
bogdanm	73:1efda918f0ba	761	#define __USAT(ARG1,ARG2) \
bogdanm	73:1efda918f0ba	762	({ \
bogdanm	73:1efda918f0ba	763	uint32_t __RES, __ARG1 = (ARG1); \
bogdanm	73:1efda918f0ba	764	__ASM ("usat %0, %1, %2" : "=r" (__RES) : "I" (ARG2), "r" (__ARG1) ); \
bogdanm	73:1efda918f0ba	765	__RES; \
bogdanm	73:1efda918f0ba	766	})
bogdanm	73:1efda918f0ba	767
bogdanm	73:1efda918f0ba	768
Kojto	110:165afa46840b	769	/** \brief Rotate Right with Extend (32 bit)
bogdanm	73:1efda918f0ba	770
Kojto	110:165afa46840b	771	This function moves each bit of a bitstring right by one bit.
Kojto	110:165afa46840b	772	The carry input is shifted in at the left end of the bitstring.
bogdanm	73:1efda918f0ba	773
Kojto	110:165afa46840b	774	\param [in] value Value to rotate
Kojto	110:165afa46840b	775	\return Rotated value
bogdanm	73:1efda918f0ba	776	*/
Kojto	110:165afa46840b	777	__attribute__((always_inline)) __STATIC_INLINE uint32_t __RRX(uint32_t value)
bogdanm	73:1efda918f0ba	778	{
Kojto	110:165afa46840b	779	uint32_t result;
bogdanm	73:1efda918f0ba	780
Kojto	110:165afa46840b	781	__ASM volatile ("rrx %0, %1" : __CMSIS_GCC_OUT_REG (result) : __CMSIS_GCC_USE_REG (value) );
bogdanm	73:1efda918f0ba	782	return(result);
bogdanm	73:1efda918f0ba	783	}
bogdanm	73:1efda918f0ba	784
Kojto	110:165afa46840b	785
Kojto	110:165afa46840b	786	/** \brief LDRT Unprivileged (8 bit)
Kojto	110:165afa46840b	787
Kojto	110:165afa46840b	788	This function executes a Unprivileged LDRT instruction for 8 bit value.
Kojto	110:165afa46840b	789
Kojto	110:165afa46840b	790	\param [in] ptr Pointer to data
Kojto	110:165afa46840b	791	\return value of type uint8_t at (*ptr)
Kojto	110:165afa46840b	792	*/
Kojto	110:165afa46840b	793	__attribute__((always_inline)) __STATIC_INLINE uint8_t __LDRBT(volatile uint8_t *addr)
Kojto	110:165afa46840b	794	{
Kojto	110:165afa46840b	795	uint32_t result;
Kojto	110:165afa46840b	796
Kojto	110:165afa46840b	797	#if (__GNUC__ > 4) \|\| (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)
Kojto	110:165afa46840b	798	__ASM volatile ("ldrbt %0, %1" : "=r" (result) : "Q" (*addr) );
Kojto	110:165afa46840b	799	#else
Kojto	110:165afa46840b	800	/* Prior to GCC 4.8, "Q" will be expanded to [rx, #0] which is not
Kojto	110:165afa46840b	801	accepted by assembler. So has to use following less efficient pattern.
Kojto	110:165afa46840b	802	*/
Kojto	110:165afa46840b	803	__ASM volatile ("ldrbt %0, [%1]" : "=r" (result) : "r" (addr) : "memory" );
Kojto	110:165afa46840b	804	#endif
Kojto	110:165afa46840b	805	return ((uint8_t) result); /* Add explicit type cast here */
Kojto	110:165afa46840b	806	}
Kojto	110:165afa46840b	807
Kojto	110:165afa46840b	808
Kojto	110:165afa46840b	809	/** \brief LDRT Unprivileged (16 bit)
Kojto	110:165afa46840b	810
Kojto	110:165afa46840b	811	This function executes a Unprivileged LDRT instruction for 16 bit values.
Kojto	110:165afa46840b	812
Kojto	110:165afa46840b	813	\param [in] ptr Pointer to data
Kojto	110:165afa46840b	814	\return value of type uint16_t at (*ptr)
Kojto	110:165afa46840b	815	*/
Kojto	110:165afa46840b	816	__attribute__((always_inline)) __STATIC_INLINE uint16_t __LDRHT(volatile uint16_t *addr)
Kojto	110:165afa46840b	817	{
Kojto	110:165afa46840b	818	uint32_t result;
Kojto	110:165afa46840b	819
Kojto	110:165afa46840b	820	#if (__GNUC__ > 4) \|\| (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)
Kojto	110:165afa46840b	821	__ASM volatile ("ldrht %0, %1" : "=r" (result) : "Q" (*addr) );
Kojto	110:165afa46840b	822	#else
Kojto	110:165afa46840b	823	/* Prior to GCC 4.8, "Q" will be expanded to [rx, #0] which is not
Kojto	110:165afa46840b	824	accepted by assembler. So has to use following less efficient pattern.
Kojto	110:165afa46840b	825	*/
Kojto	110:165afa46840b	826	__ASM volatile ("ldrht %0, [%1]" : "=r" (result) : "r" (addr) : "memory" );
Kojto	110:165afa46840b	827	#endif
Kojto	110:165afa46840b	828	return ((uint16_t) result); /* Add explicit type cast here */
Kojto	110:165afa46840b	829	}
bogdanm	73:1efda918f0ba	830
bogdanm	73:1efda918f0ba	831
Kojto	110:165afa46840b	832	/** \brief LDRT Unprivileged (32 bit)
Kojto	110:165afa46840b	833
Kojto	110:165afa46840b	834	This function executes a Unprivileged LDRT instruction for 32 bit values.
Kojto	110:165afa46840b	835
Kojto	110:165afa46840b	836	\param [in] ptr Pointer to data
Kojto	110:165afa46840b	837	\return value of type uint32_t at (*ptr)
Kojto	110:165afa46840b	838	*/
Kojto	110:165afa46840b	839	__attribute__((always_inline)) __STATIC_INLINE uint32_t __LDRT(volatile uint32_t *addr)
Kojto	110:165afa46840b	840	{
Kojto	110:165afa46840b	841	uint32_t result;
Kojto	110:165afa46840b	842
Kojto	110:165afa46840b	843	__ASM volatile ("ldrt %0, %1" : "=r" (result) : "Q" (*addr) );
Kojto	110:165afa46840b	844	return(result);
Kojto	110:165afa46840b	845	}
Kojto	110:165afa46840b	846
Kojto	110:165afa46840b	847
Kojto	110:165afa46840b	848	/** \brief STRT Unprivileged (8 bit)
Kojto	110:165afa46840b	849
Kojto	110:165afa46840b	850	This function executes a Unprivileged STRT instruction for 8 bit values.
Kojto	110:165afa46840b	851
Kojto	110:165afa46840b	852	\param [in] value Value to store
Kojto	110:165afa46840b	853	\param [in] ptr Pointer to location
Kojto	110:165afa46840b	854	*/
Kojto	110:165afa46840b	855	__attribute__((always_inline)) __STATIC_INLINE void __STRBT(uint8_t value, volatile uint8_t *addr)
Kojto	110:165afa46840b	856	{
Kojto	110:165afa46840b	857	__ASM volatile ("strbt %1, %0" : "=Q" (*addr) : "r" ((uint32_t)value) );
Kojto	110:165afa46840b	858	}
Kojto	110:165afa46840b	859
Kojto	110:165afa46840b	860
Kojto	110:165afa46840b	861	/** \brief STRT Unprivileged (16 bit)
Kojto	110:165afa46840b	862
Kojto	110:165afa46840b	863	This function executes a Unprivileged STRT instruction for 16 bit values.
Kojto	110:165afa46840b	864
Kojto	110:165afa46840b	865	\param [in] value Value to store
Kojto	110:165afa46840b	866	\param [in] ptr Pointer to location
Kojto	110:165afa46840b	867	*/
Kojto	110:165afa46840b	868	__attribute__((always_inline)) __STATIC_INLINE void __STRHT(uint16_t value, volatile uint16_t *addr)
Kojto	110:165afa46840b	869	{
Kojto	110:165afa46840b	870	__ASM volatile ("strht %1, %0" : "=Q" (*addr) : "r" ((uint32_t)value) );
Kojto	110:165afa46840b	871	}
Kojto	110:165afa46840b	872
Kojto	110:165afa46840b	873
Kojto	110:165afa46840b	874	/** \brief STRT Unprivileged (32 bit)
Kojto	110:165afa46840b	875
Kojto	110:165afa46840b	876	This function executes a Unprivileged STRT instruction for 32 bit values.
Kojto	110:165afa46840b	877
Kojto	110:165afa46840b	878	\param [in] value Value to store
Kojto	110:165afa46840b	879	\param [in] ptr Pointer to location
Kojto	110:165afa46840b	880	*/
Kojto	110:165afa46840b	881	__attribute__((always_inline)) __STATIC_INLINE void __STRT(uint32_t value, volatile uint32_t *addr)
Kojto	110:165afa46840b	882	{
Kojto	110:165afa46840b	883	__ASM volatile ("strt %1, %0" : "=Q" (*addr) : "r" (value) );
Kojto	110:165afa46840b	884	}
Kojto	110:165afa46840b	885
Kojto	110:165afa46840b	886	#endif /* (__CORTEX_M >= 0x03) \|\| (__CORTEX_SC >= 300) */
Kojto	110:165afa46840b	887
Kojto	110:165afa46840b	888
Kojto	110:165afa46840b	889	#elif defined ( __ICCARM__ ) /------------------ ICC Compiler -------------------/
Kojto	110:165afa46840b	890	/* IAR iccarm specific functions */
Kojto	110:165afa46840b	891	#include <cmsis_iar.h>
Kojto	110:165afa46840b	892
Kojto	110:165afa46840b	893
Kojto	110:165afa46840b	894	#elif defined ( __TMS470__ ) /---------------- TI CCS Compiler ------------------/
Kojto	110:165afa46840b	895	/* TI CCS specific functions */
Kojto	110:165afa46840b	896	#include <cmsis_ccs.h>
bogdanm	73:1efda918f0ba	897
bogdanm	73:1efda918f0ba	898
bogdanm	73:1efda918f0ba	899	#elif defined ( __TASKING__ ) /------------------ TASKING Compiler --------------/
bogdanm	73:1efda918f0ba	900	/* TASKING carm specific functions */
bogdanm	73:1efda918f0ba	901	/*
bogdanm	73:1efda918f0ba	902	* The CMSIS functions have been implemented as intrinsics in the compiler.
bogdanm	73:1efda918f0ba	903	* Please use "carm -?i" to get an up to date list of all intrinsics,
bogdanm	73:1efda918f0ba	904	* Including the CMSIS ones.
bogdanm	73:1efda918f0ba	905	*/
bogdanm	73:1efda918f0ba	906
Kojto	110:165afa46840b	907
Kojto	110:165afa46840b	908	#elif defined ( __CSMC__ ) /------------------ COSMIC Compiler -------------------/
Kojto	110:165afa46840b	909	/* Cosmic specific functions */
Kojto	110:165afa46840b	910	#include <cmsis_csm.h>
Kojto	110:165afa46840b	911
bogdanm	73:1efda918f0ba	912	#endif
bogdanm	73:1efda918f0ba	913
bogdanm	73:1efda918f0ba	914	/@}/ /* end of group CMSIS_Core_InstructionInterface */
bogdanm	73:1efda918f0ba	915
bogdanm	73:1efda918f0ba	916	#endif /* __CORE_CMINSTR_H */