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2<HTML>
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4<HEAD>
5<TITLE>Berkeley SoftFloat Source Documentation</TITLE>
6</HEAD>
7
8<BODY>
9
10<H1>Berkeley SoftFloat Release 3e: Source Documentation</H1>
11
12<P>
13John R. Hauser<BR>
142018 January 20<BR>
15</P>
16
17
18<H2>Contents</H2>
19
20<BLOCKQUOTE>
21<TABLE BORDER=0 CELLSPACING=0 CELLPADDING=0>
22<COL WIDTH=25>
23<COL WIDTH=*>
24<TR><TD COLSPAN=2>1. Introduction</TD></TR>
25<TR><TD COLSPAN=2>2. Limitations</TD></TR>
26<TR><TD COLSPAN=2>3. Acknowledgments and License</TD></TR>
27<TR><TD COLSPAN=2>4. SoftFloat Package Directory Structure</TD></TR>
28<TR><TD COLSPAN=2>5. Issues for Porting SoftFloat to a New Target</TD></TR>
29<TR>
30 <TD></TD>
31 <TD>5.1. Standard Headers <CODE>&lt;stdbool.h&gt;</CODE> and
32 <CODE>&lt;stdint.h&gt;</CODE></TD>
33</TR>
34<TR><TD></TD><TD>5.2. Specializing Floating-Point Behavior</TD></TR>
35<TR><TD></TD><TD>5.3. Macros for Build Options</TD></TR>
36<TR><TD></TD><TD>5.4. Adapting a Template Target Directory</TD></TR>
37<TR>
38 <TD></TD><TD>5.5. Target-Specific Optimization of Primitive Functions</TD>
39</TR>
40<TR><TD COLSPAN=2>6. Testing SoftFloat</TD></TR>
41<TR>
42 <TD COLSPAN=2>7. Providing SoftFloat as a Common Library for Applications</TD>
43</TR>
44<TR><TD COLSPAN=2>8. Contact Information</TD></TR>
45</TABLE>
46</BLOCKQUOTE>
47
48
49<H2>1. Introduction</H2>
50
51<P>
52This document gives information needed for compiling and/or porting Berkeley
53SoftFloat, a library of C functions implementing binary floating-point
54conforming to the IEEE Standard for Floating-Point Arithmetic.
55For basic documentation about SoftFloat refer to
56<A HREF="SoftFloat.html"><NOBR><CODE>SoftFloat.html</CODE></NOBR></A>.
57</P>
58
59<P>
60The source code for SoftFloat is intended to be relatively machine-independent
61and should be compilable with any ISO-Standard C compiler that also supports
62<NOBR>64-bit</NOBR> integers.
63SoftFloat has been successfully compiled with the GNU C Compiler
64(<CODE>gcc</CODE>) for several platforms.
65</P>
66
67<P>
68<NOBR>Release 3</NOBR> of SoftFloat was a complete rewrite relative to
69<NOBR>Release 2</NOBR> or earlier.
70Changes to the interface of SoftFloat functions are documented in
71<A HREF="SoftFloat.html"><NOBR><CODE>SoftFloat.html</CODE></NOBR></A>.
72The current version of SoftFloat is <NOBR>Release 3e</NOBR>.
73</P>
74
75
76<H2>2. Limitations</H2>
77
78<P>
79SoftFloat assumes the computer has an addressable byte size of either 8 or
80<NOBR>16 bits</NOBR>.
81(Nearly all computers in use today have <NOBR>8-bit</NOBR> bytes.)
82</P>
83
84<P>
85SoftFloat is written in C and is designed to work with other C code.
86The C compiler used must conform at a minimum to the 1989 ANSI standard for the
87C language (same as the 1990 ISO standard) and must in addition support basic
88arithmetic on <NOBR>64-bit</NOBR> integers.
89Earlier releases of SoftFloat included implementations of <NOBR>32-bit</NOBR>
90single-precision and <NOBR>64-bit</NOBR> double-precision floating-point that
91did not require <NOBR>64-bit</NOBR> integers, but this option is not supported
92starting with <NOBR>Release 3</NOBR>.
93Since 1999, ISO standards for C have mandated compiler support for
94<NOBR>64-bit</NOBR> integers.
95A compiler conforming to the 1999 C Standard or later is recommended but not
96strictly required.
97</P>
98
99<P>
100<NOBR>C Standard</NOBR> header files <CODE>&lt;stdbool.h&gt;</CODE> and
101<CODE>&lt;stdint.h&gt;</CODE> are required for defining standard Boolean and
102integer types.
103If these headers are not supplied with the C compiler, minimal substitutes must
104be provided.
105SoftFloat&rsquo;s dependence on these headers is detailed later in
106<NOBR>section 5.1</NOBR>, <I>Standard Headers <CODE>&lt;stdbool.h&gt;</CODE>
107and <CODE>&lt;stdint.h&gt;</CODE></I>.
108</P>
109
110
111<H2>3. Acknowledgments and License</H2>
112
113<P>
114The SoftFloat package was written by me, <NOBR>John R.</NOBR> Hauser.
115<NOBR>Release 3</NOBR> of SoftFloat was a completely new implementation
116supplanting earlier releases.
117The project to create <NOBR>Release 3</NOBR> (now <NOBR>through 3e</NOBR>) was
118done in the employ of the University of California, Berkeley, within the
119Department of Electrical Engineering and Computer Sciences, first for the
120Parallel Computing Laboratory (Par Lab) and then for the ASPIRE Lab.
121The work was officially overseen by Prof. Krste Asanovic, with funding provided
122by these sources:
123<BLOCKQUOTE>
124<TABLE>
125<COL>
126<COL WIDTH=10>
127<COL>
128<TR>
129<TD VALIGN=TOP><NOBR>Par Lab:</NOBR></TD>
130<TD></TD>
131<TD>
132Microsoft (Award #024263), Intel (Award #024894), and U.C. Discovery
133(Award #DIG07-10227), with additional support from Par Lab affiliates Nokia,
134NVIDIA, Oracle, and Samsung.
135</TD>
136</TR>
137<TR>
138<TD VALIGN=TOP><NOBR>ASPIRE Lab:</NOBR></TD>
139<TD></TD>
140<TD>
141DARPA PERFECT program (Award #HR0011-12-2-0016), with additional support from
142ASPIRE industrial sponsor Intel and ASPIRE affiliates Google, Nokia, NVIDIA,
143Oracle, and Samsung.
144</TD>
145</TR>
146</TABLE>
147</BLOCKQUOTE>
148</P>
149
150<P>
151The following applies to the whole of SoftFloat <NOBR>Release 3e</NOBR> as well
152as to each source file individually.
153</P>
154
155<P>
156Copyright 2011, 2012, 2013, 2014, 2015, 2016, 2017, 2018 The Regents of the
157University of California.
158All rights reserved.
159</P>
160
161<P>
162Redistribution and use in source and binary forms, with or without
163modification, are permitted provided that the following conditions are met:
164<OL>
165
166<LI>
167<P>
168Redistributions of source code must retain the above copyright notice, this
169list of conditions, and the following disclaimer.
170</P>
171
172<LI>
173<P>
174Redistributions in binary form must reproduce the above copyright notice, this
175list of conditions, and the following disclaimer in the documentation and/or
176other materials provided with the distribution.
177</P>
178
179<LI>
180<P>
181Neither the name of the University nor the names of its contributors may be
182used to endorse or promote products derived from this software without specific
183prior written permission.
184</P>
185
186</OL>
187</P>
188
189<P>
190THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS &ldquo;AS IS&rdquo;,
191AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
192IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE
193DISCLAIMED.
194IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
195INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
196BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
197DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
198LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
199OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
200ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
201</P>
202
203
204<H2>4. SoftFloat Package Directory Structure</H2>
205
206<P>
207Because SoftFloat is targeted to multiple platforms, its source code is
208slightly scattered between target-specific and target-independent directories
209and files.
210The supplied directory structure is as follows:
211<BLOCKQUOTE>
212<PRE>
213doc
214source
215 include
216 8086
217 8086-SSE
218 ARM-VFPv2
219 ARM-VFPv2-defaultNaN
220build
221 template-FAST_INT64
222 template-not-FAST_INT64
223 Linux-386-GCC
224 Linux-386-SSE2-GCC
225 Linux-x86_64-GCC
226 Linux-ARM-VFPv2-GCC
227 Win32-MinGW
228 Win32-SSE2-MinGW
229 Win64-MinGW-w64
230</PRE>
231</BLOCKQUOTE>
232The majority of the SoftFloat sources are provided in the <CODE>source</CODE>
233directory.
234The <CODE>include</CODE> subdirectory contains several header files
235(unsurprisingly), while the other subdirectories of <CODE>source</CODE> contain
236source files that specialize the floating-point behavior to match particular
237processor families:
238<BLOCKQUOTE>
239<DL>
240<DT><CODE>8086</CODE></DT>
241<DD>
242Intel&rsquo;s older, 8087-derived floating-point, extended to all supported
243floating-point types
244</DD>
245<DT><CODE>8086-SSE</CODE></DT>
246<DD>
247Intel&rsquo;s x86 processors with Streaming SIMD Extensions (SSE) and later
248compatible extensions, having 8087 behavior for <NOBR>80-bit</NOBR>
249double-extended-precision (<CODE>extFloat80_t</CODE>) and SSE behavior for
250other floating-point types
251</DD>
252<DT><CODE>ARM-VFPv2</CODE></DT>
253<DD>
254ARM&rsquo;s VFPv2 or later floating-point, with NaN payload propagation
255</DD>
256<DT><CODE>ARM-VFPv2-defaultNaN</CODE></DT>
257<DD>
258ARM&rsquo;s VFPv2 or later floating-point, with the &ldquo;default NaN&rdquo;
259option
260</DD>
261</DL>
262</BLOCKQUOTE>
263If other specializations are attempted, these would be expected to be other
264subdirectories of <CODE>source</CODE> alongside the ones listed above.
265Specialization is covered later, in <NOBR>section 5.2</NOBR>, <I>Specializing
266Floating-Point Behavior</I>.
267</P>
268
269<P>
270The <CODE>build</CODE> directory is intended to contain a subdirectory for each
271target platform for which a build of the SoftFloat library may be created.
272For each build target, the target&rsquo;s subdirectory is where all derived
273object files and the completed SoftFloat library (typically
274<CODE>softfloat.a</CODE> or <CODE>libsoftfloat.a</CODE>) are created.
275The two <CODE>template</CODE> subdirectories are not actual build targets but
276contain sample files for creating new target directories.
277(The meaning of <CODE>FAST_INT64</CODE> will be explained later.)
278</P>
279
280<P>
281Ignoring the <CODE>template</CODE> directories, the supplied target directories
282are intended to follow a naming system of
283<NOBR><CODE>&lt;<I>execution-environment</I>&gt;-&lt;<I>compiler</I>&gt;</CODE></NOBR>.
284For the example targets,
285<NOBR><CODE>&lt;<I>execution-environment</I>&gt;</CODE></NOBR> is
286<NOBR><CODE>Linux-386</CODE></NOBR>, <NOBR><CODE>Linux-386-SSE2</CODE></NOBR>,
287<NOBR><CODE>Linux-x86_64</CODE></NOBR>,
288<NOBR><CODE>Linux-ARM-VFPv2</CODE></NOBR>, <CODE>Win32</CODE>,
289<NOBR><CODE>Win32-SSE2</CODE></NOBR>, or <CODE>Win64</CODE>, and
290<NOBR><CODE>&lt;<I>compiler</I>&gt;</CODE></NOBR> is <CODE>GCC</CODE>,
291<CODE>MinGW</CODE>, or <NOBR><CODE>MinGW-w64</CODE></NOBR>.
292</P>
293
294<P>
295All of the supplied target directories are merely examples that may or may not
296be correct for compiling on any particular system.
297Despite requests, there are currently no plans to include and maintain in the
298SoftFloat package the build files needed for a great many users&rsquo;
299compilation environments, which can span a huge range of operating systems,
300compilers, and other tools.
301</P>
302
303<P>
304As supplied, each target directory contains two files:
305<BLOCKQUOTE>
306<PRE>
307Makefile
308platform.h
309</PRE>
310</BLOCKQUOTE>
311The provided <CODE>Makefile</CODE> is written for GNU <CODE>make</CODE>.
312A build of SoftFloat for the specific target is begun by executing the
313<CODE>make</CODE> command with the target directory as the current directory.
314A completely different build tool can be used if an appropriate
315<CODE>Makefile</CODE> equivalent is created.
316</P>
317
318<P>
319The <CODE>platform.h</CODE> header file exists to provide a location for
320additional C declarations specific to the build target.
321Every C source file of SoftFloat contains a <CODE>#include</CODE> for
322<CODE>platform.h</CODE>.
323In many cases, the contents of <CODE>platform.h</CODE> can be as simple as one
324or two lines of code.
325At the other extreme, to get maximal performance from SoftFloat, it may be
326desirable to include in header <CODE>platform.h</CODE> (directly or via
327<CODE>#include</CODE>) declarations for numerous target-specific optimizations.
328Such possibilities are discussed in the next section, <I>Issues for Porting
329SoftFloat to a New Target</I>.
330If the target&rsquo;s compiler or library has bugs or other shortcomings,
331workarounds for these issues may also be possible with target-specific
332declarations in <CODE>platform.h</CODE>, avoiding the need to modify the main
333SoftFloat sources.
334</P>
335
336
337<H2>5. Issues for Porting SoftFloat to a New Target</H2>
338
339<H3>5.1. Standard Headers <CODE>&lt;stdbool.h&gt;</CODE> and <CODE>&lt;stdint.h&gt;</CODE></H3>
340
341<P>
342The SoftFloat sources make use of standard headers
343<CODE>&lt;stdbool.h&gt;</CODE> and <CODE>&lt;stdint.h&gt;</CODE>, which have
344been part of the ISO C Standard Library since 1999.
345With any recent compiler, these standard headers are likely to be supported,
346even if the compiler does not claim complete conformance to the latest ISO C
347Standard.
348For older or nonstandard compilers, substitutes for
349<CODE>&lt;stdbool.h&gt;</CODE> and <CODE>&lt;stdint.h&gt;</CODE> may need to be
350created.
351SoftFloat depends on these names from <CODE>&lt;stdbool.h&gt;</CODE>:
352<BLOCKQUOTE>
353<PRE>
354bool
355true
356false
357</PRE>
358</BLOCKQUOTE>
359and on these names from <CODE>&lt;stdint.h&gt;</CODE>:
360<BLOCKQUOTE>
361<PRE>
362uint16_t
363uint32_t
364uint64_t
365int32_t
366int64_t
367UINT64_C
368INT64_C
369uint_least8_t
370uint_fast8_t
371uint_fast16_t
372uint_fast32_t
373uint_fast64_t
374int_fast8_t
375int_fast16_t
376int_fast32_t
377int_fast64_t
378</PRE>
379</BLOCKQUOTE>
380</P>
381
382
383<H3>5.2. Specializing Floating-Point Behavior</H3>
384
385<P>
386The IEEE Floating-Point Standard allows for some flexibility in a conforming
387implementation, particularly concerning NaNs.
388The SoftFloat <CODE>source</CODE> directory is supplied with some
389<I>specialization</I> subdirectories containing possible definitions for this
390implementation-specific behavior.
391For example, the <CODE>8086</CODE> and <NOBR><CODE>8086-SSE</CODE></NOBR>
392subdirectories have source files that specialize SoftFloat&rsquo;s behavior to
393match that of Intel&rsquo;s x86 line of processors.
394The files in a specialization subdirectory must determine:
395<UL>
396<LI>
397whether tininess for underflow is detected before or after rounding by default;
398<LI>
399how signaling NaNs are distinguished from quiet NaNs;
400<LI>
401what (if anything) special happens when exceptions are raised;
402<LI>
403the default generated quiet NaNs;
404<LI>
405how NaNs are propagated from function inputs to output; and
406<LI>
407the integer results returned when conversions to integer type raise the
408<I>invalid</I> exception.
409</UL>
410</P>
411
412<P>
413As provided, the build process for a target expects to involve exactly
414<EM>one</EM> specialization directory that defines <EM>all</EM> of these
415implementation-specific details for the target.
416A specialization directory such as <CODE>8086</CODE> is expected to contain a
417header file called <CODE>specialize.h</CODE>, together with whatever other
418source files are needed to complete the specialization.
419</P>
420
421<P>
422A new build target may use an existing specialization, such as the ones
423provided by the <CODE>8086</CODE> and <NOBR><CODE>8086-SSE</CODE></NOBR>
424subdirectories.
425If a build target needs a new specialization, different from any existing ones,
426it is recommended that a new specialization directory be created for this
427purpose.
428The <CODE>specialize.h</CODE> header file from any of the provided
429specialization subdirectories can be used as a model for what definitions are
430needed.
431</P>
432
433
434<H3>5.3. Macros for Build Options</H3>
435
436<P>
437The SoftFloat source files adapt the floating-point implementation according to
438several C preprocessor macros:
439<BLOCKQUOTE>
440<DL>
441<DT><CODE>LITTLEENDIAN</CODE>
442<DD>
443Must be defined for little-endian machines; must not be defined for big-endian
444machines.
445<DT><CODE>INLINE</CODE>
446<DD>
447Specifies the sequence of tokens used to indicate that a C function should be
448inlined.
449If macro <CODE>INLINE_LEVEL</CODE> is defined with a value of 1 or higher, this
450macro must be defined; otherwise, this macro is ignored and need not be
451defined.
452For compilers that conform to the C Standard&rsquo;s rules for inline
453functions, this macro can be defined as the single keyword <CODE>inline</CODE>.
454For other compilers that follow a convention pre-dating the standardization of
455<CODE>inline</CODE>, this macro may need to be defined to <CODE>extern</CODE>
456<CODE>inline</CODE>.
457<DT><CODE>THREAD_LOCAL</CODE>
458<DD>
459Can be defined to a sequence of tokens that, when appearing at the start of a
460variable declaration, indicates to the C compiler that the variable is
461<I>per-thread</I>, meaning that each execution thread gets its own separate
462instance of the variable.
463This macro is used in header <CODE>softfloat.h</CODE> in the declarations of
464variables <CODE>softfloat_roundingMode</CODE>,
465<CODE>softfloat_detectTininess</CODE>, <CODE>extF80_roundingPrecision</CODE>,
466and <CODE>softfloat_exceptionFlags</CODE>.
467If macro <CODE>THREAD_LOCAL</CODE> is left undefined, these variables will
468default to being ordinary global variables.
469Depending on the compiler, possible valid definitions of this macro include
470<CODE>_Thread_local</CODE> and <CODE>__thread</CODE>.
471</DL>
472<DL>
473<DT><CODE>SOFTFLOAT_ROUND_ODD</CODE>
474<DD>
475Can be defined to enable support for optional rounding mode
476<CODE>softfloat_round_odd</CODE>.
477</DL>
478<DL>
479<DT><CODE>INLINE_LEVEL</CODE>
480<DD>
481Can be defined to an integer to determine the degree of inlining requested of
482the compiler.
483Larger numbers request that more inlining be done.
484If this macro is not defined or is defined to a value less <NOBR>than 1</NOBR>
485(zero or negative), no inlining is requested.
486The maximum effective value is no higher <NOBR>than 5</NOBR>.
487Defining this macro to a value greater than 5 is the same as defining it
488<NOBR>to 5</NOBR>.
489<DT><CODE>SOFTFLOAT_FAST_INT64</CODE>
490<DD>
491Can be defined to indicate that the build target&rsquo;s implementation of
492<NOBR>64-bit</NOBR> arithmetic is efficient.
493For newer <NOBR>64-bit</NOBR> processors, this macro should usually be defined.
494For very small microprocessors whose buses and registers are <NOBR>8-bit</NOBR>
495or <NOBR>16-bit</NOBR> in size, this macro should usually not be defined.
496Whether this macro should be defined for a <NOBR>32-bit</NOBR> processor may
497depend on the target machine and the applications that will use SoftFloat.
498<DT><CODE>SOFTFLOAT_FAST_DIV32TO16</CODE>
499<DD>
500Can be defined to indicate that the target&rsquo;s division operator
501<NOBR>in C</NOBR> (written as <CODE>/</CODE>) is reasonably efficient for
502dividing a <NOBR>32-bit</NOBR> unsigned integer by a <NOBR>16-bit</NOBR>
503unsigned integer.
504Setting this macro may affect the performance of function <CODE>f16_div</CODE>.
505<DT><CODE>SOFTFLOAT_FAST_DIV64TO32</CODE>
506<DD>
507Can be defined to indicate that the target&rsquo;s division operator
508<NOBR>in C</NOBR> (written as <CODE>/</CODE>) is reasonably efficient for
509dividing a <NOBR>64-bit</NOBR> unsigned integer by a <NOBR>32-bit</NOBR>
510unsigned integer.
511Setting this macro may affect the performance of division, remainder, and
512square root operations other than <CODE>f16_div</CODE>.
513</DL>
514</BLOCKQUOTE>
515</P>
516
517<P>
518Following the usual custom <NOBR>for C</NOBR>, for most of these macros (all
519except <CODE>INLINE</CODE>, <CODE>THREAD_LOCAL</CODE>, and
520<CODE>INLINE_LEVEL</CODE>), the content of any definition is irrelevant;
521what matters is a macro&rsquo;s effect on <CODE>#ifdef</CODE> directives.
522</P>
523
524<P>
525It is recommended that any definitions of macros <CODE>LITTLEENDIAN</CODE>,
526<CODE>INLINE</CODE>, and <CODE>THREAD_LOCAL</CODE> be made in a build
527target&rsquo;s <CODE>platform.h</CODE> header file, because these macros are
528expected to be determined inflexibly by the target machine and compiler.
529The other five macros select options and control optimization, and thus might
530be better located in the target&rsquo;s Makefile (or its equivalent).
531</P>
532
533
534<H3>5.4. Adapting a Template Target Directory</H3>
535
536<P>
537In the <CODE>build</CODE> directory, two <CODE>template</CODE> subdirectories
538provide models for new target directories.
539Two different templates exist because different functions are needed in the
540SoftFloat library depending on whether macro <CODE>SOFTFLOAT_FAST_INT64</CODE>
541is defined.
542If macro <CODE>SOFTFLOAT_FAST_INT64</CODE> will be defined,
543<NOBR><CODE>template-FAST_INT64</CODE></NOBR> is the template to use;
544otherwise, <NOBR><CODE>template-not-FAST_INT64</CODE></NOBR> is the appropriate
545template.
546A new target directory can be created by copying the correct template directory
547and editing the files inside.
548To avoid confusion, it would be wise to refrain from editing the files within a
549template directory directly.
550</P>
551
552
553<H3>5.5. Target-Specific Optimization of Primitive Functions</H3>
554
555<P>
556Header file <CODE>primitives.h</CODE> (in directory
557<CODE>source/include</CODE>) declares macros and functions for numerous
558underlying arithmetic operations upon which many of SoftFloat&rsquo;s
559floating-point functions are ultimately built.
560The SoftFloat sources include implementations of all of these functions/macros,
561written as standard C code, so a complete and correct SoftFloat library can be
562created using only the supplied code for all functions.
563However, for many targets, SoftFloat&rsquo;s performance can be improved by
564substituting target-specific implementations of some of the functions/macros
565declared in <CODE>primitives.h</CODE>.
566</P>
567
568<P>
569For example, <CODE>primitives.h</CODE> declares a function called
570<CODE>softfloat_countLeadingZeros32</CODE> that takes an unsigned
571<NOBR>32-bit</NOBR> integer as an argument and returns the number of the
572integer&rsquo;s most-significant bits that are zeros.
573While the SoftFloat sources include an implementation of this function written
574in <NOBR>standard C</NOBR>, many processors can perform this same function
575directly in only one or two machine instructions.
576An alternative, target-specific implementation that maps to those instructions
577is likely to be more efficient than the generic C code from the SoftFloat
578package.
579</P>
580
581<P>
582A build target can replace the supplied version of any function or macro of
583<CODE>primitives.h</CODE> by defining a macro with the same name in the
584target&rsquo;s <CODE>platform.h</CODE> header file.
585For this purpose, it may be helpful for <CODE>platform.h</CODE> to
586<CODE>#include</CODE> header file <CODE>primitiveTypes.h</CODE>, which defines
587types used for arguments and results of functions declared in
588<CODE>primitives.h</CODE>.
589When a desired replacement implementation is a function, not a macro, it is
590sufficient for <CODE>platform.h</CODE> to include the line
591<BLOCKQUOTE>
592<PRE>
593#define &lt;<I>function-name</I>&gt; &lt;<I>function-name</I>&gt;
594</PRE>
595</BLOCKQUOTE>
596where <NOBR><CODE>&lt;<I>function-name</I>&gt;</CODE></NOBR> is the name of the
597function.
598This technically defines <NOBR><CODE>&lt;<I>function-name</I>&gt;</CODE></NOBR>
599as a macro, but one that resolves to the same name, which may then be a
600function.
601(A preprocessor that conforms to the C Standard is required to limit recursive
602macro expansion from being applied more than once.)
603</P>
604
605<P>
606The supplied header file <CODE>opts-GCC.h</CODE> (in directory
607<CODE>source/include</CODE>) provides an example of target-specific
608optimization for the GCC compiler.
609Each GCC target example in the <CODE>build</CODE> directory has
610<BLOCKQUOTE>
611<CODE>#include "opts-GCC.h"</CODE>
612</BLOCKQUOTE>
613in its <CODE>platform.h</CODE> header file.
614Before <CODE>opts-GCC.h</CODE> is included, the following macros must be
615defined (or not) to control which features are invoked:
616<BLOCKQUOTE>
617<DL>
618<DT><CODE>SOFTFLOAT_BUILTIN_CLZ</CODE></DT>
619<DD>
620If defined, SoftFloat&rsquo;s internal
621&lsquo;<CODE>countLeadingZeros</CODE>&rsquo; functions use intrinsics
622<CODE>__builtin_clz</CODE> and <CODE>__builtin_clzll</CODE>.
623</DD>
624<DT><CODE>SOFTFLOAT_INTRINSIC_INT128</CODE></DT>
625<DD>
626If defined, SoftFloat makes use of GCC&rsquo;s nonstandard <NOBR>128-bit</NOBR>
627integer type <CODE>__int128</CODE>.
628</DD>
629</DL>
630</BLOCKQUOTE>
631On some machines, these improvements are observed to increase the speeds of
632<CODE>f64_mul</CODE> and <CODE>f128_mul</CODE> by around 20 to 25%, although
633other functions receive less dramatic boosts, or none at all.
634Results can vary greatly across different platforms.
635</P>
636
637
638<H2>6. Testing SoftFloat</H2>
639
640<P>
641SoftFloat can be tested using the <CODE>testsoftfloat</CODE> program by the
642same author.
643This program is part of the Berkeley TestFloat package available at the Web
644page
645<A HREF="http://www.jhauser.us/arithmetic/TestFloat.html"><NOBR><CODE>http://www.jhauser.us/arithmetic/TestFloat.html</CODE></NOBR></A>.
646The TestFloat package also has a program called <CODE>timesoftfloat</CODE> that
647measures the speed of SoftFloat&rsquo;s floating-point functions.
648</P>
649
650
651<H2>7. Providing SoftFloat as a Common Library for Applications</H2>
652
653<P>
654Header file <CODE>softfloat.h</CODE> defines the SoftFloat interface as seen by
655clients.
656If the SoftFloat library will be made a common library for programs on a
657system, the supplied <CODE>softfloat.h</CODE> has a couple of deficiencies for
658this purpose:
659<UL>
660<LI>
661As supplied, <CODE>softfloat.h</CODE> depends on another header,
662<CODE>softfloat_types.h</CODE>, that is not intended for public use but which
663must also be visible to the programmer&rsquo;s compiler.
664<LI>
665More troubling, at the time <CODE>softfloat.h</CODE> is included in a C source
666file, macros <CODE>SOFTFLOAT_FAST_INT64</CODE> and <CODE>THREAD_LOCAL</CODE>
667must be defined, or not defined, consistent with how these macro were defined
668when the SoftFloat library was built.
669</UL>
670In the situation that new programs may regularly <CODE>#include</CODE> header
671file <CODE>softfloat.h</CODE>, it is recommended that a custom, self-contained
672version of this header file be created that eliminates these issues.
673</P>
674
675
676<H2>8. Contact Information</H2>
677
678<P>
679At the time of this writing, the most up-to-date information about SoftFloat
680and the latest release can be found at the Web page
681<A HREF="http://www.jhauser.us/arithmetic/SoftFloat.html"><NOBR><CODE>http://www.jhauser.us/arithmetic/SoftFloat.html</CODE></NOBR></A>.
682</P>
683
684
685</BODY>
686
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