| … | |
… | |
| 68 | platform (currently C<4> or C<8>) and can be used in preprocessor |
68 | platform (currently C<4> or C<8>) and can be used in preprocessor |
| 69 | expressions. |
69 | expressions. |
| 70 | |
70 | |
| 71 | For C<ptrdiff_t> and C<size_t> use C<stddef.h>. |
71 | For C<ptrdiff_t> and C<size_t> use C<stddef.h>. |
| 72 | |
72 | |
| 73 | =head2 LANGUAGE/COMPILER VERSIONS |
73 | =head2 LANGUAGE/ENVIRONMENT/COMPILER VERSIONS |
| 74 | |
74 | |
| 75 | All the following symbols expand to an expression that can be tested in |
75 | All the following symbols expand to an expression that can be tested in |
| 76 | preprocessor instructions as well as treated as a boolean (use C<!!> to |
76 | preprocessor instructions as well as treated as a boolean (use C<!!> to |
| 77 | ensure it's either C<0> or C<1> if you need that). |
77 | ensure it's either C<0> or C<1> if you need that). |
| 78 | |
78 | |
| … | |
… | |
| 163 | C<__x86_64> stands for, well, the x86-64 ABI, making these macros |
163 | C<__x86_64> stands for, well, the x86-64 ABI, making these macros |
| 164 | necessary. |
164 | necessary. |
| 165 | |
165 | |
| 166 | =back |
166 | =back |
| 167 | |
167 | |
|
|
168 | =head2 MACRO TRICKERY |
|
|
169 | |
|
|
170 | =over 4 |
|
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171 | |
|
|
172 | =item ECB_CONCAT (a, b) |
|
|
173 | |
|
|
174 | Expands any macros in C<a> and C<b>, then concatenates the result to form |
|
|
175 | a single token. This is mainly useful to form identifiers from components, |
|
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176 | e.g.: |
|
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177 | |
|
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178 | #define S1 str |
|
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179 | #define S2 cpy |
|
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180 | |
|
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181 | ECB_CONCAT (S1, S2)(dst, src); // == strcpy (dst, src); |
|
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182 | |
|
|
183 | =item ECB_STRINGIFY (arg) |
|
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184 | |
|
|
185 | Expands any macros in C<arg> and returns the stringified version of |
|
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186 | it. This is mainly useful to get the contents of a macro in string form, |
|
|
187 | e.g.: |
|
|
188 | |
|
|
189 | #define SQL_LIMIT 100 |
|
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190 | sql_exec ("select * from table limit " ECB_STRINGIFY (SQL_LIMIT)); |
|
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191 | |
|
|
192 | =item ECB_STRINGIFY_EXPR (expr) |
|
|
193 | |
|
|
194 | Like C<ECB_STRINGIFY>, but additionally evaluates C<expr> to make sure it |
|
|
195 | is a valid expression. This is useful to catch typos or cases where the |
|
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196 | macro isn't available: |
|
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197 | |
|
|
198 | #include <errno.h> |
|
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199 | |
|
|
200 | ECB_STRINGIFY (EDOM); // "33" (on my system at least) |
|
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201 | ECB_STRINGIFY_EXPR (EDOM); // "33" |
|
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202 | |
|
|
203 | // now imagine we had a typo: |
|
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204 | |
|
|
205 | ECB_STRINGIFY (EDAM); // "EDAM" |
|
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206 | ECB_STRINGIFY_EXPR (EDAM); // error: EDAM undefined |
|
|
207 | |
|
|
208 | =back |
|
|
209 | |
| 168 | =head2 GCC ATTRIBUTES |
210 | =head2 ATTRIBUTES |
| 169 | |
211 | |
| 170 | A major part of libecb deals with GCC attributes. These are additional |
212 | A major part of libecb deals with additional attributes that can be |
| 171 | attributes that you can assign to functions, variables and sometimes even |
213 | assigned to functions, variables and sometimes even types - much like |
| 172 | types - much like C<const> or C<volatile> in C. |
214 | C<const> or C<volatile> in C. They are implemented using either GCC |
| 173 | |
215 | attributes or other compiler/language specific features. Attributes |
| 174 | While GCC allows declarations to show up in many surprising places, |
|
|
| 175 | but not in many expected places, the safest way is to put attribute |
|
|
| 176 | declarations before the whole declaration: |
216 | declarations must be put before the whole declaration: |
| 177 | |
217 | |
| 178 | ecb_const int mysqrt (int a); |
218 | ecb_const int mysqrt (int a); |
| 179 | ecb_unused int i; |
219 | ecb_unused int i; |
| 180 | |
220 | |
| 181 | For variables, it is often nicer to put the attribute after the name, and |
|
|
| 182 | avoid multiple declarations using commas: |
|
|
| 183 | |
|
|
| 184 | int i ecb_unused; |
|
|
| 185 | |
|
|
| 186 | =over 4 |
221 | =over 4 |
| 187 | |
|
|
| 188 | =item ecb_attribute ((attrs...)) |
|
|
| 189 | |
|
|
| 190 | A simple wrapper that expands to C<__attribute__((attrs))> on GCC 3.1+ and |
|
|
| 191 | Clang 2.8+, and to nothing on other compilers, so the effect is that only |
|
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| 192 | GCC and Clang see these. |
|
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| 193 | |
|
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| 194 | Example: use the C<deprecated> attribute on a function. |
|
|
| 195 | |
|
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| 196 | ecb_attribute((__deprecated__)) void |
|
|
| 197 | do_not_use_me_anymore (void); |
|
|
| 198 | |
222 | |
| 199 | =item ecb_unused |
223 | =item ecb_unused |
| 200 | |
224 | |
| 201 | Marks a function or a variable as "unused", which simply suppresses a |
225 | Marks a function or a variable as "unused", which simply suppresses a |
| 202 | warning by GCC when it detects it as unused. This is useful when you e.g. |
226 | warning by GCC when it detects it as unused. This is useful when you e.g. |
| 203 | declare a variable but do not always use it: |
227 | declare a variable but do not always use it: |
| 204 | |
228 | |
| 205 | { |
229 | { |
| 206 | int var ecb_unused; |
230 | ecb_unused int var; |
| 207 | |
231 | |
| 208 | #ifdef SOMECONDITION |
232 | #ifdef SOMECONDITION |
| 209 | var = ...; |
233 | var = ...; |
| 210 | return var; |
234 | return var; |
| 211 | #else |
235 | #else |
| … | |
… | |
| 216 | =item ecb_deprecated |
240 | =item ecb_deprecated |
| 217 | |
241 | |
| 218 | Similar to C<ecb_unused>, but marks a function, variable or type as |
242 | Similar to C<ecb_unused>, but marks a function, variable or type as |
| 219 | deprecated. This makes some compilers warn when the type is used. |
243 | deprecated. This makes some compilers warn when the type is used. |
| 220 | |
244 | |
|
|
245 | =item ecb_deprecated_message (message) |
|
|
246 | |
|
|
247 | Same as C<ecb_deprecated>, but if possible, supply a diagnostic that is |
|
|
248 | used instead of a generic depreciation message when the object is being |
|
|
249 | used. |
|
|
250 | |
| 221 | =item ecb_inline |
251 | =item ecb_inline |
| 222 | |
252 | |
| 223 | This is not actually an attribute, but you use it like one. It expands |
|
|
| 224 | either to C<static inline> or to just C<static>, if inline isn't |
253 | Expands either to C<static inline> or to just C<static>, if inline |
| 225 | supported. It should be used to declare functions that should be inlined, |
254 | isn't supported. It should be used to declare functions that should be |
| 226 | for code size or speed reasons. |
255 | inlined, for code size or speed reasons. |
| 227 | |
256 | |
| 228 | Example: inline this function, it surely will reduce codesize. |
257 | Example: inline this function, it surely will reduce codesize. |
| 229 | |
258 | |
| 230 | ecb_inline int |
259 | ecb_inline int |
| 231 | negmul (int a, int b) |
260 | negmul (int a, int b) |
| … | |
… | |
| 264 | |
293 | |
| 265 | Example: multiply a vector, and allow the compiler to parallelise the |
294 | Example: multiply a vector, and allow the compiler to parallelise the |
| 266 | loop, because it knows it doesn't overwrite input values. |
295 | loop, because it knows it doesn't overwrite input values. |
| 267 | |
296 | |
| 268 | void |
297 | void |
| 269 | multiply (float *ecb_restrict src, |
298 | multiply (ecb_restrict float *src, |
| 270 | float *ecb_restrict dst, |
299 | ecb_restrict float *dst, |
| 271 | int len, float factor) |
300 | int len, float factor) |
| 272 | { |
301 | { |
| 273 | int i; |
302 | int i; |
| 274 | |
303 | |
| 275 | for (i = 0; i < len; ++i) |
304 | for (i = 0; i < len; ++i) |
| … | |
… | |
| 373 | |
402 | |
| 374 | =head2 OPTIMISATION HINTS |
403 | =head2 OPTIMISATION HINTS |
| 375 | |
404 | |
| 376 | =over 4 |
405 | =over 4 |
| 377 | |
406 | |
| 378 | =item bool ecb_is_constant(expr) |
407 | =item bool ecb_is_constant (expr) |
| 379 | |
408 | |
| 380 | Returns true iff the expression can be deduced to be a compile-time |
409 | Returns true iff the expression can be deduced to be a compile-time |
| 381 | constant, and false otherwise. |
410 | constant, and false otherwise. |
| 382 | |
411 | |
| 383 | For example, when you have a C<rndm16> function that returns a 16 bit |
412 | For example, when you have a C<rndm16> function that returns a 16 bit |
| … | |
… | |
| 401 | return is_constant (n) && !(n & (n - 1)) |
430 | return is_constant (n) && !(n & (n - 1)) |
| 402 | ? rndm16 () & (num - 1) |
431 | ? rndm16 () & (num - 1) |
| 403 | : (n * (uint32_t)rndm16 ()) >> 16; |
432 | : (n * (uint32_t)rndm16 ()) >> 16; |
| 404 | } |
433 | } |
| 405 | |
434 | |
| 406 | =item bool ecb_expect (expr, value) |
435 | =item ecb_expect (expr, value) |
| 407 | |
436 | |
| 408 | Evaluates C<expr> and returns it. In addition, it tells the compiler that |
437 | Evaluates C<expr> and returns it. In addition, it tells the compiler that |
| 409 | the C<expr> evaluates to C<value> a lot, which can be used for static |
438 | the C<expr> evaluates to C<value> a lot, which can be used for static |
| 410 | branch optimisations. |
439 | branch optimisations. |
| 411 | |
440 | |
| … | |
… | |
| 458 | { |
487 | { |
| 459 | if (ecb_expect_false (current + size > end)) |
488 | if (ecb_expect_false (current + size > end)) |
| 460 | real_reserve_method (size); /* presumably noinline */ |
489 | real_reserve_method (size); /* presumably noinline */ |
| 461 | } |
490 | } |
| 462 | |
491 | |
| 463 | =item bool ecb_assume (cond) |
492 | =item ecb_assume (cond) |
| 464 | |
493 | |
| 465 | Try to tell the compiler that some condition is true, even if it's not |
494 | Try to tell the compiler that some condition is true, even if it's not |
| 466 | obvious. |
495 | obvious. |
| 467 | |
496 | |
| 468 | This can be used to teach the compiler about invariants or other |
497 | This can be used to teach the compiler about invariants or other |
| … | |
… | |
| 488 | |
517 | |
| 489 | Then the compiler I<might> be able to optimise out the second call |
518 | Then the compiler I<might> be able to optimise out the second call |
| 490 | completely, as it knows that C<< current + 1 > end >> is false and the |
519 | completely, as it knows that C<< current + 1 > end >> is false and the |
| 491 | call will never be executed. |
520 | call will never be executed. |
| 492 | |
521 | |
| 493 | =item bool ecb_unreachable () |
522 | =item ecb_unreachable () |
| 494 | |
523 | |
| 495 | This function does nothing itself, except tell the compiler that it will |
524 | This function does nothing itself, except tell the compiler that it will |
| 496 | never be executed. Apart from suppressing a warning in some cases, this |
525 | never be executed. Apart from suppressing a warning in some cases, this |
| 497 | function can be used to implement C<ecb_assume> or similar functions. |
526 | function can be used to implement C<ecb_assume> or similar functions. |
| 498 | |
527 | |
| 499 | =item bool ecb_prefetch (addr, rw, locality) |
528 | =item ecb_prefetch (addr, rw, locality) |
| 500 | |
529 | |
| 501 | Tells the compiler to try to prefetch memory at the given C<addr>ess |
530 | Tells the compiler to try to prefetch memory at the given C<addr>ess |
| 502 | for either reading (C<rw> = 0) or writing (C<rw> = 1). A C<locality> of |
531 | for either reading (C<rw> = 0) or writing (C<rw> = 1). A C<locality> of |
| 503 | C<0> means that there will only be one access later, C<3> means that |
532 | C<0> means that there will only be one access later, C<3> means that |
| 504 | the data will likely be accessed very often, and values in between mean |
533 | the data will likely be accessed very often, and values in between mean |
| … | |
… | |
| 653 | |
682 | |
| 654 | =head2 FLOATING POINT FIDDLING |
683 | =head2 FLOATING POINT FIDDLING |
| 655 | |
684 | |
| 656 | =over 4 |
685 | =over 4 |
| 657 | |
686 | |
|
|
687 | =item ECB_INFINITY |
|
|
688 | |
|
|
689 | Evaluates to positive infinity if supported by the platform, otherwise to |
|
|
690 | a truly huge number. |
|
|
691 | |
|
|
692 | =item ECB_NAN |
|
|
693 | |
|
|
694 | Evaluates to a quiet NAN if supported by the platform, otherwise to |
|
|
695 | C<ECB_INFINITY>. |
|
|
696 | |
|
|
697 | =item float ecb_ldexpf (float x, int exp) |
|
|
698 | |
|
|
699 | Same as C<ldexpf>, but always available. |
|
|
700 | |
| 658 | =item uint32_t ecb_float_to_binary32 (float x) [-UECB_NO_LIBM] |
701 | =item uint32_t ecb_float_to_binary32 (float x) [-UECB_NO_LIBM] |
| 659 | |
702 | |
| 660 | =item uint64_t ecb_double_to_binary64 (double x) [-UECB_NO_LIBM] |
703 | =item uint64_t ecb_double_to_binary64 (double x) [-UECB_NO_LIBM] |
| 661 | |
704 | |
| 662 | These functions each take an argument in the native C<float> or C<double> |
705 | These functions each take an argument in the native C<float> or C<double> |
| … | |
… | |
| 685 | /* this results in a single add instruction to toggle the bit, and 4 extra */ |
728 | /* this results in a single add instruction to toggle the bit, and 4 extra */ |
| 686 | /* instructions to move the float value to an integer register and back. */ |
729 | /* instructions to move the float value to an integer register and back. */ |
| 687 | |
730 | |
| 688 | x = ecb_binary32_to_float (ecb_float_to_binary32 (x) ^ 0x80000000U) |
731 | x = ecb_binary32_to_float (ecb_float_to_binary32 (x) ^ 0x80000000U) |
| 689 | |
732 | |
|
|
733 | =item float ecb_binary16_to_float (uint16_t x) [-UECB_NO_LIBM] |
|
|
734 | |
| 690 | =item float ecb_binary32_to_float (uint32_t x) [-UECB_NO_LIBM] |
735 | =item float ecb_binary32_to_float (uint32_t x) [-UECB_NO_LIBM] |
| 691 | |
736 | |
| 692 | =item double ecb_binary32_to_double (uint64_t x) [-UECB_NO_LIBM] |
737 | =item double ecb_binary32_to_double (uint64_t x) [-UECB_NO_LIBM] |
| 693 | |
738 | |
| 694 | The reverse operation of the previos function - takes the bit representation |
739 | The reverse operation of the previous function - takes the bit |
| 695 | of an IEEE binary32 or binary64 number and converts it to the native C<float> |
740 | representation of an IEEE binary16, binary32 or binary64 number and |
| 696 | or C<double> format. |
741 | converts it to the native C<float> or C<double> format. |
| 697 | |
742 | |
| 698 | This function should work even when the native floating point format isn't |
743 | This function should work even when the native floating point format isn't |
| 699 | IEEE compliant, of course at a speed and code size penalty, and of course |
744 | IEEE compliant, of course at a speed and code size penalty, and of course |
| 700 | also within reasonable limits (it tries to convert normals and denormals, |
745 | also within reasonable limits (it tries to convert normals and denormals, |
| 701 | and might be lucky for infinities, and with extraordinary luck, also for |
746 | and might be lucky for infinities, and with extraordinary luck, also for |
