用于EagleEye3.0 规则集漏报和误报测试的示例项目,项目收集于github和gitee
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//*****************************************************************************
//
// fpu.c - Routines for manipulating the floating-point unit in the Cortex-M
// processor.
//
// Copyright (c) 2011 Texas Instruments Incorporated. All rights reserved.
// Software License Agreement
//
// Texas Instruments (TI) is supplying this software for use solely and
// exclusively on TI's microcontroller products. The software is owned by
// TI and/or its suppliers, and is protected under applicable copyright
// laws. You may not combine this software with "viral" open-source
// software in order to form a larger program.
//
// THIS SOFTWARE IS PROVIDED "AS IS" AND WITH ALL FAULTS.
// NO WARRANTIES, WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING, BUT
// NOT LIMITED TO, IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE APPLY TO THIS SOFTWARE. TI SHALL NOT, UNDER ANY
// CIRCUMSTANCES, BE LIABLE FOR SPECIAL, INCIDENTAL, OR CONSEQUENTIAL
// DAMAGES, FOR ANY REASON WHATSOEVER.
//
// This is part of revision 8264 of the Stellaris Peripheral Driver Library.
//
//*****************************************************************************
//*****************************************************************************
//
//! \addtogroup fpu_api
//! @{
//
//*****************************************************************************
#include "inc/hw_nvic.h"
#include "inc/hw_types.h"
#include "fpu.h"
//*****************************************************************************
//
//! Enables the floating-point unit.
//!
//! This function enables the floating-point unit, allowing the floating-point
//! instructions to be executed. This function must be called prior to
//! performing any hardware floating-point operations; failure to do so results
//! in a NOCP usage fault.
//!
//! \return None.
//
//*****************************************************************************
void
FPUEnable(void)
{
//
// Enable the coprocessors used by the floating-point unit.
//
HWREG(NVIC_CPAC) = ((HWREG(NVIC_CPAC) &
~(NVIC_CPAC_CP10_M | NVIC_CPAC_CP11_M)) |
NVIC_CPAC_CP10_FULL | NVIC_CPAC_CP11_FULL);
}
//*****************************************************************************
//
//! Disables the floating-point unit.
//!
//! This function disables the floating-point unit, preventing floating-point
//! instructions from executing (generating a NOCP usage fault instead).
//!
//! \return None.
//
//*****************************************************************************
void
FPUDisable(void)
{
//
// Disable the coprocessors used by the floating-point unit.
//
HWREG(NVIC_CPAC) = ((HWREG(NVIC_CPAC) &
~(NVIC_CPAC_CP10_M | NVIC_CPAC_CP11_M)) |
NVIC_CPAC_CP10_DIS | NVIC_CPAC_CP11_DIS);
}
//*****************************************************************************
//
//! Enables the stacking of floating-point registers.
//!
//! This function enables the stacking of floating-point registers s0-s15 when
//! an interrupt is handled. When enabled, space is reserved on the stack for
//! the floating-point context and the floating-point state is saved into this
//! stack space. Upon return from the interrupt, the floating-point context is
//! restored.
//!
//! If the floating-point registers are not stacked, floating-point
//! instructions cannot be safely executed in an interrupt handler because the
//! values of s0-s15 are not likely to be preserved for the interrupted code.
//! On the other hand, stacking the floating-point registers increases the
//! stacking operation from 8 words to 26 words, also increasing the interrupt
//! response latency.
//!
//! \return None.
//
//*****************************************************************************
void
FPUStackingEnable(void)
{
//
// Enable automatic state preservation for the floating-point unit, and
// disable lazy state preservation (meaning that the floating-point state
// is always stacked when floating-point instructions are used).
//
HWREG(NVIC_FPCC) = (HWREG(NVIC_FPCC) & ~NVIC_FPCC_LSPEN) | NVIC_FPCC_ASPEN;
}
//*****************************************************************************
//
//! Enables the lazy stacking of floating-point registers.
//!
//! This function enables the lazy stacking of floating-point registers s0-s15
//! when an interrupt is handled. When lazy stacking is enabled, space is
//! reserved on the stack for the floating-point context, but the
//! floating-point state is not saved. If a floating-point instruction is
//! executed from within the interrupt context, the floating-point context is
//! first saved into the space reserved on the stack. On completion of the
//! interrupt handler, the floating-point context is only restored if it was
//! saved (as the result of executing a floating-point instruction).
//!
//! This method provides a compromise between fast interrupt response (because
//! the floating-point state is not saved on interrupt entry) and the ability
//! to use floating-point in interrupt handlers (because the floating-point
//! state is saved if floating-point instructions are used).
//!
//! \return None.
//
//*****************************************************************************
void
FPULazyStackingEnable(void)
{
//
// Enable automatic and lazy state preservation for the floating-point
// unit.
//
HWREG(NVIC_FPCC) |= NVIC_FPCC_ASPEN | NVIC_FPCC_LSPEN;
}
//*****************************************************************************
//
//! Disables the stacking of floating-point registers.
//!
//! This function disables the stacking of floating-point registers s0-s15 when
//! an interrupt is handled. When floating-point context stacking is disabled,
//! floating-point operations performed in an interrupt handler destroy the
//! floating-point context of the main thread of execution.
//!
//! \return None.
//
//*****************************************************************************
void
FPUStackingDisable(void)
{
//
// Disable automatic and lazy state preservation for the floating-point
// unit.
//
HWREG(NVIC_FPCC) &= ~(NVIC_FPCC_ASPEN | NVIC_FPCC_LSPEN);
}
//*****************************************************************************
//
//! Selects the format of half-precision floating-point values.
//!
//! \param ulMode is the format for half-precision floating-point value, which
//! is either \b FPU_HALF_IEEE or \b FPU_HALF_ALTERNATE.
//!
//! This function selects between the IEEE half-precision floating-point
//! representation and the Cortex-M processor alternative representation. The
//! alternative representation has a larger range but does not have a way to
//! encode infinity (positive or negative) or NaN (quiet or signaling). The
//! default setting is the IEEE format.
//!
//! \note Unless this function is called prior to executing any floating-point
//! instructions, the default mode is used.
//!
//! \return None.
//
//*****************************************************************************
void
FPUHalfPrecisionModeSet(unsigned long ulMode)
{
//
// Set the half-precision floating-point format.
//
HWREG(NVIC_FPDSC) = (HWREG(NVIC_FPDSC) & ~(NVIC_FPDSC_AHP)) | ulMode;
}
//*****************************************************************************
//
//! Selects the NaN mode.
//!
//! \param ulMode is the mode for NaN results; which is either
//! \b FPU_NAN_PROPAGATE or \b FPU_NAN_DEFAULT.
//!
//! This function selects the handling of NaN results during floating-point
//! computations. NaNs can either propagate (the default), or they can return
//! the default NaN.
//!
//! \note Unless this function is called prior to executing any floating-point
//! instructions, the default mode is used.
//!
//! \return None.
//
//*****************************************************************************
void
FPUNaNModeSet(unsigned long ulMode)
{
//
// Set the NaN mode.
//
HWREG(NVIC_FPDSC) = (HWREG(NVIC_FPDSC) & ~(NVIC_FPDSC_DN)) | ulMode;
}
//*****************************************************************************
//
//! Selects the flush-to-zero mode.
//!
//! \param ulMode is the flush-to-zero mode; which is either
//! \b FPU_FLUSH_TO_ZERO_DIS or \b FPU_FLUSH_TO_ZERO_EN.
//!
//! This function enables or disables the flush-to-zero mode of the
//! floating-point unit. When disabled (the default), the floating-point unit
//! is fully IEEE compliant. When enabled, values close to zero are treated as
//! zero, greatly improving the execution speed at the expense of some accuracy
//! (as well as IEEE compliance).
//!
//! \note Unless this function is called prior to executing any floating-point
//! instructions, the default mode is used.
//!
//! \return None.
//
//*****************************************************************************
void
FPUFlushToZeroModeSet(unsigned long ulMode)
{
//
// Set the flush-to-zero mode.
//
HWREG(NVIC_FPDSC) = (HWREG(NVIC_FPDSC) & ~(NVIC_FPDSC_FZ)) | ulMode;
}
//*****************************************************************************
//
//! Selects the rounding mode for floating-point results.
//!
//! \param ulMode is the rounding mode.
//!
//! This function selects the rounding mode for floating-point results. After
//! a floating-point operation, the result is rounded toward the specified
//! value. The default mode is \b FPU_ROUND_NEAREST.
//!
//! The following rounding modes are available (as specified by \e ulMode):
//!
//! - \b FPU_ROUND_NEAREST - round toward the nearest value
//! - \b FPU_ROUND_POS_INF - round toward positive infinity
//! - \b FPU_ROUND_NEG_INF - round toward negative infinity
//! - \b FPU_ROUND_ZERO - round toward zero
//!
//! \note Unless this function is called prior to executing any floating-point
//! instructions, the default mode is used.
//!
//! \return None.
//
//*****************************************************************************
void
FPURoundingModeSet(unsigned long ulMode)
{
//
// Set the rounding mode.
//
HWREG(NVIC_FPDSC) = (HWREG(NVIC_FPDSC) & ~(NVIC_FPDSC_RMODE_M)) | ulMode;
}
//*****************************************************************************
//
// Close the Doxygen group.
//! @}
//
//*****************************************************************************