182 lines
6.6 KiB
ReStructuredText
182 lines
6.6 KiB
ReStructuredText
.. _float_v2:
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Floating Point Services
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#######################
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The kernel allows threads to use floating point registers on board
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configurations that support these registers.
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.. note::
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Floating point services are currently available only for boards
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based on the ARM Cortex-M4 or the Intel x86 architectures. The
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services provided are architecture specific.
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The kernel does not support the use of floating point registers by ISRs.
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.. contents::
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:local:
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:depth: 2
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Concepts
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********
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The kernel can be configured to provide only the floating point services
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required by an application. Three modes of operation are supported,
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which are described below. In addition, the kernel's support for the SSE
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registers can be included or omitted, as desired.
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No FP registers mode
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====================
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This mode is used when the application has no threads that use floating point
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registers. It is the kernel's default floating point services mode.
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If a thread uses any floating point register,
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the kernel generates a fatal error condition and aborts the thread.
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Unshared FP registers mode
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==========================
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This mode is used when the application has only a single thread
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that uses floating point registers.
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The kernel initializes the floating point registers so they can be used
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by any thread. The floating point registers are left unchanged
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whenever a context switch occurs.
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.. note::
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Incorrect operation may result if two or more threads use
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floating point registers, as the kernel does not attempt to detect
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(or prevent) multiple threads from using these registers.
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Shared FP registers mode
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========================
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This mode is used when the application has two or more threads that use
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floating point registers. Depending upon the underlying CPU architecture,
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the kernel supports one or more of the following thread sub-classes:
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* non-user: A thread that cannot use any floating point registers
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* FPU user: A thread that can use the standard floating point registers
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* SSE user: A thread that can use both the standard floating point registers
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and SSE registers
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The kernel initializes the floating point registers so they can be used
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by any thread, then saves and restores these registers during
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context switches to ensure the computations performed by each FPU user
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or SSE user are not impacted by the computations performed by the other users.
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On the ARM Cortex-M4 architecture the kernel treats *all* threads
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as FPU users when shared FP registers mode is enabled. This means that the
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floating point registers are saved and restored during a context switch, even
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when the associated threads are not using them. Each thread must provide
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an extra 132 bytes of stack space where these register values can be saved.
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On the x86 architecture the kernel treats each thread as a non-user,
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FPU user or SSE user on a case-by-case basis. A "lazy save" algorithm is used
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during context switching which updates the floating point registers only when
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it is absolutely necessary. For example, the registers are *not* saved when
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switching from an FPU user to a non-user thread, and then back to the original
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FPU user. The following table indicates the amount of additional stack space a
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thread must provide so the registers can be saved properly.
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=========== =============== ==========================
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Thread type FP register use Extra stack space required
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=========== =============== ==========================
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cooperative any 0 bytes
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preemptive none 0 bytes
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preemptive FPU 108 bytes
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preemptive SSE 464 bytes
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=========== =============== ==========================
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The x86 kernel automatically detects that a given thread is using
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the floating point registers the first time the thread accesses them.
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The thread is tagged as an SSE user if the kernel has been configured
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to support the SSE registers, or as an FPU user if the SSE registers are
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not supported. If this would result in a thread that is an FPU user being
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tagged as an SSE user, or if the application wants to avoid the exception
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handling overhead involved in auto-tagging threads, it is possible to
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pretag a thread using one of the techniques listed below.
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* A statically-created x86 thread can be pretagged by passing the
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:c:macro:`K_FP_REGS` or :c:macro:`K_SSE_REGS` option to
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:c:macro:`K_THREAD_DEFINE`.
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* A dynamically-created x86 thread can be pretagged by passing the
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:c:macro:`K_FP_REGS` or :c:macro:`K_SSE_REGS` option to
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:cpp:func:`k_thread_create()`.
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* An already-created x86 thread can pretag itself once it has started
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by passing the :c:macro:`K_FP_REGS` or :c:macro:`K_SSE_REGS` option to
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:cpp:func:`k_float_enable()`.
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If an x86 thread uses the floating point registers infrequently it can call
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:cpp:func:`k_float_disable()` to remove its tagging as an FPU user or SSE user.
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This eliminates the need for the kernel to take steps to preserve
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the contents of the floating point registers during context switches
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when there is no need to do so.
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When the thread again needs to use the floating point registers it can re-tag
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itself as an FPU user or SSE user by calling :cpp:func:`k_float_enable()`.
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Implementation
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**************
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Performing Floating Point Arithmetic
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====================================
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No special coding is required for a thread to use floating point arithmetic
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if the kernel is properly configured.
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The following code shows how a routine can use floating point arithmetic
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to avoid overflow issues when computing the average of a series of integer
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values.
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.. code-block:: c
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int average(int *values, int num_values)
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{
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double sum;
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int i;
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sum = 0.0;
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for (i = 0; i < num_values; i++) {
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sum += *values;
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values++;
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}
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return (int)((sum / num_values) + 0.5);
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}
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Suggested Uses
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**************
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Use the kernel floating point services when an application needs to
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perform floating point operations.
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Configuration Options
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*********************
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To configure unshared FP registers mode, enable the :option:`CONFIG_FLOAT`
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configuration option and leave the :option:`CONFIG_FP_SHARING` configuration
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option disabled.
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To configure shared FP registers mode, enable both the :option:`CONFIG_FLOAT`
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configuration option and the :option:`CONFIG_FP_SHARING` configuration option.
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Also, ensure that any thread that uses the floating point registers has
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sufficient added stack space for saving floating point register values
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during context switches, as described above.
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Use the :option:`CONFIG_SSE` configuration option to enable support for
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SSEx instructions (x86 only).
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APIs
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****
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The following floating point APIs (x86 only) are provided by :file:`kernel.h`:
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* :cpp:func:`k_float_enable()`
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* :cpp:func:`k_float_disable()`
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