From 50a16934dde8e65bbcf628d6342c1649f7e09365 Mon Sep 17 00:00:00 2001 From: Tyge Lovset Date: Thu, 18 May 2023 11:49:31 +0200 Subject: Huge update: cqueue and cdeq completely rewritten. cvec and cdeq API harmonized. Docs update/improved. --- include/stc/algo/sort.h | 100 ++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 100 insertions(+) create mode 100644 include/stc/algo/sort.h (limited to 'include/stc/algo/sort.h') diff --git a/include/stc/algo/sort.h b/include/stc/algo/sort.h new file mode 100644 index 00000000..20b7e1b3 --- /dev/null +++ b/include/stc/algo/sort.h @@ -0,0 +1,100 @@ +/* MIT License + * + * Copyright (c) 2023 Tyge Løvset + * + * Permission is hereby granted, free of charge, to any person obtaining a copy + * of this software and associated documentation files (the "Software"), to deal + * in the Software without restriction, including without limitation the rights + * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell + * copies of the Software, and to permit persons to whom the Software is + * furnished to do so, subject to the following conditions: + * + * The above copyright notice and this permission notice shall be included in all + * copies or substantial portions of the Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE + * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, + * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE + * SOFTWARE. + */ +/* Generic Quicksort in C, performs as fast as c++ std::sort(). +template params: +#define i_val - value type [required] +#define i_less - less function. default: *x < *y +#define i_tag name - define namearray_qsort(). i_tag defaults {i_val} + +// test: +#include +#define i_val int +#include + +int main() { + int arr[] = {23, 321, 5434, 25, 245, 1, 654, 33, 543, 21}; + + intarray_qsort(arr, c_arraylen(arr)); + + for (int i = 0; i < c_arraylen(arr); i++) + printf(" %d", arr[i]); + puts(""); +} +*/ +#include "../ccommon.h" +#ifndef i_type + #define i_at(arr, idx) (&arr[idx]) + #ifndef i_tag + #define i_tag i_val + #endif + #define i_type c_PASTE(i_tag, array) + typedef i_val i_type; +#endif +#ifndef i_at + #define i_at(arr, idx) _cx_memb(_at_mut)(arr, idx) +#endif +#include "../priv/template.h" + + +static inline void _cx_memb(_insertsort_ij)(_cx_self* arr, intptr_t lo, intptr_t hi) { + for (intptr_t j = lo, i = lo + 1; i <= hi; j = i, ++i) { + i_val key = *i_at(arr, i); + while (j >= 0 && (i_less((&key), i_at(arr, j)))) { + *i_at(arr, j + 1) = *i_at(arr, j); + --j; + } + *i_at(arr, j + 1) = key; + } +} + +static inline void _cx_memb(_sort_ij)(_cx_self* arr, intptr_t lo, intptr_t hi) { + intptr_t i = lo, j; + while (lo < hi) { + i_val pivot = *i_at(arr, lo + (hi - lo)*7/16); + j = hi; + + while (i <= j) { + while (i_less(i_at(arr, i), (&pivot))) ++i; + while (i_less((&pivot), i_at(arr, j))) --j; + if (i <= j) { + c_swap(i_val, i_at(arr, i), i_at(arr, j)); + ++i; --j; + } + } + if (j - lo > hi - i) { + c_swap(intptr_t, &lo, &i); + c_swap(intptr_t, &hi, &j); + } + + if (j - lo > 64) _cx_memb(_sort_ij)(arr, lo, j); + else if (j > lo) _cx_memb(_insertsort_ij)(arr, lo, j); + lo = i; + } +} + +static inline void _cx_memb(_sort_n)(_cx_self* arr, intptr_t len) { + _cx_memb(_sort_ij)(arr, 0, len - 1); +} + +#include "../priv/template2.h" +#undef i_at -- cgit v1.2.3 From 8e6e1d2b266e46e3920edf7cc6eaad33c1312880 Mon Sep 17 00:00:00 2001 From: Tyge Løvset Date: Tue, 6 Jun 2023 11:42:18 +0200 Subject: Warning fixes and docs update. --- docs/ccommon_api.md | 4 ++-- include/stc/algo/coroutine.h | 10 +++++----- include/stc/algo/sort.h | 10 +++++----- 3 files changed, 12 insertions(+), 12 deletions(-) (limited to 'include/stc/algo/sort.h') diff --git a/docs/ccommon_api.md b/docs/ccommon_api.md index de421f2c..7aa94c50 100644 --- a/docs/ccommon_api.md +++ b/docs/ccommon_api.md @@ -389,7 +389,7 @@ To resume the coroutine from where it was suspended with *cco_yield()*, simply c | | `cco_timer` | Timer type | | | `cco_timer_await(tm)` | Await for timer to expire | | | `cco_timer_await(tm, ret)` | Await with ret for timer to expire | -| | `cco_timer_start(tm, double sec)` | Start timer for sec seconds | +| | `cco_timer_start(tm, double sec)` | Start timer for sec seconds (usec prec.)| | | `cco_timer_restart(tm)` | Restart timer with same duration | | `bool` | `cco_timer_expired(tm)` | Return true if timer is expired | | `double` | `cco_timer_remaining(tm)` | Return seconds remaining | @@ -399,7 +399,7 @@ To resume the coroutine from where it was suspended with *cco_yield()*, simply c | `void` | `cco_run(co, corocall) { }` | Run blocking until coro is done | | | Time functions: | | | `double` | `cco_time(void)` | Return secs with usec prec. since Epoch | -| | `cco_sleep(double sec)` | Sleep for seconds | +| | `cco_sleep(double sec)` | Sleep for seconds (msec or usec prec.) | --- ## RAII scope macros diff --git a/include/stc/algo/coroutine.h b/include/stc/algo/coroutine.h index 79819c55..1ac30fff 100644 --- a/include/stc/algo/coroutine.h +++ b/include/stc/algo/coroutine.h @@ -139,11 +139,11 @@ typedef struct { _c_LINKC void GetSystemTimePreciseAsFileTime(struct _FILETIME*); _c_LINKC void Sleep(unsigned long); - static inline double cco_time(void) { + static inline double cco_time(void) { /* seconds since epoch */ static const unsigned long long epoch_offset = 116444736000000000ULL; /* 1/10th usecs betweeen Jan 1,1601 - Jan 1,1970 */ unsigned long long quad; /* 64-bit value, 100-nanosecond intervals since January 1, 1601 00:00 UTC */ GetSystemTimePreciseAsFileTime((struct _FILETIME*)&quad); - return (double)(quad - epoch_offset)*1e-7; /* usecs since epoch */ + return (double)(quad - epoch_offset)*1e-7; } static inline void cco_sleep(double sec) { @@ -151,16 +151,16 @@ typedef struct { } #else #include - static inline double cco_time(void) { + static inline double cco_time(void) { /* seconds since epoch */ struct timeval tv; gettimeofday(&tv, NULL); - return tv.tv_sec + tv.tv_usec*1e-6; + return (double)tv.tv_sec + (double)tv.tv_usec*1e-6; } static inline void cco_sleep(double sec) { struct timeval tv; tv.tv_sec = (time_t)sec; - tv.tv_usec = (suseconds_t)(1e6*(sec - tv.tv_sec)); + tv.tv_usec = (suseconds_t)((sec - (double)(long)sec)*1e6); select(0, NULL, NULL, NULL, &tv); } #endif diff --git a/include/stc/algo/sort.h b/include/stc/algo/sort.h index 20b7e1b3..bbd58427 100644 --- a/include/stc/algo/sort.h +++ b/include/stc/algo/sort.h @@ -24,7 +24,7 @@ template params: #define i_val - value type [required] #define i_less - less function. default: *x < *y -#define i_tag name - define namearray_qsort(). i_tag defaults {i_val} +#define i_type name - define {{name}}_sort_n(), else {{i_val}}array_sort_n(). // test: #include @@ -32,12 +32,12 @@ template params: #include int main() { - int arr[] = {23, 321, 5434, 25, 245, 1, 654, 33, 543, 21}; + int nums[] = {23, 321, 5434, 25, 245, 1, 654, 33, 543, 21}; - intarray_qsort(arr, c_arraylen(arr)); + intarray_sort_n(nums, c_arraylen(arr)); - for (int i = 0; i < c_arraylen(arr); i++) - printf(" %d", arr[i]); + for (int i = 0; i < c_arraylen(nums); i++) + printf(" %d", nums[i]); puts(""); } */ -- cgit v1.2.3 From b564ef6bdfcd2437f1b4997f42054c45ccdedbb1 Mon Sep 17 00:00:00 2001 From: Tyge Løvset Date: Sun, 11 Jun 2023 14:03:16 +0200 Subject: Added priv/linkage.h and renamed priv/template2.h => priv/template_undef.h. Make all examples c++ compatible, except those using cspan.h Removed: crange_obj() Renamed: crange_make() => crange_init() Renamed: cspan_make() => cspan_init() Renamed: cstr_NULL => cstr_null Renamed: csview_NULL => csview_null --- docs/carc_api.md | 2 +- docs/cbox_api.md | 2 +- docs/ccommon_api.md | 14 +++++----- docs/cmap_api.md | 2 +- docs/cspan_api.md | 2 +- docs/cstr_api.md | 4 +-- docs/csview_api.md | 2 +- include/stc/algo/coroutine.h | 2 +- include/stc/algo/crange.h | 18 ++++++------- include/stc/algo/filter.h | 2 +- include/stc/algo/sort.h | 1 + include/stc/carc.h | 5 ++-- include/stc/cbox.h | 5 ++-- include/stc/ccommon.h | 51 +++++++++++++++---------------------- include/stc/clist.h | 3 ++- include/stc/cmap.h | 3 ++- include/stc/cpque.h | 3 ++- include/stc/cqueue.h | 3 ++- include/stc/crand.h | 3 ++- include/stc/cregex.h | 4 ++- include/stc/csmap.h | 3 ++- include/stc/cspan.h | 9 ++++--- include/stc/cstack.h | 3 ++- include/stc/cstr.h | 20 +++++++-------- include/stc/csview.h | 18 ++++++------- include/stc/cvec.h | 3 ++- include/stc/priv/linkage.h | 40 +++++++++++++++++++++++++++++ include/stc/utf8.h | 34 ++++++++++++++++++++----- misc/examples/astar.c | 2 +- misc/examples/box.c | 2 +- misc/examples/box2.c | 6 ++--- misc/examples/csmap_find.c | 12 ++++----- misc/examples/csmap_insert.c | 12 ++++----- misc/examples/dining_philosophers.c | 5 ++-- misc/examples/forfilter.c | 5 ++-- misc/examples/make.sh | 14 +++++----- misc/examples/music_arc.c | 2 +- misc/examples/new_list.c | 2 +- misc/examples/new_sptr.c | 3 ++- misc/examples/new_vec.c | 8 +++--- misc/examples/person_arc.c | 3 ++- misc/examples/prime.c | 4 ++- misc/examples/printspan.c | 8 +++--- misc/examples/read.c | 2 +- misc/examples/shape.c | 2 +- misc/examples/vikings.c | 10 ++++---- src/cregex.c | 32 +++++++++++------------ src/utf8code.c | 41 +++++++++++++++-------------- 48 files changed, 254 insertions(+), 182 deletions(-) create mode 100644 include/stc/priv/linkage.h (limited to 'include/stc/algo/sort.h') diff --git a/docs/carc_api.md b/docs/carc_api.md index 9f3d8cb9..22e6bac2 100644 --- a/docs/carc_api.md +++ b/docs/carc_api.md @@ -67,7 +67,7 @@ bool carc_X_value_eq(const i_val* x, const i_val* y); | Type name | Type definition | Used to represent... | |:------------------|:--------------------------------------------------|:-----------------------| -| `carc_NULL` | `{NULL, NULL}` | Init nullptr const | +| `carc_null` | `{0}` | Init nullptr const | | `carc_X` | `struct { carc_X_value* get; long* use_count; }` | The carc type | | `carc_X_value` | `i_val` | The carc element type | | `carc_X_raw` | `i_valraw` | Convertion type | diff --git a/docs/cbox_api.md b/docs/cbox_api.md index 5914a5ad..9151f56d 100644 --- a/docs/cbox_api.md +++ b/docs/cbox_api.md @@ -64,7 +64,7 @@ bool cbox_X_value_eq(const i_val* x, const i_val* y); | Type name | Type definition | Used to represent... | |:-------------------|:--------------------------------|:------------------------| -| `cbox_NULL` | `{NULL}` | Init nullptr const | +| `cbox_null` | `{0}` | Init nullptr const | | `cbox_X` | `struct { cbox_X_value* get; }` | The cbox type | | `cbox_X_value` | `i_val` | The cbox element type | diff --git a/docs/ccommon_api.md b/docs/ccommon_api.md index cd9be505..1f0847da 100644 --- a/docs/ccommon_api.md +++ b/docs/ccommon_api.md @@ -82,17 +82,16 @@ c_forrange (i, 30, 0, -5) printf(" %lld", i); ### crange A number sequence generator type, similar to [boost::irange](https://www.boost.org/doc/libs/release/libs/range/doc/html/range/reference/ranges/irange.html). The **crange_value** type is `long long`. Below *start*, *stop*, and *step* are of type *crange_value*: ```c -crange& crange_obj(...) // create a compound literal crange object -crange crange_make(stop); // will generate 0, 1, ..., stop-1 -crange crange_make(start, stop); // will generate start, start+1, ... stop-1 -crange crange_make(start, stop, step); // will generate start, start+step, ... upto-not-including stop +crange crange_init(stop); // will generate 0, 1, ..., stop-1 +crange crange_init(start, stop); // will generate start, start+1, ... stop-1 +crange crange_init(start, stop, step); // will generate start, start+step, ... upto-not-including stop // note that step may be negative. crange_iter crange_begin(crange* self); crange_iter crange_end(crange* self); void crange_next(crange_iter* it); // 1. All primes less than 32: -crange r1 = crange_make(3, 32, 2); +crange r1 = crange_init(3, 32, 2); printf("2"); // first prime c_forfilter (i, crange, r1, isPrime(*i.ref)) printf(" %lld", *i.ref); @@ -100,7 +99,8 @@ c_forfilter (i, crange, r1, isPrime(*i.ref)) // 2. The first 11 primes: printf("2"); -c_forfilter (i, crange, crange_obj(3, INT64_MAX, 2), +crange range = crange_init(3, INT64_MAX, 2); +c_forfilter (i, crange, range, isPrime(*i.ref) && c_flt_take(10) ){ @@ -140,7 +140,7 @@ bool isPrime(long long i) { int main() { // Get 10 prime numbers starting from 1000. Skip the first 15 primes, // then select every 25th prime (including the initial). - crange R = crange_make(1001, INT64_MAX, 2); // 1001, 1003, ... + crange R = crange_init(1001, INT64_MAX, 2); // 1001, 1003, ... c_forfilter (i, crange, R, isPrime(*i.ref) && diff --git a/docs/cmap_api.md b/docs/cmap_api.md index 69e547a0..8ef322e6 100644 --- a/docs/cmap_api.md +++ b/docs/cmap_api.md @@ -277,7 +277,7 @@ typedef struct { cstr country; } Viking; -#define Viking_init() ((Viking){cstr_NULL, cstr_NULL}) +#define Viking_init() ((Viking){cstr_null, cstr_null}) static inline int Viking_cmp(const Viking* a, const Viking* b) { int c = cstr_cmp(&a->name, &b->name); diff --git a/docs/cspan_api.md b/docs/cspan_api.md index 3a811ebf..c78bb8a0 100644 --- a/docs/cspan_api.md +++ b/docs/cspan_api.md @@ -26,7 +26,7 @@ i.e., it may be expanded multiple times. However, all integer arguments are safe `cspan_at(&ms3, i++, j++, k++)` is allowed. If the number of arguments does not match the span rank, a compile error is issued. Runtime bounds checks are enabled by default (define `STC_NDEBUG` or `NDEBUG` to disable). ```c -SpanType cspan_make(T SpanType, {v1, v2, ...}); // make a 1-d cspan from values +SpanType cspan_init(T SpanType, {v1, v2, ...}); // make a 1-d cspan from values SpanType cspan_from(STCContainer* cnt); // make a 1-d cspan from compatible STC container SpanType cspan_from_array(ValueType array[]); // make a 1-d cspan from C array SpanTypeN cspan_md(ValueType* data, intptr_t xdim, ...); // make a multi-dimensional cspan diff --git a/docs/cstr_api.md b/docs/cstr_api.md index 438dbf27..c7d19e0c 100644 --- a/docs/cstr_api.md +++ b/docs/cstr_api.md @@ -18,7 +18,7 @@ All cstr definitions and prototypes are available by including a single header f ## Methods ```c -cstr cstr_init(void); // constructor; same as cstr_NULL. +cstr cstr_init(void); // constructor; same as cstr_null. cstr cstr_lit(const char literal_only[]); // cstr from literal; no strlen() call. cstr cstr_from(const char* str); // constructor using strlen() cstr cstr_from_n(const char* str, intptr_t n); // constructor with n first bytes of str @@ -153,7 +153,7 @@ char* cstrnstrn(const char* str, const char* search, intptr_t slen, intpt | Name | Value | |:------------------|:------------------| | `c_NPOS` | `INTPTR_MAX` | -| `cstr_NULL` | cstr null value | +| `cstr_null` | empty cstr value | ## Example ```c diff --git a/docs/csview_api.md b/docs/csview_api.md index 879822d3..a02b007a 100644 --- a/docs/csview_api.md +++ b/docs/csview_api.md @@ -112,7 +112,7 @@ uint64_t csview_hash(const csview* x); | Name | Value | Usage | |:---------------|:---------------------|:---------------------------------------------| -| `csview_NULL` | same as `c_sv("")` | `sview = csview_NULL;` | +| `csview_null` | same as `c_sv("")` | `sview = csview_null;` | | `c_SV(sv)` | printf argument | `printf("sv: %.*s\n", c_SV(sv));` | ## Example diff --git a/include/stc/algo/coroutine.h b/include/stc/algo/coroutine.h index 67ea5a40..5cd6d68f 100644 --- a/include/stc/algo/coroutine.h +++ b/include/stc/algo/coroutine.h @@ -56,7 +56,7 @@ int main(void) { return 0; } */ -#include +#include "../ccommon.h" enum { cco_state_final = -1, diff --git a/include/stc/algo/crange.h b/include/stc/algo/crange.h index 56c317da..34ed541b 100644 --- a/include/stc/algo/crange.h +++ b/include/stc/algo/crange.h @@ -27,14 +27,15 @@ int main() { - crange r1 = crange_make(80, 90); + crange r1 = crange_init(80, 90); c_foreach (i, crange, r1) printf(" %lld", *i.ref); puts(""); // use a temporary crange object. int a = 100, b = INT32_MAX; - c_forfilter (i, crange, crange_obj(a, b, 8), + crange r2 = crange_init(a, b, 8); + c_forfilter (i, crange, r2, c_flt_skip(i, 10) && c_flt_take(i, 3)) printf(" %lld", *i.ref); @@ -44,20 +45,17 @@ int main() #ifndef STC_CRANGE_H_INCLUDED #define STC_CRANGE_H_INCLUDED -#include - -#define crange_obj(...) \ - (*(crange[]){crange_make(__VA_ARGS__)}) +#include "../ccommon.h" typedef long long crange_value; typedef struct { crange_value start, end, step, value; } crange; typedef struct { crange_value *ref, end, step; } crange_iter; -#define crange_make(...) c_MACRO_OVERLOAD(crange_make, __VA_ARGS__) -#define crange_make_1(stop) crange_make_3(0, stop, 1) -#define crange_make_2(start, stop) crange_make_3(start, stop, 1) +#define crange_init(...) c_MACRO_OVERLOAD(crange_init, __VA_ARGS__) +#define crange_init_1(stop) crange_init_3(0, stop, 1) +#define crange_init_2(start, stop) crange_init_3(start, stop, 1) -STC_INLINE crange crange_make_3(crange_value start, crange_value stop, crange_value step) +STC_INLINE crange crange_init_3(crange_value start, crange_value stop, crange_value step) { crange r = {start, stop - (step > 0), step}; return r; } STC_INLINE crange_iter crange_begin(crange* self) diff --git a/include/stc/algo/filter.h b/include/stc/algo/filter.h index 8dc1ad74..f5de1811 100644 --- a/include/stc/algo/filter.h +++ b/include/stc/algo/filter.h @@ -47,7 +47,7 @@ int main() #ifndef STC_FILTER_H_INCLUDED #define STC_FILTER_H_INCLUDED -#include +#include "../ccommon.h" // c_forfilter: diff --git a/include/stc/algo/sort.h b/include/stc/algo/sort.h index bbd58427..2e73b0fb 100644 --- a/include/stc/algo/sort.h +++ b/include/stc/algo/sort.h @@ -42,6 +42,7 @@ int main() { } */ #include "../ccommon.h" + #ifndef i_type #define i_at(arr, idx) (&arr[idx]) #ifndef i_tag diff --git a/include/stc/carc.h b/include/stc/carc.h index 756b604f..749b1fc1 100644 --- a/include/stc/carc.h +++ b/include/stc/carc.h @@ -49,10 +49,11 @@ int main() { c_drop(ArcPers, &p, &q); } */ -#include "ccommon.h" +#include "priv/linkage.h" #ifndef CARC_H_INCLUDED #define CARC_H_INCLUDED +#include "ccommon.h" #include "forward.h" #include @@ -72,7 +73,7 @@ int main() { #define c_atomic_dec_and_test(v) (atomic_fetch_sub(v, 1) == 1) #endif -#define carc_NULL {NULL, NULL} +#define carc_null {0} #endif // CARC_H_INCLUDED #define _i_prefix carc_ diff --git a/include/stc/cbox.h b/include/stc/cbox.h index 699b32ac..d7f6246d 100644 --- a/include/stc/cbox.h +++ b/include/stc/cbox.h @@ -57,15 +57,16 @@ int main() { } } */ -#include "ccommon.h" +#include "priv/linkage.h" #ifndef CBOX_H_INCLUDED #define CBOX_H_INCLUDED +#include "ccommon.h" #include "forward.h" #include #include -#define cbox_NULL {NULL} +#define cbox_null {0} #endif // CBOX_H_INCLUDED #define _i_prefix cbox_ diff --git a/include/stc/ccommon.h b/include/stc/ccommon.h index e491a567..5f280218 100644 --- a/include/stc/ccommon.h +++ b/include/stc/ccommon.h @@ -117,10 +117,6 @@ /* Function macros and others */ -#define c_init(C, ...) \ - C##_from_n((C##_raw[])__VA_ARGS__, c_sizeof((C##_raw[])__VA_ARGS__)/c_sizeof(C##_raw)) -#define c_make(C, ...) c_init(C, __VA_ARGS__) // [deprecated] - #define c_litstrlen(literal) (c_sizeof("" literal) - 1) #define c_arraylen(a) (intptr_t)(sizeof(a)/sizeof 0[a]) @@ -210,16 +206,23 @@ STC_INLINE intptr_t cnextpow2(intptr_t n) { ; (_inc > 0) ^ (i > _end); i += _inc) #ifndef __cplusplus + #define c_init(C, ...) \ + C##_from_n((C##_raw[])__VA_ARGS__, c_sizeof((C##_raw[])__VA_ARGS__)/c_sizeof(C##_raw)) #define c_forlist(it, T, ...) \ - for (struct {T* ref; int size, index;} \ - it = {.ref=(T[])__VA_ARGS__, .size=(int)(sizeof((T[])__VA_ARGS__)/sizeof(T))} \ - ; it.index < it.size; ++it.ref, ++it.index) + for (struct {T* ref; int size, index;} \ + it = {.ref=(T[])__VA_ARGS__, .size=(int)(sizeof((T[])__VA_ARGS__)/sizeof(T))} \ + ; it.index < it.size; ++it.ref, ++it.index) #else - #include - #define c_forlist(it, T, ...) \ - for (struct {std::initializer_list _il; std::initializer_list::iterator ref; size_t size, index;} \ - it = {._il=__VA_ARGS__, .ref=it._il.begin(), .size=it._il.size()} \ - ; it.index < it.size; ++it.ref, ++it.index) + #include + template + inline C _from_n(C (*func)(const T[], intptr_t), std::initializer_list il) + { return func(&*il.begin(), il.size()); } + + #define c_init(C, ...) _from_n(C##_from_n, __VA_ARGS__) + #define c_forlist(it, T, ...) \ + for (struct {std::initializer_list _il; std::initializer_list::iterator ref; size_t size, index;} \ + it = {._il=__VA_ARGS__, .ref=it._il.begin(), .size=it._il.size()} \ + ; it.index < it.size; ++it.ref, ++it.index) #endif #define c_drop(C, ...) \ @@ -236,23 +239,9 @@ STC_INLINE intptr_t cnextpow2(intptr_t n) { #define c_umul128(a, b, lo, hi) \ asm("mulq %3" : "=a"(*(lo)), "=d"(*(hi)) : "a"(a), "rm"(b)) #endif -#endif // CCOMMON_H_INCLUDED -#undef STC_API -#undef STC_DEF - -#ifdef i_extern -# define i_import -#endif -#if !defined(i_static) && !defined(STC_STATIC) && (defined(i_header) || defined(STC_HEADER) || \ - defined(i_implement) || defined(STC_IMPLEMENT)) - #define STC_API extern - #define STC_DEF -#else - #define i_static - #define STC_API static inline - #define STC_DEF static inline -#endif -#if defined(STC_IMPLEMENT) || defined(i_import) - #define i_implement -#endif +// [deprecated]: +#define c_make(...) c_init(__VA_ARGS__) +#define cspan_make(...) cspan_init(__VA_ARGS__) +#define crange_make(...) crange_init(__VA_ARGS__) +#endif // CCOMMON_H_INCLUDED diff --git a/include/stc/clist.h b/include/stc/clist.h index 310db204..4d05a3d1 100644 --- a/include/stc/clist.h +++ b/include/stc/clist.h @@ -51,9 +51,10 @@ } } */ -#include "ccommon.h" +#include "priv/linkage.h" #ifndef CLIST_H_INCLUDED +#include "ccommon.h" #include "forward.h" #include #include diff --git a/include/stc/cmap.h b/include/stc/cmap.h index f6c3eb07..2e234fb5 100644 --- a/include/stc/cmap.h +++ b/include/stc/cmap.h @@ -47,9 +47,10 @@ int main(void) { cmap_ichar_drop(&m); } */ -#include "ccommon.h" +#include "priv/linkage.h" #ifndef CMAP_H_INCLUDED +#include "ccommon.h" #include "forward.h" #include #include diff --git a/include/stc/cpque.h b/include/stc/cpque.h index 31a53ece..b66c7735 100644 --- a/include/stc/cpque.h +++ b/include/stc/cpque.h @@ -20,9 +20,10 @@ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ -#include "ccommon.h" +#include "priv/linkage.h" #ifndef CPQUE_H_INCLUDED +#include "ccommon.h" #include #include "forward.h" #endif diff --git a/include/stc/cqueue.h b/include/stc/cqueue.h index 28515877..3adc1bcb 100644 --- a/include/stc/cqueue.h +++ b/include/stc/cqueue.h @@ -20,9 +20,10 @@ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ -#include "ccommon.h" +#include "priv/linkage.h" #ifndef CQUEUE_H_INCLUDED +#include "ccommon.h" #include "forward.h" #include #include diff --git a/include/stc/crand.h b/include/stc/crand.h index 95a65fb0..89b681cd 100644 --- a/include/stc/crand.h +++ b/include/stc/crand.h @@ -20,10 +20,11 @@ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ -#include "ccommon.h" +#include "priv/linkage.h" #ifndef CRAND_H_INCLUDED #define CRAND_H_INCLUDED +#include "ccommon.h" /* // crand: Pseudo-random number generator #include "stc/crand.h" diff --git a/include/stc/cregex.h b/include/stc/cregex.h index 43a7fcbf..1d1d441f 100644 --- a/include/stc/cregex.h +++ b/include/stc/cregex.h @@ -22,6 +22,8 @@ LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ +#include "priv/linkage.h" + #ifndef CREGEX_H_INCLUDED #define CREGEX_H_INCLUDED /* @@ -157,6 +159,7 @@ cstr cregex_replace_pattern_6(const char* pattern, const char* input, const char /* destroy regex */ void cregex_drop(cregex* re); +#endif // CREGEX_H_INCLUDED #if defined i_implement # include "../../src/cregex.c" @@ -164,7 +167,6 @@ void cregex_drop(cregex* re); #if defined i_import # include "../../src/utf8code.c" #endif -#endif // CREGEX_H_INCLUDED #undef i_opt #undef i_header #undef i_static diff --git a/include/stc/csmap.h b/include/stc/csmap.h index 7638b8f2..28598f0a 100644 --- a/include/stc/csmap.h +++ b/include/stc/csmap.h @@ -49,9 +49,10 @@ int main(void) { csmap_sx_drop(&m); } */ -#include "ccommon.h" +#include "priv/linkage.h" #ifndef CSMAP_H_INCLUDED +#include "ccommon.h" #include "forward.h" #include #include diff --git a/include/stc/cspan.h b/include/stc/cspan.h index dd6cb1c0..d7a72267 100644 --- a/include/stc/cspan.h +++ b/include/stc/cspan.h @@ -60,6 +60,7 @@ int demo2() { #ifndef STC_CSPAN_H_INCLUDED #define STC_CSPAN_H_INCLUDED +#include "priv/linkage.h" #include "ccommon.h" #define using_cspan(...) c_MACRO_OVERLOAD(using_cspan, __VA_ARGS__) @@ -80,7 +81,7 @@ int demo2() { return (Self){.data=raw, .shape={(int32_t)n}}; \ } \ STC_INLINE Self Self##_slice_(Self##_value* v, const int32_t shape[], const int32_t stri[], \ - const int rank, const int32_t a[][2]) { \ + const int rank, const int32_t a[][2]) { \ Self s = {.data=v}; int outrank; \ s.data += _cspan_slice(s.shape, s.stride.d, &outrank, shape, stri, rank, a); \ c_ASSERT(outrank == RANK); \ @@ -115,8 +116,8 @@ typedef struct { int32_t d[6]; } cspan_idx6; #define cspan_md(array, ...) \ {.data=array, .shape={__VA_ARGS__}, .stride={.d={__VA_ARGS__}}} -/* For static initialization, use cspan_make(). c_init() for non-static only. */ -#define cspan_make(SpanType, ...) \ +/* For static initialization, use cspan_init(). c_init() for non-static only. */ +#define cspan_init(SpanType, ...) \ {.data=(SpanType##_value[])__VA_ARGS__, .shape={sizeof((SpanType##_value[])__VA_ARGS__)/sizeof(SpanType##_value)}} #define cspan_slice(OutSpan, parent, ...) \ @@ -210,6 +211,7 @@ STC_API intptr_t _cspan_next2(int rank, int32_t pos[], const int32_t shape[], co STC_API intptr_t _cspan_slice(int32_t odim[], int32_t ostri[], int* orank, const int32_t shape[], const int32_t stri[], int rank, const int32_t a[][2]); +#endif // STC_CSPAN_H_INCLUDED /* -------------------------- IMPLEMENTATION ------------------------- */ #if defined(i_implement) || defined(i_static) @@ -260,7 +262,6 @@ STC_DEF intptr_t _cspan_slice(int32_t odim[], int32_t ostri[], int* orank, return off; } #endif -#endif #undef i_opt #undef i_header #undef i_implement diff --git a/include/stc/cstack.h b/include/stc/cstack.h index fa0fab2b..fb4eae4b 100644 --- a/include/stc/cstack.h +++ b/include/stc/cstack.h @@ -20,10 +20,11 @@ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ -#include "ccommon.h" +#include "priv/linkage.h" #ifndef CSTACK_H_INCLUDED #define CSTACK_H_INCLUDED +#include "ccommon.h" #include #include "forward.h" #endif // CSTACK_H_INCLUDED diff --git a/include/stc/cstr.h b/include/stc/cstr.h index 0c5b67d8..bdfee39b 100644 --- a/include/stc/cstr.h +++ b/include/stc/cstr.h @@ -24,7 +24,7 @@ /* A string type with short string optimization in C99 with good small-string * optimization (22 characters with 24 bytes string). */ -#define _i_no_undef +#define _i_nested #include "utf8.h" #ifndef CSTR_H_INCLUDED @@ -67,7 +67,7 @@ extern char* _cstr_internal_move(cstr* self, intptr_t pos1, intptr_t pos2); /**************************** PUBLIC API **********************************/ #define cstr_lit(literal) cstr_from_n(literal, c_litstrlen(literal)) -#define cstr_NULL (c_LITERAL(cstr){{{0}, 0}}) +#define cstr_null (c_LITERAL(cstr){0}) #define cstr_toraw(self) cstr_str(self) extern char* cstr_reserve(cstr* self, intptr_t cap); @@ -97,7 +97,7 @@ STC_INLINE csview cstr_sv(const cstr* s) { } STC_INLINE cstr cstr_init(void) - { return cstr_NULL; } + { return cstr_null; } STC_INLINE cstr cstr_from_n(const char* str, const intptr_t len) { cstr s; @@ -132,7 +132,7 @@ STC_INLINE cstr* cstr_take(cstr* self, const cstr s) { STC_INLINE cstr cstr_move(cstr* self) { cstr tmp = *self; - *self = cstr_NULL; + *self = cstr_null; return tmp; } @@ -440,8 +440,8 @@ cstr cstr_tocase(csview sv, int k) { #endif // i_import /* -------------------------- IMPLEMENTATION ------------------------- */ +#if defined i_import || (defined i_implement && !defined _i_nested) #ifndef CSTR_C_INCLUDED -#if defined i_import || (defined i_implement && !defined _i_no_undef) #define CSTR_C_INCLUDED uint64_t cstr_hash(const cstr *self) { @@ -573,7 +573,7 @@ bool cstr_getdelim(cstr *self, const int delim, FILE *fp) { cstr cstr_replace_sv(csview in, csview search, csview repl, int32_t count) { - cstr out = cstr_NULL; + cstr out = cstr_null; intptr_t from = 0; char* res; if (!count) count = INT32_MAX; if (search.size) @@ -625,7 +625,7 @@ intptr_t cstr_vfmt(cstr* self, intptr_t start, const char* fmt, va_list args) { #endif cstr cstr_from_fmt(const char* fmt, ...) { - cstr s = cstr_NULL; + cstr s = cstr_null; va_list args; va_start(args, fmt); cstr_vfmt(&s, 0, fmt, args); @@ -649,17 +649,17 @@ intptr_t cstr_printf(cstr* self, const char* fmt, ...) { va_end(args); return n; } -#endif // i_implement #endif // CSTR_C_INCLUDED +#endif // i_implement #if defined __GNUC__ && !defined __clang__ # pragma GCC diagnostic pop #endif -#ifndef _i_no_undef +#ifndef _i_nested #undef i_opt #undef i_header #undef i_static #undef i_implement #undef i_import #endif -#undef _i_no_undef +#undef _i_nested diff --git a/include/stc/csview.h b/include/stc/csview.h index a1893063..c16f58bc 100644 --- a/include/stc/csview.h +++ b/include/stc/csview.h @@ -20,14 +20,14 @@ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ -#define _i_no_undef +#define _i_nested #include "utf8.h" #ifndef CSVIEW_H_INCLUDED #define CSVIEW_H_INCLUDED -#define csview_NULL c_sv_1("") -#define csview_init() csview_NULL +#define csview_null c_sv_1("") +#define csview_init() csview_null #define csview_drop(p) c_default_drop(p) #define csview_clone(sv) c_default_clone(sv) #define csview_lit(literal) c_sv_1(literal) @@ -42,7 +42,7 @@ extern csview csview_token(csview sv, const char* sep, intptr_t* start); STC_INLINE csview csview_from(const char* str) { return c_LITERAL(csview){str, c_strlen(str)}; } -STC_INLINE void csview_clear(csview* self) { *self = csview_NULL; } +STC_INLINE void csview_clear(csview* self) { *self = csview_null; } STC_INLINE intptr_t csview_size(csview sv) { return sv.size; } STC_INLINE bool csview_empty(csview sv) { return sv.size == 0; } @@ -150,8 +150,8 @@ STC_INLINE csview cstr_u8_substr(const cstr* self , intptr_t bytepos, intptr_t u #endif /* -------------------------- IMPLEMENTATION ------------------------- */ +#if defined i_import || (defined i_implement && !defined _i_nested) #ifndef CSVIEW_C_INCLUDED -#if defined i_import || (defined i_implement && !defined _i_no_undef) #define CSVIEW_C_INCLUDED csview_iter csview_advance(csview_iter it, intptr_t pos) { @@ -201,13 +201,13 @@ csview csview_token(csview sv, const char* sep, intptr_t* start) { *start += tok.size + sep_size; return tok; } -#endif -#endif -#ifndef _i_no_undef +#endif // CSVIEW_C_INCLUDED +#endif // i_implement +#ifndef _i_nested #undef i_static #undef i_header #undef i_implement #undef i_import #undef i_opt #endif -#undef _i_no_undef +#undef _i_nested diff --git a/include/stc/cvec.h b/include/stc/cvec.h index 747c654d..874f4f47 100644 --- a/include/stc/cvec.h +++ b/include/stc/cvec.h @@ -58,9 +58,10 @@ int main() { cvec_str_drop(&svec); } */ -#include "ccommon.h" +#include "priv/linkage.h" #ifndef CVEC_H_INCLUDED +#include "ccommon.h" #include "forward.h" #include #include diff --git a/include/stc/priv/linkage.h b/include/stc/priv/linkage.h new file mode 100644 index 00000000..7f63f5f1 --- /dev/null +++ b/include/stc/priv/linkage.h @@ -0,0 +1,40 @@ +/* MIT License + * + * Copyright (c) 2023 Tyge Løvset + * + * Permission is hereby granted, free of charge, to any person obtaining a copy + * of this software and associated documentation files (the "Software"), to deal + * in the Software without restriction, including without limitation the rights + * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell + * copies of the Software, and to permit persons to whom the Software is + * furnished to do so, subject to the following conditions: + * + * The above copyright notice and this permission notice shall be included in all + * copies or substantial portions of the Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE + * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, + * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE + * SOFTWARE. + */ +#undef STC_API +#undef STC_DEF + +#ifdef i_extern // [deprecated] +# define i_import +#endif +#if !defined(i_static) && !defined(STC_STATIC) && (defined(i_header) || defined(STC_HEADER) || \ + defined(i_implement) || defined(STC_IMPLEMENT)) + #define STC_API extern + #define STC_DEF +#else + #define i_static + #define STC_API static inline + #define STC_DEF static inline +#endif +#if defined(STC_IMPLEMENT) || defined(i_import) + #define i_implement +#endif diff --git a/include/stc/utf8.h b/include/stc/utf8.h index d6c759eb..190cc7f3 100644 --- a/include/stc/utf8.h +++ b/include/stc/utf8.h @@ -1,9 +1,31 @@ - -#include "ccommon.h" +/* MIT License + * + * Copyright (c) 2023 Tyge Løvset + * + * Permission is hereby granted, free of charge, to any person obtaining a copy + * of this software and associated documentation files (the "Software"), to deal + * in the Software without restriction, including without limitation the rights + * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell + * copies of the Software, and to permit persons to whom the Software is + * furnished to do so, subject to the following conditions: + * + * The above copyright notice and this permission notice shall be included in all + * copies or substantial portions of the Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE + * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, + * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE + * SOFTWARE. + */ +#include "priv/linkage.h" #ifndef UTF8_H_INCLUDED #define UTF8_H_INCLUDED +#include "ccommon.h" #include #include "forward.h" @@ -53,9 +75,9 @@ STC_INLINE bool utf8_isspace(uint32_t c) { /* decode next utf8 codepoint. https://bjoern.hoehrmann.de/utf-8/decoder/dfa */ typedef struct { uint32_t state, codep; } utf8_decode_t; +extern const uint8_t utf8_dtab[]; /* utf8code.c */ STC_INLINE uint32_t utf8_decode(utf8_decode_t* d, const uint32_t byte) { - extern const uint8_t utf8_dtab[]; /* utf8code.c */ const uint32_t type = utf8_dtab[byte]; d->codep = d->state ? (byte & 0x3fu) | (d->codep << 6) : (0xffU >> type) & byte; @@ -116,14 +138,14 @@ STC_INLINE intptr_t utf8_pos(const char* s, intptr_t index) { return (intptr_t)(utf8_at(s, index) - s); } #endif // UTF8_H_INCLUDED -#if defined i_import || (defined i_implement && !defined _i_no_undef) +#if defined i_import || (defined i_implement && !defined _i_nested) # include "../../src/utf8code.c" #endif -#ifndef _i_no_undef +#ifndef _i_nested #undef i_static #undef i_header #undef i_implement #undef i_import #undef i_opt #endif -#undef _i_no_undef +#undef _i_nested diff --git a/misc/examples/astar.c b/misc/examples/astar.c index db6bbd70..1b3876aa 100644 --- a/misc/examples/astar.c +++ b/misc/examples/astar.c @@ -21,7 +21,7 @@ point; point point_init(int x, int y, int width) { - return (point) { x, y, 0, width }; + return c_LITERAL(point){ x, y, 0, width }; } int diff --git a/misc/examples/box.c b/misc/examples/box.c index e352aa2b..a9131afa 100644 --- a/misc/examples/box.c +++ b/misc/examples/box.c @@ -5,7 +5,7 @@ typedef struct { cstr name, last; } Person; Person Person_make(const char* name, const char* last) { - return (Person){.name = cstr_from(name), .last = cstr_from(last)}; + return c_LITERAL(Person){.name = cstr_from(name), .last = cstr_from(last)}; } uint64_t Person_hash(const Person* a) { diff --git a/misc/examples/box2.c b/misc/examples/box2.c index 33212ef4..963a3815 100644 --- a/misc/examples/box2.c +++ b/misc/examples/box2.c @@ -29,12 +29,12 @@ typedef struct { #include // BoxBoxPoint Point origin(void) { - return (Point){ .x=1.0, .y=2.0 }; + return c_LITERAL(Point){ .x=1.0, .y=2.0 }; } cbox_Point boxed_origin(void) { // Allocate this point on the heap, and return a pointer to it - return cbox_Point_make((Point){ .x=1.0, .y=2.0 }); + return cbox_Point_make(c_LITERAL(Point){ .x=1.0, .y=2.0 }); } @@ -47,7 +47,7 @@ int main(void) { }; // Heap allocated rectangle - cbox_Rectangle boxed_rectangle = cbox_Rectangle_make((Rectangle){ + cbox_Rectangle boxed_rectangle = cbox_Rectangle_make(c_LITERAL(Rectangle){ .top_left = origin(), .bottom_right = { .x=3.0, .y=-4.0 } }); diff --git a/misc/examples/csmap_find.c b/misc/examples/csmap_find.c index a8928410..c123e398 100644 --- a/misc/examples/csmap_find.c +++ b/misc/examples/csmap_find.c @@ -50,12 +50,12 @@ int main() print_collection_csmap_istr(&m1); typedef cvec_istr_value pair; - cvec_istr_push(&v, (pair){43, "Tc"}); - cvec_istr_push(&v, (pair){41, "Nb"}); - cvec_istr_push(&v, (pair){46, "Pd"}); - cvec_istr_push(&v, (pair){42, "Mo"}); - cvec_istr_push(&v, (pair){44, "Ru"}); - cvec_istr_push(&v, (pair){44, "Ru"}); // attempt a duplicate + cvec_istr_push(&v, c_LITERAL(pair){43, "Tc"}); + cvec_istr_push(&v, c_LITERAL(pair){41, "Nb"}); + cvec_istr_push(&v, c_LITERAL(pair){46, "Pd"}); + cvec_istr_push(&v, c_LITERAL(pair){42, "Mo"}); + cvec_istr_push(&v, c_LITERAL(pair){44, "Ru"}); + cvec_istr_push(&v, c_LITERAL(pair){44, "Ru"}); // attempt a duplicate puts("Inserting the following vector data into m1:"); print_collection_cvec_istr(&v); diff --git a/misc/examples/csmap_insert.c b/misc/examples/csmap_insert.c index f96cc08f..18a88ec3 100644 --- a/misc/examples/csmap_insert.c +++ b/misc/examples/csmap_insert.c @@ -34,7 +34,7 @@ int main() // insert single values csmap_ii m1 = {0}; csmap_ii_insert(&m1, 1, 10); - csmap_ii_push(&m1, (csmap_ii_value){2, 20}); + csmap_ii_push(&m1, c_LITERAL(csmap_ii_value){2, 20}); puts("The original key and mapped values of m1 are:"); print_ii(m1); @@ -61,11 +61,11 @@ int main() csmap_ii m2 = {0}; cvec_ii v = {0}; typedef cvec_ii_value ipair; - cvec_ii_push(&v, (ipair){43, 294}); - cvec_ii_push(&v, (ipair){41, 262}); - cvec_ii_push(&v, (ipair){45, 330}); - cvec_ii_push(&v, (ipair){42, 277}); - cvec_ii_push(&v, (ipair){44, 311}); + cvec_ii_push(&v, c_LITERAL(ipair){43, 294}); + cvec_ii_push(&v, c_LITERAL(ipair){41, 262}); + cvec_ii_push(&v, c_LITERAL(ipair){45, 330}); + cvec_ii_push(&v, c_LITERAL(ipair){42, 277}); + cvec_ii_push(&v, c_LITERAL(ipair){44, 311}); puts("Inserting the following vector data into m2:"); c_foreach (e, cvec_ii, v) diff --git a/misc/examples/dining_philosophers.c b/misc/examples/dining_philosophers.c index f9c05e71..e13eb055 100644 --- a/misc/examples/dining_philosophers.c +++ b/misc/examples/dining_philosophers.c @@ -29,9 +29,10 @@ struct Dining { // Philosopher coroutine void philosopher(struct Philosopher* p) { + double duration; cco_routine(p) { while (1) { - double duration = 1.0 + crandf()*2.0; + duration = 1.0 + crandf()*2.0; printf("Philosopher %d is thinking for %.0f minutes...\n", p->id, duration*10); cco_timer_await(&p->tm, duration); @@ -46,7 +47,7 @@ void philosopher(struct Philosopher* p) cco_sem_release(p->left_fork); cco_sem_release(p->right_fork); } - + cco_final: printf("Philosopher %d finished\n", p->id); } diff --git a/misc/examples/forfilter.c b/misc/examples/forfilter.c index 94a84065..d39693b5 100644 --- a/misc/examples/forfilter.c +++ b/misc/examples/forfilter.c @@ -55,7 +55,8 @@ fn main() { void demo2(void) { IVec vector = {0}; - c_forfilter (x, crange, crange_obj(INT64_MAX), + crange r = crange_init(INT64_MAX); + c_forfilter (x, crange, r, c_flt_skipwhile(x, *x.ref != 11) && (*x.ref % 2) != 0 && c_flt_take(x, 5) @@ -124,7 +125,7 @@ void demo5(void) { #define flt_even(i) ((*i.ref & 1) == 0) #define flt_mid_decade(i) ((*i.ref % 10) != 0) - crange R = crange_make(1963, INT32_MAX); + crange R = crange_init(1963, INT32_MAX); c_forfilter (i, crange, R, c_flt_skip(i,15) && diff --git a/misc/examples/make.sh b/misc/examples/make.sh index 61d9f879..cf224950 100755 --- a/misc/examples/make.sh +++ b/misc/examples/make.sh @@ -7,13 +7,13 @@ if [ "$(uname)" = 'Linux' ]; then fi cc=gcc; cflags="-std=c99 -s -O3 -Wall -Wextra -Wpedantic -Wconversion -Wwrite-strings -Wdouble-promotion -Wno-unused-parameter -Wno-maybe-uninitialized -Wno-implicit-fallthrough -Wno-missing-field-initializers" -#cc=gcc; cflags="-DSTC_STATIC -std=c99 -g -Werror -Wfatal-errors -Wpedantic -Wall $sanitize" -#cc=tcc; cflags="-DSTC_STATIC -std=c99 -Wall" -#cc=clang; cflags="-DSTC_STATIC -std=c99 -s -O3 -Wall -Wextra -Wpedantic -Wconversion -Wwrite-strings -Wdouble-promotion -Wno-unused-parameter -Wno-unused-function -Wno-implicit-fallthrough -Wno-missing-field-initializers" -#cc=gcc; cflags="-DSTC_STATIC -x c++ -std=c++20 -O2 -s -Wall" -#cc=cl; cflags="-DSTC_STATIC -nologo -O2 -MD -W3 -wd4003" -#cc=cl; cflags="-DSTC_STATIC -nologo -TP -wd4003" -#cc=cl; cflags="-DSTC_STATIC -nologo -std:c11 -wd4003" +#cc=gcc; cflags="-std=c99 -g -Werror -Wfatal-errors -Wpedantic -Wall $sanitize" +#cc=tcc; cflags="-std=c99 -Wall" +#cc=clang; cflags="-std=c99 -s -O3 -Wall -Wextra -Wpedantic -Wconversion -Wwrite-strings -Wdouble-promotion -Wno-unused-parameter -Wno-unused-function -Wno-implicit-fallthrough -Wno-missing-field-initializers" +#cc=gcc; cflags="-x c++ -std=c++20 -O2 -s -Wall" +#cc=cl; cflags="-nologo -O2 -MD -W3 -wd4003" +#cc=cl; cflags="-nologo -TP -std:c++20 -wd4003" +#cc=cl; cflags="-nologo -std:c11 -wd4003" if [ "$cc" = "cl" ]; then oflag='/Fe:' diff --git a/misc/examples/music_arc.c b/misc/examples/music_arc.c index 9c7173ef..18ea30c0 100644 --- a/misc/examples/music_arc.c +++ b/misc/examples/music_arc.c @@ -13,7 +13,7 @@ int Song_cmp(const Song* x, const Song* y) { return cstr_cmp(&x->title, &y->title); } Song Song_make(const char* artist, const char* title) - { return (Song){cstr_from(artist), cstr_from(title)}; } + { return c_LITERAL(Song){cstr_from(artist), cstr_from(title)}; } void Song_drop(Song* s) { printf("drop: %s\n", cstr_str(&s->title)); diff --git a/misc/examples/new_list.c b/misc/examples/new_list.c index 993f1aac..382943bb 100644 --- a/misc/examples/new_list.c +++ b/misc/examples/new_list.c @@ -45,7 +45,7 @@ int main() { MyStruct my = {0}; clist_i32_push_back(&my.intlst, 123); - clist_pnt_push_back(&my.pntlst, (Point){123, 456}); + clist_pnt_push_back(&my.pntlst, c_LITERAL(Point){123, 456}); MyStruct_drop(&my); clist_pnt plst = c_init(clist_pnt, {{42, 14}, {32, 94}, {62, 81}}); diff --git a/misc/examples/new_sptr.c b/misc/examples/new_sptr.c index aa8dd175..36a61f9c 100644 --- a/misc/examples/new_sptr.c +++ b/misc/examples/new_sptr.c @@ -30,7 +30,8 @@ uint64_t Person_hash(const Person* p); Person Person_make(const char* name, const char* last) { - return (Person){.name = cstr_from(name), .last = cstr_from(last)}; + Person p = {.name = cstr_from(name), .last = cstr_from(last)}; + return p; } int Person_cmp(const Person* a, const Person* b) { diff --git a/misc/examples/new_vec.c b/misc/examples/new_vec.c index d4b66883..e10910d9 100644 --- a/misc/examples/new_vec.c +++ b/misc/examples/new_vec.c @@ -26,10 +26,10 @@ int main() { MyStruct my = {0}; - cvec_pnt_push(&my.pntvec, (Point){42, 14}); - cvec_pnt_push(&my.pntvec, (Point){32, 94}); - cvec_pnt_push(&my.pntvec, (Point){62, 81}); - cvec_pnt_push(&my.pntvec, (Point){32, 91}); + cvec_pnt_push(&my.pntvec, c_LITERAL(Point){42, 14}); + cvec_pnt_push(&my.pntvec, c_LITERAL(Point){32, 94}); + cvec_pnt_push(&my.pntvec, c_LITERAL(Point){62, 81}); + cvec_pnt_push(&my.pntvec, c_LITERAL(Point){32, 91}); cvec_pnt_sort(&my.pntvec); diff --git a/misc/examples/person_arc.c b/misc/examples/person_arc.c index b4b926da..3614c02d 100644 --- a/misc/examples/person_arc.c +++ b/misc/examples/person_arc.c @@ -6,7 +6,8 @@ typedef struct { cstr name, last; } Person; Person Person_make(const char* name, const char* last) { - return (Person){.name = cstr_from(name), .last = cstr_from(last)}; + Person p = {.name = cstr_from(name), .last = cstr_from(last)}; + return p; } int Person_cmp(const Person* a, const Person* b) { diff --git a/misc/examples/prime.c b/misc/examples/prime.c index cb0f8926..34fa144c 100644 --- a/misc/examples/prime.c +++ b/misc/examples/prime.c @@ -41,7 +41,9 @@ int main(void) puts("\n"); puts("Show the last 50 primes using a temporary crange generator:"); - c_forfilter (i, crange, crange_obj(n - 1, 0, -2), + crange range = crange_init(n - 1, 0, -2); + + c_forfilter (i, crange, range, cbits_test(&primes, *i.ref/2) && c_flt_take(i, 50) ){ diff --git a/misc/examples/printspan.c b/misc/examples/printspan.c index b5099ed5..7564bd88 100644 --- a/misc/examples/printspan.c +++ b/misc/examples/printspan.c @@ -22,22 +22,22 @@ void printMe(intspan container) { int main() { - intspan sp1 = cspan_make(intspan, {1, 2}); + intspan sp1 = cspan_init(intspan, {1, 2}); printMe( sp1 ); printMe( c_init(intspan, {1, 2, 3}) ); int arr[] = {1, 2, 3, 4, 5, 6}; intspan sp2 = cspan_from_array(arr); - printMe( (intspan)cspan_subspan(&sp2, 1, 4) ); + printMe( c_LITERAL(intspan)cspan_subspan(&sp2, 1, 4) ); cvec_int vec = c_init(cvec_int, {1, 2, 3, 4, 5}); - printMe( (intspan)cspan_from(&vec) ); + printMe( c_LITERAL(intspan)cspan_from(&vec) ); printMe( sp2 ); cstack_int stk = c_init(cstack_int, {1, 2, 3, 4, 5, 6, 7}); - printMe( (intspan)cspan_from(&stk) ); + printMe( c_LITERAL(intspan)cspan_from(&stk) ); csset_str set = c_init(csset_str, {"5", "7", "4", "3", "8", "2", "1", "9", "6"}); printf("%d:", (int)csset_str_size(&set)); diff --git a/misc/examples/read.c b/misc/examples/read.c index 545d706a..3c1cadf6 100644 --- a/misc/examples/read.c +++ b/misc/examples/read.c @@ -9,7 +9,7 @@ cvec_str read_file(const char* name) { cvec_str vec = cvec_str_init(); c_with (FILE* f = fopen(name, "r"), fclose(f)) - c_with (cstr line = cstr_NULL, cstr_drop(&line)) + c_with (cstr line = cstr_null, cstr_drop(&line)) while (cstr_getline(&line, f)) cvec_str_push(&vec, cstr_clone(line)); return vec; diff --git a/misc/examples/shape.c b/misc/examples/shape.c index 22e993db..1d9fe5c5 100644 --- a/misc/examples/shape.c +++ b/misc/examples/shape.c @@ -137,7 +137,7 @@ int main(void) { Shapes shapes = {0}; - Triangle* tri1 = c_new(Triangle, Triangle_from((Point){5, 7}, (Point){12, 7}, (Point){12, 20})); + Triangle* tri1 = c_new(Triangle, Triangle_from(c_LITERAL(Point){5, 7}, c_LITERAL(Point){12, 7}, c_LITERAL(Point){12, 20})); Polygon* pol1 = c_new(Polygon, Polygon_init()); Polygon* pol2 = c_new(Polygon, Polygon_init()); diff --git a/misc/examples/vikings.c b/misc/examples/vikings.c index cf087119..d9024052 100644 --- a/misc/examples/vikings.c +++ b/misc/examples/vikings.c @@ -44,12 +44,12 @@ static inline RViking Viking_toraw(const Viking* vp) { int main() { Vikings vikings = {0}; - Vikings_emplace(&vikings, (RViking){"Einar", "Norway"}, 20); - Vikings_emplace(&vikings, (RViking){"Olaf", "Denmark"}, 24); - Vikings_emplace(&vikings, (RViking){"Harald", "Iceland"}, 12); - Vikings_emplace(&vikings, (RViking){"Björn", "Sweden"}, 10); + Vikings_emplace(&vikings, c_LITERAL(RViking){"Einar", "Norway"}, 20); + Vikings_emplace(&vikings, c_LITERAL(RViking){"Olaf", "Denmark"}, 24); + Vikings_emplace(&vikings, c_LITERAL(RViking){"Harald", "Iceland"}, 12); + Vikings_emplace(&vikings, c_LITERAL(RViking){"Björn", "Sweden"}, 10); - Vikings_value* v = Vikings_get_mut(&vikings, (RViking){"Einar", "Norway"}); + Vikings_value* v = Vikings_get_mut(&vikings, c_LITERAL(RViking){"Einar", "Norway"}); v->second += 3; // add 3 hp points to Einar c_forpair (vk, hp, Vikings, vikings) { diff --git a/src/cregex.c b/src/cregex.c index 1af719b4..9b7179b6 100644 --- a/src/cregex.c +++ b/src/cregex.c @@ -28,20 +28,20 @@ THE SOFTWARE. #include #ifdef i_import -# define _i_extern +# define _i_import #endif #ifndef CREGEX_H_INCLUDED # include "../include/stc/cregex.h" #endif -#ifdef _i_extern +#ifdef _i_import # include "utf8code.c" #endif -#ifdef _i_extern +#ifdef _i_import # define i_implement #else # undef i_implement #endif -#undef _i_extern +#undef _i_import #include "../include/stc/cstr.h" typedef uint32_t _Rune; /* Utf8 code point */ @@ -944,14 +944,14 @@ _runematch(_Rune s, _Rune r) case ASC_LO: inv = 1; case ASC_lo: return inv ^ (islower((int)r) != 0); case ASC_UP: inv = 1; case ASC_up: return inv ^ (isupper((int)r) != 0); case ASC_XD: inv = 1; case ASC_xd: return inv ^ (isxdigit((int)r) != 0); - case UTF_AN: inv = 1; case UTF_an: return inv ^ utf8_isalnum(r); - case UTF_BL: inv = 1; case UTF_bl: return inv ^ utf8_isblank(r); - case UTF_SP: inv = 1; case UTF_sp: return inv ^ utf8_isspace(r); - case UTF_LL: inv = 1; case UTF_ll: return inv ^ utf8_islower(r); - case UTF_LU: inv = 1; case UTF_lu: return inv ^ utf8_isupper(r); - case UTF_LC: inv = 1; case UTF_lc: return inv ^ utf8_iscased(r); - case UTF_AL: inv = 1; case UTF_al: return inv ^ utf8_isalpha(r); - case UTF_WR: inv = 1; case UTF_wr: return inv ^ utf8_isword(r); + case UTF_AN: inv = 1; case UTF_an: return inv ^ (int)utf8_isalnum(r); + case UTF_BL: inv = 1; case UTF_bl: return inv ^ (int)utf8_isblank(r); + case UTF_SP: inv = 1; case UTF_sp: return inv ^ (int)utf8_isspace(r); + case UTF_LL: inv = 1; case UTF_ll: return inv ^ (int)utf8_islower(r); + case UTF_LU: inv = 1; case UTF_lu: return inv ^ (int)utf8_isupper(r); + case UTF_LC: inv = 1; case UTF_lc: return inv ^ (int)utf8_iscased(r); + case UTF_AL: inv = 1; case UTF_al: return inv ^ (int)utf8_isalpha(r); + case UTF_WR: inv = 1; case UTF_wr: return inv ^ (int)utf8_isword(r); case UTF_cc: case UTF_CC: case UTF_lt: case UTF_LT: case UTF_nd: case UTF_ND: @@ -972,7 +972,7 @@ _runematch(_Rune s, _Rune r) case UTF_latin: case UTF_LATIN: n = (int)s - UTF_GRP; inv = n & 1; - return inv ^ utf8_isgroup(n / 2, r); + return inv ^ (int)utf8_isgroup(n / 2, r); } return s == r; } @@ -1220,7 +1220,7 @@ _build_subst(const char* replace, int nmatch, const csview match[], cstr_buf buf = cstr_buffer(subst); intptr_t len = 0, cap = buf.cap; char* dst = buf.data; - cstr mstr = cstr_NULL; + cstr mstr = cstr_null; while (*replace != '\0') { if (*replace == '$') { @@ -1293,8 +1293,8 @@ cregex_find_pattern_4(const char* pattern, const char* input, cstr cregex_replace_sv_6(const cregex* re, csview input, const char* replace, int count, bool (*mfun)(int, csview, cstr*), int rflags) { - cstr out = cstr_NULL; - cstr subst = cstr_NULL; + cstr out = cstr_null; + cstr subst = cstr_null; csview match[CREG_MAX_CAPTURES]; int nmatch = cregex_captures(re) + 1; if (!count) count = INT32_MAX; diff --git a/src/utf8code.c b/src/utf8code.c index 6a133050..4abf10ea 100644 --- a/src/utf8code.c +++ b/src/utf8code.c @@ -461,28 +461,31 @@ static const URange16 Latin_range16[] = { #define UNI_ENTRY(Code) \ { Code##_range16, sizeof(Code##_range16)/sizeof(URange16) } -#ifndef __cplusplus +#ifdef __cplusplus +#define _e_arg(k, v) v +#else +#define _e_arg(k, v) [k] = v static #endif const UGroup _utf8_unicode_groups[U8G_SIZE] = { - [U8G_Cc] = UNI_ENTRY(Cc), - [U8G_Lt] = UNI_ENTRY(Lt), - [U8G_Nd] = UNI_ENTRY(Nd), - [U8G_Nl] = UNI_ENTRY(Nl), - [U8G_Pc] = UNI_ENTRY(Pc), - [U8G_Pd] = UNI_ENTRY(Pd), - [U8G_Pf] = UNI_ENTRY(Pf), - [U8G_Pi] = UNI_ENTRY(Pi), - [U8G_Sc] = UNI_ENTRY(Sc), - [U8G_Zl] = UNI_ENTRY(Zl), - [U8G_Zp] = UNI_ENTRY(Zp), - [U8G_Zs] = UNI_ENTRY(Zs), - [U8G_Arabic] = UNI_ENTRY(Arabic), - [U8G_Cyrillic] = UNI_ENTRY(Cyrillic), - [U8G_Devanagari] = UNI_ENTRY(Devanagari), - [U8G_Greek] = UNI_ENTRY(Greek), - [U8G_Han] = UNI_ENTRY(Han), - [U8G_Latin] = UNI_ENTRY(Latin), + _e_arg(U8G_Cc, UNI_ENTRY(Cc)), + _e_arg(U8G_Lt, UNI_ENTRY(Lt)), + _e_arg(U8G_Nd, UNI_ENTRY(Nd)), + _e_arg(U8G_Nl, UNI_ENTRY(Nl)), + _e_arg(U8G_Pc, UNI_ENTRY(Pc)), + _e_arg(U8G_Pd, UNI_ENTRY(Pd)), + _e_arg(U8G_Pf, UNI_ENTRY(Pf)), + _e_arg(U8G_Pi, UNI_ENTRY(Pi)), + _e_arg(U8G_Sc, UNI_ENTRY(Sc)), + _e_arg(U8G_Zl, UNI_ENTRY(Zl)), + _e_arg(U8G_Zp, UNI_ENTRY(Zp)), + _e_arg(U8G_Zs, UNI_ENTRY(Zs)), + _e_arg(U8G_Arabic, UNI_ENTRY(Arabic)), + _e_arg(U8G_Cyrillic, UNI_ENTRY(Cyrillic)), + _e_arg(U8G_Devanagari, UNI_ENTRY(Devanagari)), + _e_arg(U8G_Greek, UNI_ENTRY(Greek)), + _e_arg(U8G_Han, UNI_ENTRY(Han)), + _e_arg(U8G_Latin, UNI_ENTRY(Latin)), }; #endif -- cgit v1.2.3 From de4f8fa86f141dfeab15f5576029910474f56fa1 Mon Sep 17 00:00:00 2001 From: Tyge Løvset Date: Tue, 20 Jun 2023 15:28:02 +0200 Subject: Internal only: Renamed _cx_memb() macro to _cx_MEMB() Renamed _cx_self macro to _cx_Self --- include/stc/algo/sort.h | 14 +-- include/stc/carc.h | 76 ++++++------- include/stc/cbox.h | 74 ++++++------- include/stc/cdeq.h | 100 ++++++++--------- include/stc/clist.h | 212 +++++++++++++++++------------------ include/stc/cmap.h | 194 ++++++++++++++++---------------- include/stc/cpque.h | 84 +++++++------- include/stc/cqueue.h | 130 +++++++++++----------- include/stc/csmap.h | 264 ++++++++++++++++++++++---------------------- include/stc/cstack.h | 102 ++++++++--------- include/stc/cvec.h | 220 ++++++++++++++++++------------------ include/stc/extend.h | 2 +- include/stc/priv/template.h | 22 ++-- 13 files changed, 747 insertions(+), 747 deletions(-) (limited to 'include/stc/algo/sort.h') diff --git a/include/stc/algo/sort.h b/include/stc/algo/sort.h index 2e73b0fb..291d90a6 100644 --- a/include/stc/algo/sort.h +++ b/include/stc/algo/sort.h @@ -52,12 +52,12 @@ int main() { typedef i_val i_type; #endif #ifndef i_at - #define i_at(arr, idx) _cx_memb(_at_mut)(arr, idx) + #define i_at(arr, idx) _cx_MEMB(_at_mut)(arr, idx) #endif #include "../priv/template.h" -static inline void _cx_memb(_insertsort_ij)(_cx_self* arr, intptr_t lo, intptr_t hi) { +static inline void _cx_MEMB(_insertsort_ij)(_cx_Self* arr, intptr_t lo, intptr_t hi) { for (intptr_t j = lo, i = lo + 1; i <= hi; j = i, ++i) { i_val key = *i_at(arr, i); while (j >= 0 && (i_less((&key), i_at(arr, j)))) { @@ -68,7 +68,7 @@ static inline void _cx_memb(_insertsort_ij)(_cx_self* arr, intptr_t lo, intptr_t } } -static inline void _cx_memb(_sort_ij)(_cx_self* arr, intptr_t lo, intptr_t hi) { +static inline void _cx_MEMB(_sort_ij)(_cx_Self* arr, intptr_t lo, intptr_t hi) { intptr_t i = lo, j; while (lo < hi) { i_val pivot = *i_at(arr, lo + (hi - lo)*7/16); @@ -87,14 +87,14 @@ static inline void _cx_memb(_sort_ij)(_cx_self* arr, intptr_t lo, intptr_t hi) { c_swap(intptr_t, &hi, &j); } - if (j - lo > 64) _cx_memb(_sort_ij)(arr, lo, j); - else if (j > lo) _cx_memb(_insertsort_ij)(arr, lo, j); + if (j - lo > 64) _cx_MEMB(_sort_ij)(arr, lo, j); + else if (j > lo) _cx_MEMB(_insertsort_ij)(arr, lo, j); lo = i; } } -static inline void _cx_memb(_sort_n)(_cx_self* arr, intptr_t len) { - _cx_memb(_sort_ij)(arr, 0, len - 1); +static inline void _cx_MEMB(_sort_n)(_cx_Self* arr, intptr_t len) { + _cx_MEMB(_sort_ij)(arr, 0, len - 1); } #include "../priv/template2.h" diff --git a/include/stc/carc.h b/include/stc/carc.h index 749b1fc1..3b60fe78 100644 --- a/include/stc/carc.h +++ b/include/stc/carc.h @@ -91,119 +91,119 @@ typedef i_keyraw _cx_raw; #define _i_atomic_dec_and_test(v) !(--*(v)) #endif #ifndef i_is_forward -_cx_deftypes(_c_carc_types, _cx_self, i_key); +_cx_DEFTYPES(_c_carc_types, _cx_Self, i_key); #endif -struct _cx_memb(_rep_) { catomic_long counter; i_key value; }; +struct _cx_MEMB(_rep_) { catomic_long counter; i_key value; }; -STC_INLINE _cx_self _cx_memb(_init)(void) - { return c_LITERAL(_cx_self){NULL, NULL}; } +STC_INLINE _cx_Self _cx_MEMB(_init)(void) + { return c_LITERAL(_cx_Self){NULL, NULL}; } -STC_INLINE long _cx_memb(_use_count)(const _cx_self* self) +STC_INLINE long _cx_MEMB(_use_count)(const _cx_Self* self) { return self->use_count ? *self->use_count : 0; } -STC_INLINE _cx_self _cx_memb(_from_ptr)(_cx_value* p) { - _cx_self ptr = {p}; +STC_INLINE _cx_Self _cx_MEMB(_from_ptr)(_cx_value* p) { + _cx_Self ptr = {p}; if (p) *(ptr.use_count = _i_alloc(catomic_long)) = 1; return ptr; } // c++: std::make_shared<_cx_value>(val) -STC_INLINE _cx_self _cx_memb(_make)(_cx_value val) { - _cx_self ptr; - struct _cx_memb(_rep_)* rep = _i_alloc(struct _cx_memb(_rep_)); +STC_INLINE _cx_Self _cx_MEMB(_make)(_cx_value val) { + _cx_Self ptr; + struct _cx_MEMB(_rep_)* rep = _i_alloc(struct _cx_MEMB(_rep_)); *(ptr.use_count = &rep->counter) = 1; *(ptr.get = &rep->value) = val; return ptr; } -STC_INLINE _cx_raw _cx_memb(_toraw)(const _cx_self* self) +STC_INLINE _cx_raw _cx_MEMB(_toraw)(const _cx_Self* self) { return i_keyto(self->get); } -STC_INLINE _cx_self _cx_memb(_move)(_cx_self* self) { - _cx_self ptr = *self; +STC_INLINE _cx_Self _cx_MEMB(_move)(_cx_Self* self) { + _cx_Self ptr = *self; self->get = NULL, self->use_count = NULL; return ptr; } -STC_INLINE void _cx_memb(_drop)(_cx_self* self) { +STC_INLINE void _cx_MEMB(_drop)(_cx_Self* self) { if (self->use_count && _i_atomic_dec_and_test(self->use_count)) { i_keydrop(self->get); - if ((char *)self->get != (char *)self->use_count + offsetof(struct _cx_memb(_rep_), value)) + if ((char *)self->get != (char *)self->use_count + offsetof(struct _cx_MEMB(_rep_), value)) i_free(self->get); i_free((long*)self->use_count); } } -STC_INLINE void _cx_memb(_reset)(_cx_self* self) { - _cx_memb(_drop)(self); +STC_INLINE void _cx_MEMB(_reset)(_cx_Self* self) { + _cx_MEMB(_drop)(self); self->use_count = NULL, self->get = NULL; } -STC_INLINE void _cx_memb(_reset_to)(_cx_self* self, _cx_value* p) { - _cx_memb(_drop)(self); - *self = _cx_memb(_from_ptr)(p); +STC_INLINE void _cx_MEMB(_reset_to)(_cx_Self* self, _cx_value* p) { + _cx_MEMB(_drop)(self); + *self = _cx_MEMB(_from_ptr)(p); } #ifndef i_no_emplace -STC_INLINE _cx_self _cx_memb(_from)(_cx_raw raw) - { return _cx_memb(_make)(i_keyfrom(raw)); } +STC_INLINE _cx_Self _cx_MEMB(_from)(_cx_raw raw) + { return _cx_MEMB(_make)(i_keyfrom(raw)); } #else -STC_INLINE _cx_self _cx_memb(_from)(_cx_value val) - { return _cx_memb(_make)(val); } +STC_INLINE _cx_Self _cx_MEMB(_from)(_cx_value val) + { return _cx_MEMB(_make)(val); } #endif // does not use i_keyclone, so OK to always define. -STC_INLINE _cx_self _cx_memb(_clone)(_cx_self ptr) { +STC_INLINE _cx_Self _cx_MEMB(_clone)(_cx_Self ptr) { if (ptr.use_count) _i_atomic_inc(ptr.use_count); return ptr; } // take ownership of unowned -STC_INLINE void _cx_memb(_take)(_cx_self* self, _cx_self unowned) { - _cx_memb(_drop)(self); +STC_INLINE void _cx_MEMB(_take)(_cx_Self* self, _cx_Self unowned) { + _cx_MEMB(_drop)(self); *self = unowned; } // share ownership with ptr -STC_INLINE void _cx_memb(_assign)(_cx_self* self, _cx_self ptr) { +STC_INLINE void _cx_MEMB(_assign)(_cx_Self* self, _cx_Self ptr) { if (ptr.use_count) _i_atomic_inc(ptr.use_count); - _cx_memb(_drop)(self); + _cx_MEMB(_drop)(self); *self = ptr; } #ifndef i_no_cmp -STC_INLINE int _cx_memb(_raw_cmp)(const _cx_raw* rx, const _cx_raw* ry) +STC_INLINE int _cx_MEMB(_raw_cmp)(const _cx_raw* rx, const _cx_raw* ry) { return i_cmp(rx, ry); } -STC_INLINE int _cx_memb(_cmp)(const _cx_self* self, const _cx_self* other) { +STC_INLINE int _cx_MEMB(_cmp)(const _cx_Self* self, const _cx_Self* other) { _cx_raw rx = i_keyto(self->get), ry = i_keyto(other->get); return i_cmp((&rx), (&ry)); } #endif #ifdef _i_eq -STC_INLINE bool _cx_memb(_raw_eq)(const _cx_raw* rx, const _cx_raw* ry) +STC_INLINE bool _cx_MEMB(_raw_eq)(const _cx_raw* rx, const _cx_raw* ry) { return i_eq(rx, ry); } -STC_INLINE bool _cx_memb(_eq)(const _cx_self* self, const _cx_self* other) { +STC_INLINE bool _cx_MEMB(_eq)(const _cx_Self* self, const _cx_Self* other) { _cx_raw rx = i_keyto(self->get), ry = i_keyto(other->get); return i_eq((&rx), (&ry)); } #elif !defined i_no_cmp -STC_INLINE bool _cx_memb(_raw_eq)(const _cx_raw* rx, const _cx_raw* ry) +STC_INLINE bool _cx_MEMB(_raw_eq)(const _cx_raw* rx, const _cx_raw* ry) { return i_cmp(rx, ry) == 0; } -STC_INLINE bool _cx_memb(_eq)(const _cx_self* self, const _cx_self* other) - { return _cx_memb(_cmp)(self, other) == 0; } +STC_INLINE bool _cx_MEMB(_eq)(const _cx_Self* self, const _cx_Self* other) + { return _cx_MEMB(_cmp)(self, other) == 0; } #endif #ifndef i_no_hash -STC_INLINE uint64_t _cx_memb(_raw_hash)(const _cx_raw* rx) +STC_INLINE uint64_t _cx_MEMB(_raw_hash)(const _cx_raw* rx) { return i_hash(rx); } -STC_INLINE uint64_t _cx_memb(_hash)(const _cx_self* self) +STC_INLINE uint64_t _cx_MEMB(_hash)(const _cx_Self* self) { _cx_raw rx = i_keyto(self->get); return i_hash((&rx)); } #endif diff --git a/include/stc/cbox.h b/include/stc/cbox.h index d7f6246d..86283ad7 100644 --- a/include/stc/cbox.h +++ b/include/stc/cbox.h @@ -77,119 +77,119 @@ int main() { typedef i_keyraw _cx_raw; #ifndef i_is_forward -_cx_deftypes(_c_cbox_types, _cx_self, i_key); +_cx_DEFTYPES(_c_cbox_types, _cx_Self, i_key); #endif // constructors (take ownership) -STC_INLINE _cx_self _cx_memb(_init)(void) - { return c_LITERAL(_cx_self){NULL}; } +STC_INLINE _cx_Self _cx_MEMB(_init)(void) + { return c_LITERAL(_cx_Self){NULL}; } -STC_INLINE long _cx_memb(_use_count)(const _cx_self* self) +STC_INLINE long _cx_MEMB(_use_count)(const _cx_Self* self) { return (long)(self->get != NULL); } -STC_INLINE _cx_self _cx_memb(_from_ptr)(_cx_value* p) - { return c_LITERAL(_cx_self){p}; } +STC_INLINE _cx_Self _cx_MEMB(_from_ptr)(_cx_value* p) + { return c_LITERAL(_cx_Self){p}; } // c++: std::make_unique(val) -STC_INLINE _cx_self _cx_memb(_make)(_cx_value val) { - _cx_self ptr = {_i_alloc(_cx_value)}; +STC_INLINE _cx_Self _cx_MEMB(_make)(_cx_value val) { + _cx_Self ptr = {_i_alloc(_cx_value)}; *ptr.get = val; return ptr; } -STC_INLINE _cx_raw _cx_memb(_toraw)(const _cx_self* self) +STC_INLINE _cx_raw _cx_MEMB(_toraw)(const _cx_Self* self) { return i_keyto(self->get); } // destructor -STC_INLINE void _cx_memb(_drop)(_cx_self* self) { +STC_INLINE void _cx_MEMB(_drop)(_cx_Self* self) { if (self->get) { i_keydrop(self->get); i_free(self->get); } } -STC_INLINE _cx_self _cx_memb(_move)(_cx_self* self) { - _cx_self ptr = *self; +STC_INLINE _cx_Self _cx_MEMB(_move)(_cx_Self* self) { + _cx_Self ptr = *self; self->get = NULL; return ptr; } -STC_INLINE _cx_value* _cx_memb(_release)(_cx_self* self) - { return _cx_memb(_move)(self).get; } +STC_INLINE _cx_value* _cx_MEMB(_release)(_cx_Self* self) + { return _cx_MEMB(_move)(self).get; } -STC_INLINE void _cx_memb(_reset)(_cx_self* self) { - _cx_memb(_drop)(self); +STC_INLINE void _cx_MEMB(_reset)(_cx_Self* self) { + _cx_MEMB(_drop)(self); self->get = NULL; } // take ownership of p -STC_INLINE void _cx_memb(_reset_to)(_cx_self* self, _cx_value* p) { - _cx_memb(_drop)(self); +STC_INLINE void _cx_MEMB(_reset_to)(_cx_Self* self, _cx_value* p) { + _cx_MEMB(_drop)(self); self->get = p; } #ifndef i_no_emplace -STC_INLINE _cx_self _cx_memb(_from)(_cx_raw raw) - { return _cx_memb(_make)(i_keyfrom(raw)); } +STC_INLINE _cx_Self _cx_MEMB(_from)(_cx_raw raw) + { return _cx_MEMB(_make)(i_keyfrom(raw)); } #else -STC_INLINE _cx_self _cx_memb(_from)(_cx_value val) - { return _cx_memb(_make)(val); } +STC_INLINE _cx_Self _cx_MEMB(_from)(_cx_value val) + { return _cx_MEMB(_make)(val); } #endif #if !defined i_no_clone - STC_INLINE _cx_self _cx_memb(_clone)(_cx_self other) { + STC_INLINE _cx_Self _cx_MEMB(_clone)(_cx_Self other) { if (!other.get) return other; - _cx_self out = {_i_alloc(i_key)}; + _cx_Self out = {_i_alloc(i_key)}; *out.get = i_keyclone((*other.get)); return out; } #endif // !i_no_clone // take ownership of unowned -STC_INLINE void _cx_memb(_take)(_cx_self* self, _cx_self unowned) { - _cx_memb(_drop)(self); +STC_INLINE void _cx_MEMB(_take)(_cx_Self* self, _cx_Self unowned) { + _cx_MEMB(_drop)(self); *self = unowned; } // transfer ownership from moved; set moved to NULL -STC_INLINE void _cx_memb(_assign)(_cx_self* self, _cx_self* moved) { +STC_INLINE void _cx_MEMB(_assign)(_cx_Self* self, _cx_Self* moved) { if (moved->get == self->get) return; - _cx_memb(_drop)(self); + _cx_MEMB(_drop)(self); *self = *moved; moved->get = NULL; } #ifndef i_no_cmp -STC_INLINE int _cx_memb(_raw_cmp)(const _cx_raw* rx, const _cx_raw* ry) +STC_INLINE int _cx_MEMB(_raw_cmp)(const _cx_raw* rx, const _cx_raw* ry) { return i_cmp(rx, ry); } -STC_INLINE int _cx_memb(_cmp)(const _cx_self* self, const _cx_self* other) { +STC_INLINE int _cx_MEMB(_cmp)(const _cx_Self* self, const _cx_Self* other) { _cx_raw rx = i_keyto(self->get), ry = i_keyto(other->get); return i_cmp((&rx), (&ry)); } #endif #ifdef _i_eq -STC_INLINE bool _cx_memb(_raw_eq)(const _cx_raw* rx, const _cx_raw* ry) +STC_INLINE bool _cx_MEMB(_raw_eq)(const _cx_raw* rx, const _cx_raw* ry) { return i_eq(rx, ry); } -STC_INLINE bool _cx_memb(_eq)(const _cx_self* self, const _cx_self* other) { +STC_INLINE bool _cx_MEMB(_eq)(const _cx_Self* self, const _cx_Self* other) { _cx_raw rx = i_keyto(self->get), ry = i_keyto(other->get); return i_eq((&rx), (&ry)); } #elif !defined i_no_cmp -STC_INLINE bool _cx_memb(_raw_eq)(const _cx_raw* rx, const _cx_raw* ry) +STC_INLINE bool _cx_MEMB(_raw_eq)(const _cx_raw* rx, const _cx_raw* ry) { return i_cmp(rx, ry) == 0; } -STC_INLINE bool _cx_memb(_eq)(const _cx_self* self, const _cx_self* other) - { return _cx_memb(_cmp)(self, other) == 0; } +STC_INLINE bool _cx_MEMB(_eq)(const _cx_Self* self, const _cx_Self* other) + { return _cx_MEMB(_cmp)(self, other) == 0; } #endif #ifndef i_no_hash -STC_INLINE uint64_t _cx_memb(_raw_hash)(const _cx_raw* rx) +STC_INLINE uint64_t _cx_MEMB(_raw_hash)(const _cx_raw* rx) { return i_hash(rx); } -STC_INLINE uint64_t _cx_memb(_hash)(const _cx_self* self) +STC_INLINE uint64_t _cx_MEMB(_hash)(const _cx_Self* self) { _cx_raw rx = i_keyto(self->get); return i_hash((&rx)); } #endif diff --git a/include/stc/cdeq.h b/include/stc/cdeq.h index a406c2b0..0eac5a1d 100644 --- a/include/stc/cdeq.h +++ b/include/stc/cdeq.h @@ -32,101 +32,101 @@ #endif #undef _pop -STC_API _cx_value* _cx_memb(_push_front)(_cx_self* self, i_key value); -STC_API _cx_iter _cx_memb(_insert_n)(_cx_self* self, intptr_t idx, const _cx_value* arr, intptr_t n); -STC_API _cx_iter _cx_memb(_insert_uninit)(_cx_self* self, intptr_t idx, intptr_t n); -STC_API void _cx_memb(_erase_n)(_cx_self* self, intptr_t idx, intptr_t n); +STC_API _cx_value* _cx_MEMB(_push_front)(_cx_Self* self, i_key value); +STC_API _cx_iter _cx_MEMB(_insert_n)(_cx_Self* self, intptr_t idx, const _cx_value* arr, intptr_t n); +STC_API _cx_iter _cx_MEMB(_insert_uninit)(_cx_Self* self, intptr_t idx, intptr_t n); +STC_API void _cx_MEMB(_erase_n)(_cx_Self* self, intptr_t idx, intptr_t n); STC_INLINE const _cx_value* -_cx_memb(_at)(const _cx_self* self, intptr_t idx) +_cx_MEMB(_at)(const _cx_Self* self, intptr_t idx) { return self->data + _cdeq_topos(self, idx); } STC_INLINE _cx_value* -_cx_memb(_at_mut)(_cx_self* self, intptr_t idx) +_cx_MEMB(_at_mut)(_cx_Self* self, intptr_t idx) { return self->data + _cdeq_topos(self, idx); } STC_INLINE _cx_value* -_cx_memb(_push_back)(_cx_self* self, _cx_value val) - { return _cx_memb(_push)(self, val); } +_cx_MEMB(_push_back)(_cx_Self* self, _cx_value val) + { return _cx_MEMB(_push)(self, val); } STC_INLINE void -_cx_memb(_pop_back)(_cx_self* self) { - assert(!_cx_memb(_empty)(self)); +_cx_MEMB(_pop_back)(_cx_Self* self) { + assert(!_cx_MEMB(_empty)(self)); self->end = (self->end - 1) & self->capmask; i_keydrop((self->data + self->end)); } -STC_INLINE _cx_value _cx_memb(_pull_back)(_cx_self* self) { // move back out of deq - assert(!_cx_memb(_empty)(self)); +STC_INLINE _cx_value _cx_MEMB(_pull_back)(_cx_Self* self) { // move back out of deq + assert(!_cx_MEMB(_empty)(self)); self->end = (self->end - 1) & self->capmask; return self->data[self->end]; } STC_INLINE _cx_iter -_cx_memb(_insert_at)(_cx_self* self, _cx_iter it, const _cx_value val) { +_cx_MEMB(_insert_at)(_cx_Self* self, _cx_iter it, const _cx_value val) { intptr_t idx = _cdeq_toidx(self, it.pos); - return _cx_memb(_insert_n)(self, idx, &val, 1); + return _cx_MEMB(_insert_n)(self, idx, &val, 1); } STC_INLINE _cx_iter -_cx_memb(_erase_at)(_cx_self* self, _cx_iter it) { - _cx_memb(_erase_n)(self, _cdeq_toidx(self, it.pos), 1); +_cx_MEMB(_erase_at)(_cx_Self* self, _cx_iter it) { + _cx_MEMB(_erase_n)(self, _cdeq_toidx(self, it.pos), 1); if (it.pos == self->end) it.ref = NULL; return it; } STC_INLINE _cx_iter -_cx_memb(_erase_range)(_cx_self* self, _cx_iter it1, _cx_iter it2) { +_cx_MEMB(_erase_range)(_cx_Self* self, _cx_iter it1, _cx_iter it2) { intptr_t idx1 = _cdeq_toidx(self, it1.pos); intptr_t idx2 = _cdeq_toidx(self, it2.pos); - _cx_memb(_erase_n)(self, idx1, idx2 - idx1); + _cx_MEMB(_erase_n)(self, idx1, idx2 - idx1); if (it1.pos == self->end) it1.ref = NULL; return it1; } #if !defined i_no_emplace STC_API _cx_iter -_cx_memb(_emplace_n)(_cx_self* self, intptr_t idx, const _cx_raw* raw, intptr_t n); +_cx_MEMB(_emplace_n)(_cx_Self* self, intptr_t idx, const _cx_raw* raw, intptr_t n); STC_INLINE _cx_value* -_cx_memb(_emplace_front)(_cx_self* self, const _cx_raw raw) - { return _cx_memb(_push_front)(self, i_keyfrom(raw)); } +_cx_MEMB(_emplace_front)(_cx_Self* self, const _cx_raw raw) + { return _cx_MEMB(_push_front)(self, i_keyfrom(raw)); } STC_INLINE _cx_value* -_cx_memb(_emplace_back)(_cx_self* self, const _cx_raw raw) - { return _cx_memb(_push)(self, i_keyfrom(raw)); } +_cx_MEMB(_emplace_back)(_cx_Self* self, const _cx_raw raw) + { return _cx_MEMB(_push)(self, i_keyfrom(raw)); } STC_INLINE _cx_iter -_cx_memb(_emplace_at)(_cx_self* self, _cx_iter it, const _cx_raw raw) - { return _cx_memb(_insert_at)(self, it, i_keyfrom(raw)); } +_cx_MEMB(_emplace_at)(_cx_Self* self, _cx_iter it, const _cx_raw raw) + { return _cx_MEMB(_insert_at)(self, it, i_keyfrom(raw)); } #endif #if defined _i_has_cmp || defined _i_has_eq -STC_API _cx_iter _cx_memb(_find_in)(_cx_iter p1, _cx_iter p2, _cx_raw raw); +STC_API _cx_iter _cx_MEMB(_find_in)(_cx_iter p1, _cx_iter p2, _cx_raw raw); STC_INLINE _cx_iter -_cx_memb(_find)(const _cx_self* self, _cx_raw raw) { - return _cx_memb(_find_in)(_cx_memb(_begin)(self), _cx_memb(_end)(self), raw); +_cx_MEMB(_find)(const _cx_Self* self, _cx_raw raw) { + return _cx_MEMB(_find_in)(_cx_MEMB(_begin)(self), _cx_MEMB(_end)(self), raw); } STC_INLINE const _cx_value* -_cx_memb(_get)(const _cx_self* self, _cx_raw raw) { - return _cx_memb(_find_in)(_cx_memb(_begin)(self), _cx_memb(_end)(self), raw).ref; +_cx_MEMB(_get)(const _cx_Self* self, _cx_raw raw) { + return _cx_MEMB(_find_in)(_cx_MEMB(_begin)(self), _cx_MEMB(_end)(self), raw).ref; } STC_INLINE _cx_value* -_cx_memb(_get_mut)(_cx_self* self, _cx_raw raw) - { return (_cx_value *) _cx_memb(_get)(self, raw); } +_cx_MEMB(_get_mut)(_cx_Self* self, _cx_raw raw) + { return (_cx_value *) _cx_MEMB(_get)(self, raw); } #endif /* -------------------------- IMPLEMENTATION ------------------------- */ #if defined(i_implement) || defined(i_static) STC_DEF _cx_value* -_cx_memb(_push_front)(_cx_self* self, i_key value) { +_cx_MEMB(_push_front)(_cx_Self* self, i_key value) { intptr_t start = (self->start - 1) & self->capmask; if (start == self->end) { // full - _cx_memb(_reserve)(self, self->capmask + 3); // => 2x expand + _cx_MEMB(_reserve)(self, self->capmask + 3); // => 2x expand start = (self->start - 1) & self->capmask; } _cx_value *v = self->data + start; @@ -136,24 +136,24 @@ _cx_memb(_push_front)(_cx_self* self, i_key value) { } STC_DEF void -_cx_memb(_erase_n)(_cx_self* self, const intptr_t idx, const intptr_t n) { - const intptr_t len = _cx_memb(_size)(self); +_cx_MEMB(_erase_n)(_cx_Self* self, const intptr_t idx, const intptr_t n) { + const intptr_t len = _cx_MEMB(_size)(self); for (intptr_t i = idx + n - 1; i >= idx; --i) - i_keydrop(_cx_memb(_at_mut)(self, i)); + i_keydrop(_cx_MEMB(_at_mut)(self, i)); for (intptr_t i = idx, j = i + n; j < len; ++i, ++j) - *_cx_memb(_at_mut)(self, i) = *_cx_memb(_at)(self, j); + *_cx_MEMB(_at_mut)(self, i) = *_cx_MEMB(_at)(self, j); self->end = (self->end - n) & self->capmask; } STC_DEF _cx_iter -_cx_memb(_insert_uninit)(_cx_self* self, const intptr_t idx, const intptr_t n) { - const intptr_t len = _cx_memb(_size)(self); +_cx_MEMB(_insert_uninit)(_cx_Self* self, const intptr_t idx, const intptr_t n) { + const intptr_t len = _cx_MEMB(_size)(self); _cx_iter it = {._s=self}; if (len + n > self->capmask) - if (!_cx_memb(_reserve)(self, len + n)) + if (!_cx_MEMB(_reserve)(self, len + n)) return it; for (intptr_t i = len - 1, j = i + n; i >= idx; --i, --j) - *_cx_memb(_at_mut)(self, j) = *_cx_memb(_at)(self, i); + *_cx_MEMB(_at_mut)(self, j) = *_cx_MEMB(_at)(self, i); self->end = (self->end + n) & self->capmask; it.pos = _cdeq_topos(self, idx); @@ -162,27 +162,27 @@ _cx_memb(_insert_uninit)(_cx_self* self, const intptr_t idx, const intptr_t n) { } STC_DEF _cx_iter -_cx_memb(_insert_n)(_cx_self* self, const intptr_t idx, const _cx_value* arr, const intptr_t n) { - _cx_iter it = _cx_memb(_insert_uninit)(self, idx, n); +_cx_MEMB(_insert_n)(_cx_Self* self, const intptr_t idx, const _cx_value* arr, const intptr_t n) { + _cx_iter it = _cx_MEMB(_insert_uninit)(self, idx, n); for (intptr_t i = idx, j = 0; j < n; ++i, ++j) - *_cx_memb(_at_mut)(self, i) = arr[j]; + *_cx_MEMB(_at_mut)(self, i) = arr[j]; return it; } #if !defined i_no_emplace STC_DEF _cx_iter -_cx_memb(_emplace_n)(_cx_self* self, const intptr_t idx, const _cx_raw* raw, const intptr_t n) { - _cx_iter it = _cx_memb(_insert_uninit)(self, idx, n); +_cx_MEMB(_emplace_n)(_cx_Self* self, const intptr_t idx, const _cx_raw* raw, const intptr_t n) { + _cx_iter it = _cx_MEMB(_insert_uninit)(self, idx, n); for (intptr_t i = idx, j = 0; j < n; ++i, ++j) - *_cx_memb(_at_mut)(self, i) = i_keyfrom(raw[j]); + *_cx_MEMB(_at_mut)(self, i) = i_keyfrom(raw[j]); return it; } #endif #if defined _i_has_cmp || defined _i_has_eq STC_DEF _cx_iter -_cx_memb(_find_in)(_cx_iter i1, _cx_iter i2, _cx_raw raw) { - for (; i1.pos != i2.pos; _cx_memb(_next)(&i1)) { +_cx_MEMB(_find_in)(_cx_iter i1, _cx_iter i2, _cx_raw raw) { + for (; i1.pos != i2.pos; _cx_MEMB(_next)(&i1)) { const _cx_raw r = i_keyto(i1.ref); if (i_eq((&raw), (&r))) break; diff --git a/include/stc/clist.h b/include/stc/clist.h index 4d05a3d1..0785a6af 100644 --- a/include/stc/clist.h +++ b/include/stc/clist.h @@ -82,77 +82,77 @@ #include "priv/template.h" #ifndef i_is_forward - _cx_deftypes(_c_clist_types, _cx_self, i_key); + _cx_DEFTYPES(_c_clist_types, _cx_Self, i_key); #endif -_cx_deftypes(_c_clist_complete_types, _cx_self, dummy); +_cx_DEFTYPES(_c_clist_complete_types, _cx_Self, dummy); typedef i_keyraw _cx_raw; -STC_API void _cx_memb(_drop)(_cx_self* self); -STC_API _cx_value* _cx_memb(_push_back)(_cx_self* self, i_key value); -STC_API _cx_value* _cx_memb(_push_front)(_cx_self* self, i_key value); -STC_API _cx_iter _cx_memb(_insert_at)(_cx_self* self, _cx_iter it, i_key value); -STC_API _cx_iter _cx_memb(_erase_at)(_cx_self* self, _cx_iter it); -STC_API _cx_iter _cx_memb(_erase_range)(_cx_self* self, _cx_iter it1, _cx_iter it2); +STC_API void _cx_MEMB(_drop)(_cx_Self* self); +STC_API _cx_value* _cx_MEMB(_push_back)(_cx_Self* self, i_key value); +STC_API _cx_value* _cx_MEMB(_push_front)(_cx_Self* self, i_key value); +STC_API _cx_iter _cx_MEMB(_insert_at)(_cx_Self* self, _cx_iter it, i_key value); +STC_API _cx_iter _cx_MEMB(_erase_at)(_cx_Self* self, _cx_iter it); +STC_API _cx_iter _cx_MEMB(_erase_range)(_cx_Self* self, _cx_iter it1, _cx_iter it2); #if !defined i_no_cmp || defined _i_has_eq -STC_API _cx_iter _cx_memb(_find_in)(_cx_iter it1, _cx_iter it2, _cx_raw val); -STC_API intptr_t _cx_memb(_remove)(_cx_self* self, _cx_raw val); +STC_API _cx_iter _cx_MEMB(_find_in)(_cx_iter it1, _cx_iter it2, _cx_raw val); +STC_API intptr_t _cx_MEMB(_remove)(_cx_Self* self, _cx_raw val); #endif #ifndef i_no_cmp -STC_API bool _cx_memb(_sort_with)(_cx_self* self, int(*cmp)(const _cx_value*, const _cx_value*)); -STC_API int _cx_memb(_sort_cmp_)(const _cx_value*, const _cx_value*); -STC_INLINE bool _cx_memb(_sort)(_cx_self* self) - { return _cx_memb(_sort_with)(self, _cx_memb(_sort_cmp_)); } +STC_API bool _cx_MEMB(_sort_with)(_cx_Self* self, int(*cmp)(const _cx_value*, const _cx_value*)); +STC_API int _cx_MEMB(_sort_cmp_)(const _cx_value*, const _cx_value*); +STC_INLINE bool _cx_MEMB(_sort)(_cx_Self* self) + { return _cx_MEMB(_sort_with)(self, _cx_MEMB(_sort_cmp_)); } #endif -STC_API void _cx_memb(_reverse)(_cx_self* self); -STC_API _cx_iter _cx_memb(_splice)(_cx_self* self, _cx_iter it, _cx_self* other); -STC_API _cx_self _cx_memb(_split_off)(_cx_self* self, _cx_iter it1, _cx_iter it2); -STC_API _cx_value* _cx_memb(_push_back_node)(_cx_self* self, _cx_node* node); -STC_API _cx_value* _cx_memb(_insert_after_node)(_cx_self* self, _cx_node* ref, _cx_node* node); -STC_API _cx_node* _cx_memb(_unlink_after_node)(_cx_self* self, _cx_node* ref); -STC_API void _cx_memb(_erase_after_node)(_cx_self* self, _cx_node* ref); -STC_INLINE _cx_node* _cx_memb(_get_node)(_cx_value* pval) { return _clist_tonode(pval); } -STC_INLINE _cx_node* _cx_memb(_unlink_front_node)(_cx_self* self) - { return _cx_memb(_unlink_after_node)(self, self->last); } +STC_API void _cx_MEMB(_reverse)(_cx_Self* self); +STC_API _cx_iter _cx_MEMB(_splice)(_cx_Self* self, _cx_iter it, _cx_Self* other); +STC_API _cx_Self _cx_MEMB(_split_off)(_cx_Self* self, _cx_iter it1, _cx_iter it2); +STC_API _cx_value* _cx_MEMB(_push_back_node)(_cx_Self* self, _cx_node* node); +STC_API _cx_value* _cx_MEMB(_insert_after_node)(_cx_Self* self, _cx_node* ref, _cx_node* node); +STC_API _cx_node* _cx_MEMB(_unlink_after_node)(_cx_Self* self, _cx_node* ref); +STC_API void _cx_MEMB(_erase_after_node)(_cx_Self* self, _cx_node* ref); +STC_INLINE _cx_node* _cx_MEMB(_get_node)(_cx_value* pval) { return _clist_tonode(pval); } +STC_INLINE _cx_node* _cx_MEMB(_unlink_front_node)(_cx_Self* self) + { return _cx_MEMB(_unlink_after_node)(self, self->last); } #if !defined i_no_clone -STC_API _cx_self _cx_memb(_clone)(_cx_self cx); -STC_INLINE i_key _cx_memb(_value_clone)(i_key val) { return i_keyclone(val); } +STC_API _cx_Self _cx_MEMB(_clone)(_cx_Self cx); +STC_INLINE i_key _cx_MEMB(_value_clone)(i_key val) { return i_keyclone(val); } STC_INLINE void -_cx_memb(_copy)(_cx_self *self, const _cx_self* other) { +_cx_MEMB(_copy)(_cx_Self *self, const _cx_Self* other) { if (self->last == other->last) return; - _cx_memb(_drop)(self); *self = _cx_memb(_clone)(*other); + _cx_MEMB(_drop)(self); *self = _cx_MEMB(_clone)(*other); } #endif // !i_no_clone #if !defined i_no_emplace -STC_INLINE _cx_value* _cx_memb(_emplace_back)(_cx_self* self, _cx_raw raw) - { return _cx_memb(_push_back)(self, i_keyfrom(raw)); } -STC_INLINE _cx_value* _cx_memb(_emplace_front)(_cx_self* self, _cx_raw raw) - { return _cx_memb(_push_front)(self, i_keyfrom(raw)); } -STC_INLINE _cx_iter _cx_memb(_emplace_at)(_cx_self* self, _cx_iter it, _cx_raw raw) - { return _cx_memb(_insert_at)(self, it, i_keyfrom(raw)); } -STC_INLINE _cx_value* _cx_memb(_emplace)(_cx_self* self, _cx_raw raw) - { return _cx_memb(_push_back)(self, i_keyfrom(raw)); } +STC_INLINE _cx_value* _cx_MEMB(_emplace_back)(_cx_Self* self, _cx_raw raw) + { return _cx_MEMB(_push_back)(self, i_keyfrom(raw)); } +STC_INLINE _cx_value* _cx_MEMB(_emplace_front)(_cx_Self* self, _cx_raw raw) + { return _cx_MEMB(_push_front)(self, i_keyfrom(raw)); } +STC_INLINE _cx_iter _cx_MEMB(_emplace_at)(_cx_Self* self, _cx_iter it, _cx_raw raw) + { return _cx_MEMB(_insert_at)(self, it, i_keyfrom(raw)); } +STC_INLINE _cx_value* _cx_MEMB(_emplace)(_cx_Self* self, _cx_raw raw) + { return _cx_MEMB(_push_back)(self, i_keyfrom(raw)); } #endif // !i_no_emplace -STC_INLINE _cx_self _cx_memb(_init)(void) { return c_LITERAL(_cx_self){NULL}; } -STC_INLINE void _cx_memb(_put_n)(_cx_self* self, const _cx_raw* raw, intptr_t n) - { while (n--) _cx_memb(_push_back)(self, i_keyfrom(*raw++)); } -STC_INLINE _cx_self _cx_memb(_from_n)(const _cx_raw* raw, intptr_t n) - { _cx_self cx = {0}; _cx_memb(_put_n)(&cx, raw, n); return cx; } -STC_INLINE bool _cx_memb(_reserve)(_cx_self* self, intptr_t n) { (void)(self + n); return true; } -STC_INLINE bool _cx_memb(_empty)(const _cx_self* self) { return self->last == NULL; } -STC_INLINE void _cx_memb(_clear)(_cx_self* self) { _cx_memb(_drop)(self); } -STC_INLINE _cx_value* _cx_memb(_push)(_cx_self* self, i_key value) - { return _cx_memb(_push_back)(self, value); } -STC_INLINE void _cx_memb(_pop_front)(_cx_self* self) - { assert(!_cx_memb(_empty)(self)); _cx_memb(_erase_after_node)(self, self->last); } -STC_INLINE _cx_value* _cx_memb(_front)(const _cx_self* self) { return &self->last->next->value; } -STC_INLINE _cx_value* _cx_memb(_back)(const _cx_self* self) { return &self->last->value; } -STC_INLINE _cx_raw _cx_memb(_value_toraw)(const _cx_value* pval) { return i_keyto(pval); } -STC_INLINE void _cx_memb(_value_drop)(_cx_value* pval) { i_keydrop(pval); } +STC_INLINE _cx_Self _cx_MEMB(_init)(void) { return c_LITERAL(_cx_Self){NULL}; } +STC_INLINE void _cx_MEMB(_put_n)(_cx_Self* self, const _cx_raw* raw, intptr_t n) + { while (n--) _cx_MEMB(_push_back)(self, i_keyfrom(*raw++)); } +STC_INLINE _cx_Self _cx_MEMB(_from_n)(const _cx_raw* raw, intptr_t n) + { _cx_Self cx = {0}; _cx_MEMB(_put_n)(&cx, raw, n); return cx; } +STC_INLINE bool _cx_MEMB(_reserve)(_cx_Self* self, intptr_t n) { (void)(self + n); return true; } +STC_INLINE bool _cx_MEMB(_empty)(const _cx_Self* self) { return self->last == NULL; } +STC_INLINE void _cx_MEMB(_clear)(_cx_Self* self) { _cx_MEMB(_drop)(self); } +STC_INLINE _cx_value* _cx_MEMB(_push)(_cx_Self* self, i_key value) + { return _cx_MEMB(_push_back)(self, value); } +STC_INLINE void _cx_MEMB(_pop_front)(_cx_Self* self) + { assert(!_cx_MEMB(_empty)(self)); _cx_MEMB(_erase_after_node)(self, self->last); } +STC_INLINE _cx_value* _cx_MEMB(_front)(const _cx_Self* self) { return &self->last->next->value; } +STC_INLINE _cx_value* _cx_MEMB(_back)(const _cx_Self* self) { return &self->last->value; } +STC_INLINE _cx_raw _cx_MEMB(_value_toraw)(const _cx_value* pval) { return i_keyto(pval); } +STC_INLINE void _cx_MEMB(_value_drop)(_cx_value* pval) { i_keydrop(pval); } STC_INLINE intptr_t -_cx_memb(_count)(const _cx_self* self) { +_cx_MEMB(_count)(const _cx_Self* self) { intptr_t n = 1; const _cx_node *node = self->last; if (!node) return 0; while ((node = node->next) != self->last) ++n; @@ -160,53 +160,53 @@ _cx_memb(_count)(const _cx_self* self) { } STC_INLINE _cx_iter -_cx_memb(_begin)(const _cx_self* self) { +_cx_MEMB(_begin)(const _cx_Self* self) { _cx_value* head = self->last ? &self->last->next->value : NULL; return c_LITERAL(_cx_iter){head, &self->last, self->last}; } STC_INLINE _cx_iter -_cx_memb(_end)(const _cx_self* self) +_cx_MEMB(_end)(const _cx_Self* self) { return c_LITERAL(_cx_iter){NULL}; } STC_INLINE void -_cx_memb(_next)(_cx_iter* it) { +_cx_MEMB(_next)(_cx_iter* it) { _cx_node* node = it->prev = _clist_tonode(it->ref); it->ref = (node == *it->_last ? NULL : &node->next->value); } STC_INLINE _cx_iter -_cx_memb(_advance)(_cx_iter it, size_t n) { - while (n-- && it.ref) _cx_memb(_next)(&it); +_cx_MEMB(_advance)(_cx_iter it, size_t n) { + while (n-- && it.ref) _cx_MEMB(_next)(&it); return it; } STC_INLINE _cx_iter -_cx_memb(_splice_range)(_cx_self* self, _cx_iter it, - _cx_self* other, _cx_iter it1, _cx_iter it2) { - _cx_self tmp = _cx_memb(_split_off)(other, it1, it2); - return _cx_memb(_splice)(self, it, &tmp); +_cx_MEMB(_splice_range)(_cx_Self* self, _cx_iter it, + _cx_Self* other, _cx_iter it1, _cx_iter it2) { + _cx_Self tmp = _cx_MEMB(_split_off)(other, it1, it2); + return _cx_MEMB(_splice)(self, it, &tmp); } #if !defined i_no_cmp || defined _i_has_eq STC_INLINE _cx_iter -_cx_memb(_find)(const _cx_self* self, _cx_raw val) { - return _cx_memb(_find_in)(_cx_memb(_begin)(self), _cx_memb(_end)(self), val); +_cx_MEMB(_find)(const _cx_Self* self, _cx_raw val) { + return _cx_MEMB(_find_in)(_cx_MEMB(_begin)(self), _cx_MEMB(_end)(self), val); } STC_INLINE const _cx_value* -_cx_memb(_get)(const _cx_self* self, _cx_raw val) { - return _cx_memb(_find_in)(_cx_memb(_begin)(self), _cx_memb(_end)(self), val).ref; +_cx_MEMB(_get)(const _cx_Self* self, _cx_raw val) { + return _cx_MEMB(_find_in)(_cx_MEMB(_begin)(self), _cx_MEMB(_end)(self), val).ref; } STC_INLINE _cx_value* -_cx_memb(_get_mut)(_cx_self* self, _cx_raw val) { - return _cx_memb(_find_in)(_cx_memb(_begin)(self), _cx_memb(_end)(self), val).ref; +_cx_MEMB(_get_mut)(_cx_Self* self, _cx_raw val) { + return _cx_MEMB(_find_in)(_cx_MEMB(_begin)(self), _cx_MEMB(_end)(self), val).ref; } -STC_INLINE bool _cx_memb(_eq)(const _cx_self* self, const _cx_self* other) { - _cx_iter i = _cx_memb(_begin)(self), j = _cx_memb(_begin)(other); - for (; i.ref && j.ref; _cx_memb(_next)(&i), _cx_memb(_next)(&j)) { +STC_INLINE bool _cx_MEMB(_eq)(const _cx_Self* self, const _cx_Self* other) { + _cx_iter i = _cx_MEMB(_begin)(self), j = _cx_MEMB(_begin)(other); + for (; i.ref && j.ref; _cx_MEMB(_next)(&i), _cx_MEMB(_next)(&j)) { const _cx_raw _rx = i_keyto(i.ref), _ry = i_keyto(j.ref); if (!(i_eq((&_rx), (&_ry)))) return false; } @@ -218,29 +218,29 @@ STC_INLINE bool _cx_memb(_eq)(const _cx_self* self, const _cx_self* other) { #if defined(i_implement) || defined(i_static) #if !defined i_no_clone -STC_DEF _cx_self -_cx_memb(_clone)(_cx_self cx) { - _cx_self out = _cx_memb(_init)(); - c_foreach (it, _cx_self, cx) - _cx_memb(_push_back)(&out, i_keyclone((*it.ref))); +STC_DEF _cx_Self +_cx_MEMB(_clone)(_cx_Self cx) { + _cx_Self out = _cx_MEMB(_init)(); + c_foreach (it, _cx_Self, cx) + _cx_MEMB(_push_back)(&out, i_keyclone((*it.ref))); return out; } #endif STC_DEF void -_cx_memb(_drop)(_cx_self* self) { - while (self->last) _cx_memb(_erase_after_node)(self, self->last); +_cx_MEMB(_drop)(_cx_Self* self) { + while (self->last) _cx_MEMB(_erase_after_node)(self, self->last); } STC_DEF _cx_value* -_cx_memb(_push_back)(_cx_self* self, i_key value) { +_cx_MEMB(_push_back)(_cx_Self* self, i_key value) { _c_clist_insert_entry_after(self->last, value); self->last = entry; return &entry->value; } STC_DEF _cx_value* -_cx_memb(_push_front)(_cx_self* self, i_key value) { +_cx_MEMB(_push_front)(_cx_Self* self, i_key value) { _c_clist_insert_entry_after(self->last, value); if (!self->last) self->last = entry; @@ -248,14 +248,14 @@ _cx_memb(_push_front)(_cx_self* self, i_key value) { } STC_DEF _cx_value* -_cx_memb(_push_back_node)(_cx_self* self, _cx_node* node) { +_cx_MEMB(_push_back_node)(_cx_Self* self, _cx_node* node) { _c_clist_insert_after_node(self->last, node); self->last = node; return &node->value; } STC_DEF _cx_value* -_cx_memb(_insert_after_node)(_cx_self* self, _cx_node* ref, _cx_node* node) { +_cx_MEMB(_insert_after_node)(_cx_Self* self, _cx_node* ref, _cx_node* node) { _c_clist_insert_after_node(ref, node); if (!self->last) self->last = node; @@ -263,7 +263,7 @@ _cx_memb(_insert_after_node)(_cx_self* self, _cx_node* ref, _cx_node* node) { } STC_DEF _cx_iter -_cx_memb(_insert_at)(_cx_self* self, _cx_iter it, i_key value) { +_cx_MEMB(_insert_at)(_cx_Self* self, _cx_iter it, i_key value) { _cx_node* node = it.ref ? it.prev : self->last; _c_clist_insert_entry_after(node, value); if (!self->last || !it.ref) { @@ -275,32 +275,32 @@ _cx_memb(_insert_at)(_cx_self* self, _cx_iter it, i_key value) { } STC_DEF _cx_iter -_cx_memb(_erase_at)(_cx_self* self, _cx_iter it) { +_cx_MEMB(_erase_at)(_cx_Self* self, _cx_iter it) { _cx_node *node = _clist_tonode(it.ref); it.ref = (node == self->last) ? NULL : &node->next->value; - _cx_memb(_erase_after_node)(self, it.prev); + _cx_MEMB(_erase_after_node)(self, it.prev); return it; } STC_DEF _cx_iter -_cx_memb(_erase_range)(_cx_self* self, _cx_iter it1, _cx_iter it2) { +_cx_MEMB(_erase_range)(_cx_Self* self, _cx_iter it1, _cx_iter it2) { _cx_node *end = it2.ref ? _clist_tonode(it2.ref) : self->last->next; if (it1.ref != it2.ref) do { - _cx_memb(_erase_after_node)(self, it1.prev); + _cx_MEMB(_erase_after_node)(self, it1.prev); if (!self->last) break; } while (it1.prev->next != end); return it2; } STC_DEF void -_cx_memb(_erase_after_node)(_cx_self* self, _cx_node* ref) { - _cx_node* node = _cx_memb(_unlink_after_node)(self, ref); +_cx_MEMB(_erase_after_node)(_cx_Self* self, _cx_node* ref) { + _cx_node* node = _cx_MEMB(_unlink_after_node)(self, ref); i_keydrop((&node->value)); i_free(node); } STC_DEF _cx_node* -_cx_memb(_unlink_after_node)(_cx_self* self, _cx_node* ref) { +_cx_MEMB(_unlink_after_node)(_cx_Self* self, _cx_node* ref) { _cx_node* node = ref->next, *next = node->next; ref->next = next; if (node == next) @@ -311,17 +311,17 @@ _cx_memb(_unlink_after_node)(_cx_self* self, _cx_node* ref) { } STC_DEF void -_cx_memb(_reverse)(_cx_self* self) { - _cx_self rev = {NULL}; +_cx_MEMB(_reverse)(_cx_Self* self) { + _cx_Self rev = {NULL}; while (self->last) { - _cx_node* node = _cx_memb(_unlink_after_node)(self, self->last); - _cx_memb(_insert_after_node)(&rev, rev.last, node); + _cx_node* node = _cx_MEMB(_unlink_after_node)(self, self->last); + _cx_MEMB(_insert_after_node)(&rev, rev.last, node); } *self = rev; } STC_DEF _cx_iter -_cx_memb(_splice)(_cx_self* self, _cx_iter it, _cx_self* other) { +_cx_MEMB(_splice)(_cx_Self* self, _cx_iter it, _cx_Self* other) { if (!self->last) self->last = other->last; else if (other->last) { @@ -335,9 +335,9 @@ _cx_memb(_splice)(_cx_self* self, _cx_iter it, _cx_self* other) { return it; } -STC_DEF _cx_self -_cx_memb(_split_off)(_cx_self* self, _cx_iter it1, _cx_iter it2) { - _cx_self lst = {NULL}; +STC_DEF _cx_Self +_cx_MEMB(_split_off)(_cx_Self* self, _cx_iter it1, _cx_iter it2) { + _cx_Self lst = {NULL}; if (it1.ref == it2.ref) return lst; _cx_node *p1 = it1.prev, @@ -353,8 +353,8 @@ _cx_memb(_split_off)(_cx_self* self, _cx_iter it1, _cx_iter it2) { #if !defined i_no_cmp || defined _i_has_eq STC_DEF _cx_iter -_cx_memb(_find_in)(_cx_iter it1, _cx_iter it2, _cx_raw val) { - c_foreach (it, _cx_self, it1, it2) { +_cx_MEMB(_find_in)(_cx_iter it1, _cx_iter it2, _cx_raw val) { + c_foreach (it, _cx_Self, it1, it2) { _cx_raw r = i_keyto(it.ref); if (i_eq((&r), (&val))) return it; @@ -363,14 +363,14 @@ _cx_memb(_find_in)(_cx_iter it1, _cx_iter it2, _cx_raw val) { } STC_DEF intptr_t -_cx_memb(_remove)(_cx_self* self, _cx_raw val) { +_cx_MEMB(_remove)(_cx_Self* self, _cx_raw val) { intptr_t n = 0; _cx_node *prev = self->last, *node; if (prev) do { node = prev->next; _cx_raw r = i_keyto((&node->value)); if (i_eq((&r), (&val))) { - _cx_memb(_erase_after_node)(self, prev), ++n; + _cx_MEMB(_erase_after_node)(self, prev), ++n; if (!self->last) break; } else prev = node; @@ -380,16 +380,16 @@ _cx_memb(_remove)(_cx_self* self, _cx_raw val) { #endif #ifndef i_no_cmp -STC_DEF int _cx_memb(_sort_cmp_)(const _cx_value* x, const _cx_value* y) { +STC_DEF int _cx_MEMB(_sort_cmp_)(const _cx_value* x, const _cx_value* y) { const _cx_raw a = i_keyto(x), b = i_keyto(y); return i_cmp((&a), (&b)); } -STC_DEF bool _cx_memb(_sort_with)(_cx_self* self, int(*cmp)(const _cx_value*, const _cx_value*)) { +STC_DEF bool _cx_MEMB(_sort_with)(_cx_Self* self, int(*cmp)(const _cx_value*, const _cx_value*)) { size_t len = 0, cap = 0; _cx_value *a = NULL, *p = NULL; _cx_iter i; - for (i = _cx_memb(_begin)(self); i.ref; _cx_memb(_next)(&i)) { + for (i = _cx_MEMB(_begin)(self); i.ref; _cx_MEMB(_next)(&i)) { if (len == cap) { if ((p = (_cx_value *)i_realloc(a, (cap += cap/2 + 4)*sizeof *a))) a = p; else { i_free(a); return false; } @@ -397,7 +397,7 @@ STC_DEF bool _cx_memb(_sort_with)(_cx_self* self, int(*cmp)(const _cx_value*, co a[len++] = *i.ref; } qsort(a, len, sizeof *a, (int(*)(const void*, const void*))cmp); - for (i = _cx_memb(_begin)(self); i.ref; _cx_memb(_next)(&i), ++p) + for (i = _cx_MEMB(_begin)(self); i.ref; _cx_MEMB(_next)(&i), ++p) *i.ref = *p; i_free(a); return true; } diff --git a/include/stc/cmap.h b/include/stc/cmap.h index 2e234fb5..21e7b933 100644 --- a/include/stc/cmap.h +++ b/include/stc/cmap.h @@ -72,7 +72,7 @@ typedef struct { intptr_t idx; uint8_t hashx, found; } chash_bucket; #endif #include "priv/template.h" #ifndef i_is_forward - _cx_deftypes(_c_chash_types, _cx_self, i_key, i_val, _i_MAP_ONLY, _i_SET_ONLY); + _cx_DEFTYPES(_c_chash_types, _cx_Self, i_key, i_val, _i_MAP_ONLY, _i_SET_ONLY); #endif _i_MAP_ONLY( struct _cx_value { @@ -81,60 +81,60 @@ _i_MAP_ONLY( struct _cx_value { }; ) typedef i_keyraw _cx_keyraw; -typedef i_valraw _cx_memb(_rmapped); +typedef i_valraw _cx_MEMB(_rmapped); typedef _i_SET_ONLY( i_keyraw ) _i_MAP_ONLY( struct { i_keyraw first; i_valraw second; } ) _cx_raw; -STC_API _cx_self _cx_memb(_with_capacity)(intptr_t cap); +STC_API _cx_Self _cx_MEMB(_with_capacity)(intptr_t cap); #if !defined i_no_clone -STC_API _cx_self _cx_memb(_clone)(_cx_self map); +STC_API _cx_Self _cx_MEMB(_clone)(_cx_Self map); #endif -STC_API void _cx_memb(_drop)(_cx_self* self); -STC_API void _cx_memb(_clear)(_cx_self* self); -STC_API bool _cx_memb(_reserve)(_cx_self* self, intptr_t capacity); -STC_API chash_bucket _cx_memb(_bucket_)(const _cx_self* self, const _cx_keyraw* rkeyptr); -STC_API _cx_result _cx_memb(_insert_entry_)(_cx_self* self, _cx_keyraw rkey); -STC_API void _cx_memb(_erase_entry)(_cx_self* self, _cx_value* val); -STC_API float _cx_memb(_max_load_factor)(const _cx_self* self); -STC_API intptr_t _cx_memb(_capacity)(const _cx_self* map); - -STC_INLINE _cx_self _cx_memb(_init)(void) { _cx_self map = {0}; return map; } -STC_INLINE void _cx_memb(_shrink_to_fit)(_cx_self* self) { _cx_memb(_reserve)(self, (intptr_t)self->size); } -STC_INLINE bool _cx_memb(_empty)(const _cx_self* map) { return !map->size; } -STC_INLINE intptr_t _cx_memb(_size)(const _cx_self* map) { return (intptr_t)map->size; } -STC_INLINE intptr_t _cx_memb(_bucket_count)(_cx_self* map) { return map->bucket_count; } -STC_INLINE bool _cx_memb(_contains)(const _cx_self* self, _cx_keyraw rkey) - { return self->size && _cx_memb(_bucket_)(self, &rkey).found; } +STC_API void _cx_MEMB(_drop)(_cx_Self* self); +STC_API void _cx_MEMB(_clear)(_cx_Self* self); +STC_API bool _cx_MEMB(_reserve)(_cx_Self* self, intptr_t capacity); +STC_API chash_bucket _cx_MEMB(_bucket_)(const _cx_Self* self, const _cx_keyraw* rkeyptr); +STC_API _cx_result _cx_MEMB(_insert_entry_)(_cx_Self* self, _cx_keyraw rkey); +STC_API void _cx_MEMB(_erase_entry)(_cx_Self* self, _cx_value* val); +STC_API float _cx_MEMB(_max_load_factor)(const _cx_Self* self); +STC_API intptr_t _cx_MEMB(_capacity)(const _cx_Self* map); + +STC_INLINE _cx_Self _cx_MEMB(_init)(void) { _cx_Self map = {0}; return map; } +STC_INLINE void _cx_MEMB(_shrink_to_fit)(_cx_Self* self) { _cx_MEMB(_reserve)(self, (intptr_t)self->size); } +STC_INLINE bool _cx_MEMB(_empty)(const _cx_Self* map) { return !map->size; } +STC_INLINE intptr_t _cx_MEMB(_size)(const _cx_Self* map) { return (intptr_t)map->size; } +STC_INLINE intptr_t _cx_MEMB(_bucket_count)(_cx_Self* map) { return map->bucket_count; } +STC_INLINE bool _cx_MEMB(_contains)(const _cx_Self* self, _cx_keyraw rkey) + { return self->size && _cx_MEMB(_bucket_)(self, &rkey).found; } #ifndef _i_isset - STC_API _cx_result _cx_memb(_insert_or_assign)(_cx_self* self, i_key key, i_val mapped); + STC_API _cx_result _cx_MEMB(_insert_or_assign)(_cx_Self* self, i_key key, i_val mapped); #if !defined i_no_emplace - STC_API _cx_result _cx_memb(_emplace_or_assign)(_cx_self* self, _cx_keyraw rkey, i_valraw rmapped); + STC_API _cx_result _cx_MEMB(_emplace_or_assign)(_cx_Self* self, _cx_keyraw rkey, i_valraw rmapped); #endif STC_INLINE const _cx_mapped* - _cx_memb(_at)(const _cx_self* self, _cx_keyraw rkey) { - chash_bucket b = _cx_memb(_bucket_)(self, &rkey); + _cx_MEMB(_at)(const _cx_Self* self, _cx_keyraw rkey) { + chash_bucket b = _cx_MEMB(_bucket_)(self, &rkey); assert(b.found); return &self->data[b.idx].second; } STC_INLINE _cx_mapped* - _cx_memb(_at_mut)(_cx_self* self, _cx_keyraw rkey) - { return (_cx_mapped*)_cx_memb(_at)(self, rkey); } + _cx_MEMB(_at_mut)(_cx_Self* self, _cx_keyraw rkey) + { return (_cx_mapped*)_cx_MEMB(_at)(self, rkey); } #endif // !_i_isset #if !defined i_no_clone -STC_INLINE void _cx_memb(_copy)(_cx_self *self, const _cx_self* other) { +STC_INLINE void _cx_MEMB(_copy)(_cx_Self *self, const _cx_Self* other) { if (self->data == other->data) return; - _cx_memb(_drop)(self); - *self = _cx_memb(_clone)(*other); + _cx_MEMB(_drop)(self); + *self = _cx_MEMB(_clone)(*other); } STC_INLINE _cx_value -_cx_memb(_value_clone)(_cx_value _val) { +_cx_MEMB(_value_clone)(_cx_value _val) { *_i_keyref(&_val) = i_keyclone((*_i_keyref(&_val))); _i_MAP_ONLY( _val.second = i_valclone(_val.second); ) return _val; @@ -143,8 +143,8 @@ _cx_memb(_value_clone)(_cx_value _val) { #if !defined i_no_emplace STC_INLINE _cx_result -_cx_memb(_emplace)(_cx_self* self, _cx_keyraw rkey _i_MAP_ONLY(, i_valraw rmapped)) { - _cx_result _res = _cx_memb(_insert_entry_)(self, rkey); +_cx_MEMB(_emplace)(_cx_Self* self, _cx_keyraw rkey _i_MAP_ONLY(, i_valraw rmapped)) { + _cx_result _res = _cx_MEMB(_insert_entry_)(self, rkey); if (_res.inserted) { *_i_keyref(_res.ref) = i_keyfrom(rkey); _i_MAP_ONLY( _res.ref->second = i_valfrom(rmapped); ) @@ -153,19 +153,19 @@ _cx_memb(_emplace)(_cx_self* self, _cx_keyraw rkey _i_MAP_ONLY(, i_valraw rmappe } #endif // !i_no_emplace -STC_INLINE _cx_raw _cx_memb(_value_toraw)(const _cx_value* val) { +STC_INLINE _cx_raw _cx_MEMB(_value_toraw)(const _cx_value* val) { return _i_SET_ONLY( i_keyto(val) ) _i_MAP_ONLY( c_LITERAL(_cx_raw){i_keyto((&val->first)), i_valto((&val->second))} ); } -STC_INLINE void _cx_memb(_value_drop)(_cx_value* _val) { +STC_INLINE void _cx_MEMB(_value_drop)(_cx_value* _val) { i_keydrop(_i_keyref(_val)); _i_MAP_ONLY( i_valdrop((&_val->second)); ) } STC_INLINE _cx_result -_cx_memb(_insert)(_cx_self* self, i_key _key _i_MAP_ONLY(, i_val _mapped)) { - _cx_result _res = _cx_memb(_insert_entry_)(self, i_keyto((&_key))); +_cx_MEMB(_insert)(_cx_Self* self, i_key _key _i_MAP_ONLY(, i_val _mapped)) { + _cx_result _res = _cx_MEMB(_insert_entry_)(self, i_keyto((&_key))); if (_res.inserted) { *_i_keyref(_res.ref) = _key; _i_MAP_ONLY( _res.ref->second = _mapped; )} else @@ -173,90 +173,90 @@ _cx_memb(_insert)(_cx_self* self, i_key _key _i_MAP_ONLY(, i_val _mapped)) { return _res; } -STC_INLINE _cx_value* _cx_memb(_push)(_cx_self* self, _cx_value _val) { - _cx_result _res = _cx_memb(_insert_entry_)(self, i_keyto(_i_keyref(&_val))); +STC_INLINE _cx_value* _cx_MEMB(_push)(_cx_Self* self, _cx_value _val) { + _cx_result _res = _cx_MEMB(_insert_entry_)(self, i_keyto(_i_keyref(&_val))); if (_res.inserted) *_res.ref = _val; else - _cx_memb(_value_drop)(&_val); + _cx_MEMB(_value_drop)(&_val); return _res.ref; } -STC_INLINE void _cx_memb(_put_n)(_cx_self* self, const _cx_raw* raw, intptr_t n) { +STC_INLINE void _cx_MEMB(_put_n)(_cx_Self* self, const _cx_raw* raw, intptr_t n) { while (n--) #if defined _i_isset && defined i_no_emplace - _cx_memb(_insert)(self, *raw++); + _cx_MEMB(_insert)(self, *raw++); #elif defined _i_isset - _cx_memb(_emplace)(self, *raw++); + _cx_MEMB(_emplace)(self, *raw++); #elif defined i_no_emplace - _cx_memb(_insert_or_assign)(self, raw->first, raw->second), ++raw; + _cx_MEMB(_insert_or_assign)(self, raw->first, raw->second), ++raw; #else - _cx_memb(_emplace_or_assign)(self, raw->first, raw->second), ++raw; + _cx_MEMB(_emplace_or_assign)(self, raw->first, raw->second), ++raw; #endif } -STC_INLINE _cx_self _cx_memb(_from_n)(const _cx_raw* raw, intptr_t n) - { _cx_self cx = {0}; _cx_memb(_put_n)(&cx, raw, n); return cx; } +STC_INLINE _cx_Self _cx_MEMB(_from_n)(const _cx_raw* raw, intptr_t n) + { _cx_Self cx = {0}; _cx_MEMB(_put_n)(&cx, raw, n); return cx; } -STC_API _cx_iter _cx_memb(_begin)(const _cx_self* self); +STC_API _cx_iter _cx_MEMB(_begin)(const _cx_Self* self); -STC_INLINE _cx_iter _cx_memb(_end)(const _cx_self* self) +STC_INLINE _cx_iter _cx_MEMB(_end)(const _cx_Self* self) { return c_LITERAL(_cx_iter){NULL}; } -STC_INLINE void _cx_memb(_next)(_cx_iter* it) { +STC_INLINE void _cx_MEMB(_next)(_cx_iter* it) { while ((++it->ref, (++it->sref)->hashx == 0)) ; if (it->ref == it->_end) it->ref = NULL; } -STC_INLINE _cx_iter _cx_memb(_advance)(_cx_iter it, size_t n) { - while (n-- && it.ref) _cx_memb(_next)(&it); +STC_INLINE _cx_iter _cx_MEMB(_advance)(_cx_iter it, size_t n) { + while (n-- && it.ref) _cx_MEMB(_next)(&it); return it; } STC_INLINE _cx_iter -_cx_memb(_find)(const _cx_self* self, _cx_keyraw rkey) { +_cx_MEMB(_find)(const _cx_Self* self, _cx_keyraw rkey) { chash_bucket b; - if (self->size && (b = _cx_memb(_bucket_)(self, &rkey)).found) + if (self->size && (b = _cx_MEMB(_bucket_)(self, &rkey)).found) return c_LITERAL(_cx_iter){self->data + b.idx, self->data + self->bucket_count, self->slot + b.idx}; - return _cx_memb(_end)(self); + return _cx_MEMB(_end)(self); } STC_INLINE const _cx_value* -_cx_memb(_get)(const _cx_self* self, _cx_keyraw rkey) { +_cx_MEMB(_get)(const _cx_Self* self, _cx_keyraw rkey) { chash_bucket b; - if (self->size && (b = _cx_memb(_bucket_)(self, &rkey)).found) + if (self->size && (b = _cx_MEMB(_bucket_)(self, &rkey)).found) return self->data + b.idx; return NULL; } STC_INLINE _cx_value* -_cx_memb(_get_mut)(_cx_self* self, _cx_keyraw rkey) - { return (_cx_value*)_cx_memb(_get)(self, rkey); } +_cx_MEMB(_get_mut)(_cx_Self* self, _cx_keyraw rkey) + { return (_cx_value*)_cx_MEMB(_get)(self, rkey); } STC_INLINE int -_cx_memb(_erase)(_cx_self* self, _cx_keyraw rkey) { +_cx_MEMB(_erase)(_cx_Self* self, _cx_keyraw rkey) { chash_bucket b = {0}; - if (self->size && (b = _cx_memb(_bucket_)(self, &rkey)).found) - _cx_memb(_erase_entry)(self, self->data + b.idx); + if (self->size && (b = _cx_MEMB(_bucket_)(self, &rkey)).found) + _cx_MEMB(_erase_entry)(self, self->data + b.idx); return b.found; } STC_INLINE _cx_iter -_cx_memb(_erase_at)(_cx_self* self, _cx_iter it) { - _cx_memb(_erase_entry)(self, it.ref); +_cx_MEMB(_erase_at)(_cx_Self* self, _cx_iter it) { + _cx_MEMB(_erase_entry)(self, it.ref); if (it.sref->hashx == 0) - _cx_memb(_next)(&it); + _cx_MEMB(_next)(&it); return it; } STC_INLINE bool -_cx_memb(_eq)(const _cx_self* self, const _cx_self* other) { - if (_cx_memb(_size)(self) != _cx_memb(_size)(other)) return false; - for (_cx_iter i = _cx_memb(_begin)(self); i.ref; _cx_memb(_next)(&i)) { +_cx_MEMB(_eq)(const _cx_Self* self, const _cx_Self* other) { + if (_cx_MEMB(_size)(self) != _cx_MEMB(_size)(other)) return false; + for (_cx_iter i = _cx_MEMB(_begin)(self); i.ref; _cx_MEMB(_next)(&i)) { const _cx_keyraw _raw = i_keyto(_i_keyref(i.ref)); - if (!_cx_memb(_contains)(other, _raw)) return false; + if (!_cx_MEMB(_contains)(other, _raw)) return false; } return true; } @@ -268,7 +268,7 @@ _cx_memb(_eq)(const _cx_self* self, const _cx_self* other) { #endif #define fastrange_2(x, n) (intptr_t)((x) & (size_t)((n) - 1)) // n power of 2. -STC_DEF _cx_iter _cx_memb(_begin)(const _cx_self* self) { +STC_DEF _cx_iter _cx_MEMB(_begin)(const _cx_Self* self) { _cx_iter it = {self->data, self->data+self->bucket_count, self->slot}; if (it.sref) while (it.sref->hashx == 0) @@ -277,46 +277,46 @@ STC_DEF _cx_iter _cx_memb(_begin)(const _cx_self* self) { return it; } -STC_DEF float _cx_memb(_max_load_factor)(const _cx_self* self) { +STC_DEF float _cx_MEMB(_max_load_factor)(const _cx_Self* self) { return (float)(i_max_load_factor); } -STC_DEF intptr_t _cx_memb(_capacity)(const _cx_self* map) { +STC_DEF intptr_t _cx_MEMB(_capacity)(const _cx_Self* map) { return (intptr_t)((float)map->bucket_count * (i_max_load_factor)); } -STC_DEF _cx_self _cx_memb(_with_capacity)(const intptr_t cap) { - _cx_self map = {0}; - _cx_memb(_reserve)(&map, cap); +STC_DEF _cx_Self _cx_MEMB(_with_capacity)(const intptr_t cap) { + _cx_Self map = {0}; + _cx_MEMB(_reserve)(&map, cap); return map; } -STC_INLINE void _cx_memb(_wipe_)(_cx_self* self) { +STC_INLINE void _cx_MEMB(_wipe_)(_cx_Self* self) { if (self->size == 0) return; _cx_value* d = self->data, *_end = d + self->bucket_count; chash_slot* s = self->slot; for (; d != _end; ++d) if ((s++)->hashx) - _cx_memb(_value_drop)(d); + _cx_MEMB(_value_drop)(d); } -STC_DEF void _cx_memb(_drop)(_cx_self* self) { - _cx_memb(_wipe_)(self); +STC_DEF void _cx_MEMB(_drop)(_cx_Self* self) { + _cx_MEMB(_wipe_)(self); i_free(self->slot); i_free(self->data); } -STC_DEF void _cx_memb(_clear)(_cx_self* self) { - _cx_memb(_wipe_)(self); +STC_DEF void _cx_MEMB(_clear)(_cx_Self* self) { + _cx_MEMB(_wipe_)(self); self->size = 0; c_memset(self->slot, 0, c_sizeof(chash_slot)*self->bucket_count); } #ifndef _i_isset STC_DEF _cx_result - _cx_memb(_insert_or_assign)(_cx_self* self, i_key _key, i_val _mapped) { - _cx_result _res = _cx_memb(_insert_entry_)(self, i_keyto((&_key))); + _cx_MEMB(_insert_or_assign)(_cx_Self* self, i_key _key, i_val _mapped) { + _cx_result _res = _cx_MEMB(_insert_entry_)(self, i_keyto((&_key))); _cx_mapped* _mp = _res.ref ? &_res.ref->second : &_mapped; if (_res.inserted) _res.ref->first = _key; @@ -328,8 +328,8 @@ STC_DEF void _cx_memb(_clear)(_cx_self* self) { #if !defined i_no_emplace STC_DEF _cx_result - _cx_memb(_emplace_or_assign)(_cx_self* self, _cx_keyraw rkey, i_valraw rmapped) { - _cx_result _res = _cx_memb(_insert_entry_)(self, rkey); + _cx_MEMB(_emplace_or_assign)(_cx_Self* self, _cx_keyraw rkey, i_valraw rmapped) { + _cx_result _res = _cx_MEMB(_insert_entry_)(self, rkey); if (_res.inserted) _res.ref->first = i_keyfrom(rkey); else { @@ -343,7 +343,7 @@ STC_DEF void _cx_memb(_clear)(_cx_self* self) { #endif // !_i_isset STC_DEF chash_bucket -_cx_memb(_bucket_)(const _cx_self* self, const _cx_keyraw* rkeyptr) { +_cx_MEMB(_bucket_)(const _cx_Self* self, const _cx_keyraw* rkeyptr) { const uint64_t _hash = i_hash(rkeyptr); intptr_t _cap = self->bucket_count; chash_bucket b = {fastrange_2(_hash, _cap), (uint8_t)(_hash | 0x80)}; @@ -362,13 +362,13 @@ _cx_memb(_bucket_)(const _cx_self* self, const _cx_keyraw* rkeyptr) { } STC_DEF _cx_result -_cx_memb(_insert_entry_)(_cx_self* self, _cx_keyraw rkey) { +_cx_MEMB(_insert_entry_)(_cx_Self* self, _cx_keyraw rkey) { _cx_result res = {NULL}; if (self->size >= (intptr_t)((float)self->bucket_count * (i_max_load_factor))) - if (!_cx_memb(_reserve)(self, (intptr_t)(self->size*3/2 + 2))) + if (!_cx_MEMB(_reserve)(self, (intptr_t)(self->size*3/2 + 2))) return res; - chash_bucket b = _cx_memb(_bucket_)(self, &rkey); + chash_bucket b = _cx_MEMB(_bucket_)(self, &rkey); res.ref = &self->data[b.idx]; if (!b.found) { self->slot[b.idx].hashx = b.hashx; @@ -379,8 +379,8 @@ _cx_memb(_insert_entry_)(_cx_self* self, _cx_keyraw rkey) { } #if !defined i_no_clone -STC_DEF _cx_self -_cx_memb(_clone)(_cx_self m) { +STC_DEF _cx_Self +_cx_MEMB(_clone)(_cx_Self m) { if (m.data) { _cx_value *d = (_cx_value *)i_malloc(c_sizeof(_cx_value)*m.bucket_count), *_dst = d, *_end = m.data + m.bucket_count; @@ -391,7 +391,7 @@ _cx_memb(_clone)(_cx_self m) { else for (; m.data != _end; ++m.data, ++m.slot, ++_dst) if (m.slot->hashx) - *_dst = _cx_memb(_value_clone)(*m.data); + *_dst = _cx_MEMB(_value_clone)(*m.data); m.data = d, m.slot = s; } return m; @@ -399,13 +399,13 @@ _cx_memb(_clone)(_cx_self m) { #endif STC_DEF bool -_cx_memb(_reserve)(_cx_self* self, const intptr_t _newcap) { +_cx_MEMB(_reserve)(_cx_Self* self, const intptr_t _newcap) { const intptr_t _oldbucks = self->bucket_count; if (_newcap != self->size && _newcap <= _oldbucks) return true; intptr_t _newbucks = (intptr_t)((float)_newcap / (i_max_load_factor)) + 4; _newbucks = cnextpow2(_newbucks); - _cx_self m = { + _cx_Self m = { (_cx_value *)i_malloc(_newbucks*c_sizeof(_cx_value)), (chash_slot *)i_calloc(_newbucks + 1, sizeof(chash_slot)), self->size, _newbucks @@ -417,11 +417,11 @@ _cx_memb(_reserve)(_cx_self* self, const intptr_t _newcap) { const chash_slot* s = self->slot; for (intptr_t i = 0; i < _oldbucks; ++i, ++d) if ((s++)->hashx) { _cx_keyraw r = i_keyto(_i_keyref(d)); - chash_bucket b = _cx_memb(_bucket_)(&m, &r); + chash_bucket b = _cx_MEMB(_bucket_)(&m, &r); m.slot[b.idx].hashx = b.hashx; m.data[b.idx] = *d; // move } - c_swap(_cx_self, self, &m); + c_swap(_cx_Self, self, &m); } i_free(m.slot); i_free(m.data); @@ -429,12 +429,12 @@ _cx_memb(_reserve)(_cx_self* self, const intptr_t _newcap) { } STC_DEF void -_cx_memb(_erase_entry)(_cx_self* self, _cx_value* _val) { +_cx_MEMB(_erase_entry)(_cx_Self* self, _cx_value* _val) { _cx_value* d = self->data; chash_slot* s = self->slot; intptr_t i = _val - d, j = i, k; const intptr_t _cap = self->bucket_count; - _cx_memb(_value_drop)(_val); + _cx_MEMB(_value_drop)(_val); for (;;) { // delete without leaving tombstone if (++j == _cap) j = 0; if (! s[j].hashx) diff --git a/include/stc/cpque.h b/include/stc/cpque.h index b66c7735..cfe027cc 100644 --- a/include/stc/cpque.h +++ b/include/stc/cpque.h @@ -31,88 +31,88 @@ #define _i_prefix cpque_ #include "priv/template.h" #ifndef i_is_forward - _cx_deftypes(_c_cpque_types, _cx_self, i_key); + _cx_DEFTYPES(_c_cpque_types, _cx_Self, i_key); #endif typedef i_keyraw _cx_raw; -STC_API void _cx_memb(_make_heap)(_cx_self* self); -STC_API void _cx_memb(_erase_at)(_cx_self* self, intptr_t idx); -STC_API _cx_value* _cx_memb(_push)(_cx_self* self, _cx_value value); +STC_API void _cx_MEMB(_make_heap)(_cx_Self* self); +STC_API void _cx_MEMB(_erase_at)(_cx_Self* self, intptr_t idx); +STC_API _cx_value* _cx_MEMB(_push)(_cx_Self* self, _cx_value value); -STC_INLINE _cx_self _cx_memb(_init)(void) - { return c_LITERAL(_cx_self){NULL}; } +STC_INLINE _cx_Self _cx_MEMB(_init)(void) + { return c_LITERAL(_cx_Self){NULL}; } -STC_INLINE void _cx_memb(_put_n)(_cx_self* self, const _cx_raw* raw, intptr_t n) - { while (n--) _cx_memb(_push)(self, i_keyfrom(*raw++)); } +STC_INLINE void _cx_MEMB(_put_n)(_cx_Self* self, const _cx_raw* raw, intptr_t n) + { while (n--) _cx_MEMB(_push)(self, i_keyfrom(*raw++)); } -STC_INLINE _cx_self _cx_memb(_from_n)(const _cx_raw* raw, intptr_t n) - { _cx_self cx = {0}; _cx_memb(_put_n)(&cx, raw, n); return cx; } +STC_INLINE _cx_Self _cx_MEMB(_from_n)(const _cx_raw* raw, intptr_t n) + { _cx_Self cx = {0}; _cx_MEMB(_put_n)(&cx, raw, n); return cx; } -STC_INLINE bool _cx_memb(_reserve)(_cx_self* self, const intptr_t cap) { +STC_INLINE bool _cx_MEMB(_reserve)(_cx_Self* self, const intptr_t cap) { if (cap != self->_len && cap <= self->_cap) return true; _cx_value *d = (_cx_value *)i_realloc(self->data, cap*c_sizeof *d); return d ? (self->data = d, self->_cap = cap, true) : false; } -STC_INLINE void _cx_memb(_shrink_to_fit)(_cx_self* self) - { _cx_memb(_reserve)(self, self->_len); } +STC_INLINE void _cx_MEMB(_shrink_to_fit)(_cx_Self* self) + { _cx_MEMB(_reserve)(self, self->_len); } -STC_INLINE _cx_self _cx_memb(_with_capacity)(const intptr_t cap) { - _cx_self out = {NULL}; _cx_memb(_reserve)(&out, cap); +STC_INLINE _cx_Self _cx_MEMB(_with_capacity)(const intptr_t cap) { + _cx_Self out = {NULL}; _cx_MEMB(_reserve)(&out, cap); return out; } -STC_INLINE _cx_self _cx_memb(_with_size)(const intptr_t size, i_key null) { - _cx_self out = {NULL}; _cx_memb(_reserve)(&out, size); +STC_INLINE _cx_Self _cx_MEMB(_with_size)(const intptr_t size, i_key null) { + _cx_Self out = {NULL}; _cx_MEMB(_reserve)(&out, size); while (out._len < size) out.data[out._len++] = null; return out; } -STC_INLINE void _cx_memb(_clear)(_cx_self* self) { +STC_INLINE void _cx_MEMB(_clear)(_cx_Self* self) { intptr_t i = self->_len; self->_len = 0; while (i--) { i_keydrop((self->data + i)); } } -STC_INLINE void _cx_memb(_drop)(_cx_self* self) - { _cx_memb(_clear)(self); i_free(self->data); } +STC_INLINE void _cx_MEMB(_drop)(_cx_Self* self) + { _cx_MEMB(_clear)(self); i_free(self->data); } -STC_INLINE intptr_t _cx_memb(_size)(const _cx_self* q) +STC_INLINE intptr_t _cx_MEMB(_size)(const _cx_Self* q) { return q->_len; } -STC_INLINE bool _cx_memb(_empty)(const _cx_self* q) +STC_INLINE bool _cx_MEMB(_empty)(const _cx_Self* q) { return !q->_len; } -STC_INLINE intptr_t _cx_memb(_capacity)(const _cx_self* q) +STC_INLINE intptr_t _cx_MEMB(_capacity)(const _cx_Self* q) { return q->_cap; } -STC_INLINE const _cx_value* _cx_memb(_top)(const _cx_self* self) +STC_INLINE const _cx_value* _cx_MEMB(_top)(const _cx_Self* self) { return &self->data[0]; } -STC_INLINE void _cx_memb(_pop)(_cx_self* self) - { assert(!_cx_memb(_empty)(self)); _cx_memb(_erase_at)(self, 0); } +STC_INLINE void _cx_MEMB(_pop)(_cx_Self* self) + { assert(!_cx_MEMB(_empty)(self)); _cx_MEMB(_erase_at)(self, 0); } #if !defined i_no_clone -STC_API _cx_self _cx_memb(_clone)(_cx_self q); +STC_API _cx_Self _cx_MEMB(_clone)(_cx_Self q); -STC_INLINE void _cx_memb(_copy)(_cx_self *self, const _cx_self* other) { +STC_INLINE void _cx_MEMB(_copy)(_cx_Self *self, const _cx_Self* other) { if (self->data == other->data) return; - _cx_memb(_drop)(self); - *self = _cx_memb(_clone)(*other); + _cx_MEMB(_drop)(self); + *self = _cx_MEMB(_clone)(*other); } -STC_INLINE i_key _cx_memb(_value_clone)(_cx_value val) +STC_INLINE i_key _cx_MEMB(_value_clone)(_cx_value val) { return i_keyclone(val); } #endif // !i_no_clone #if !defined i_no_emplace -STC_INLINE void _cx_memb(_emplace)(_cx_self* self, _cx_raw raw) - { _cx_memb(_push)(self, i_keyfrom(raw)); } +STC_INLINE void _cx_MEMB(_emplace)(_cx_Self* self, _cx_raw raw) + { _cx_MEMB(_push)(self, i_keyfrom(raw)); } #endif // !i_no_emplace /* -------------------------- IMPLEMENTATION ------------------------- */ #if defined(i_implement) || defined(i_static) STC_DEF void -_cx_memb(_sift_down_)(_cx_self* self, const intptr_t idx, const intptr_t n) { +_cx_MEMB(_sift_down_)(_cx_Self* self, const intptr_t idx, const intptr_t n) { _cx_value t, *arr = self->data - 1; for (intptr_t r = idx, c = idx*2; c <= n; c *= 2) { c += i_less((&arr[c]), (&arr[c + (c < n)])); @@ -122,15 +122,15 @@ _cx_memb(_sift_down_)(_cx_self* self, const intptr_t idx, const intptr_t n) { } STC_DEF void -_cx_memb(_make_heap)(_cx_self* self) { +_cx_MEMB(_make_heap)(_cx_Self* self) { intptr_t n = self->_len; for (intptr_t k = n/2; k != 0; --k) - _cx_memb(_sift_down_)(self, k, n); + _cx_MEMB(_sift_down_)(self, k, n); } #if !defined i_no_clone -STC_DEF _cx_self _cx_memb(_clone)(_cx_self q) { - _cx_self out = _cx_memb(_with_capacity)(q._len); +STC_DEF _cx_Self _cx_MEMB(_clone)(_cx_Self q) { + _cx_Self out = _cx_MEMB(_with_capacity)(q._len); for (; out._len < out._cap; ++q.data) out.data[out._len++] = i_keyclone((*q.data)); return out; @@ -138,17 +138,17 @@ STC_DEF _cx_self _cx_memb(_clone)(_cx_self q) { #endif STC_DEF void -_cx_memb(_erase_at)(_cx_self* self, const intptr_t idx) { +_cx_MEMB(_erase_at)(_cx_Self* self, const intptr_t idx) { i_keydrop((self->data + idx)); const intptr_t n = --self->_len; self->data[idx] = self->data[n]; - _cx_memb(_sift_down_)(self, idx + 1, n); + _cx_MEMB(_sift_down_)(self, idx + 1, n); } STC_DEF _cx_value* -_cx_memb(_push)(_cx_self* self, _cx_value value) { +_cx_MEMB(_push)(_cx_Self* self, _cx_value value) { if (self->_len == self->_cap) - _cx_memb(_reserve)(self, self->_len*3/2 + 4); + _cx_MEMB(_reserve)(self, self->_len*3/2 + 4); _cx_value *arr = self->data - 1; /* base 1 */ intptr_t c = ++self->_len; for (; c > 1 && (i_less((&arr[c/2]), (&value))); c /= 2) diff --git a/include/stc/cqueue.h b/include/stc/cqueue.h index 2f709172..6eee712b 100644 --- a/include/stc/cqueue.h +++ b/include/stc/cqueue.h @@ -35,104 +35,104 @@ #include "priv/template.h" #ifndef i_is_forward -_cx_deftypes(_c_cdeq_types, _cx_self, i_key); +_cx_DEFTYPES(_c_cdeq_types, _cx_Self, i_key); #endif typedef i_keyraw _cx_raw; -STC_API _cx_self _cx_memb(_with_capacity)(const intptr_t n); -STC_API bool _cx_memb(_reserve)(_cx_self* self, const intptr_t n); -STC_API void _cx_memb(_clear)(_cx_self* self); -STC_API void _cx_memb(_drop)(_cx_self* self); -STC_API _cx_value* _cx_memb(_push)(_cx_self* self, i_key value); // push_back -STC_API void _cx_memb(_shrink_to_fit)(_cx_self *self); -STC_API _cx_iter _cx_memb(_advance)(_cx_iter it, intptr_t n); +STC_API _cx_Self _cx_MEMB(_with_capacity)(const intptr_t n); +STC_API bool _cx_MEMB(_reserve)(_cx_Self* self, const intptr_t n); +STC_API void _cx_MEMB(_clear)(_cx_Self* self); +STC_API void _cx_MEMB(_drop)(_cx_Self* self); +STC_API _cx_value* _cx_MEMB(_push)(_cx_Self* self, i_key value); // push_back +STC_API void _cx_MEMB(_shrink_to_fit)(_cx_Self *self); +STC_API _cx_iter _cx_MEMB(_advance)(_cx_iter it, intptr_t n); #define _cdeq_toidx(self, pos) (((pos) - (self)->start) & (self)->capmask) #define _cdeq_topos(self, idx) (((self)->start + (idx)) & (self)->capmask) -STC_INLINE _cx_self _cx_memb(_init)(void) - { _cx_self cx = {0}; return cx; } -STC_INLINE void _cx_memb(_put_n)(_cx_self* self, const _cx_raw* raw, intptr_t n) - { while (n--) _cx_memb(_push)(self, i_keyfrom(*raw++)); } -STC_INLINE _cx_self _cx_memb(_from_n)(const _cx_raw* raw, intptr_t n) - { _cx_self cx = {0}; _cx_memb(_put_n)(&cx, raw, n); return cx; } -STC_INLINE void _cx_memb(_value_drop)(_cx_value* val) { i_keydrop(val); } +STC_INLINE _cx_Self _cx_MEMB(_init)(void) + { _cx_Self cx = {0}; return cx; } +STC_INLINE void _cx_MEMB(_put_n)(_cx_Self* self, const _cx_raw* raw, intptr_t n) + { while (n--) _cx_MEMB(_push)(self, i_keyfrom(*raw++)); } +STC_INLINE _cx_Self _cx_MEMB(_from_n)(const _cx_raw* raw, intptr_t n) + { _cx_Self cx = {0}; _cx_MEMB(_put_n)(&cx, raw, n); return cx; } +STC_INLINE void _cx_MEMB(_value_drop)(_cx_value* val) { i_keydrop(val); } #if !defined i_no_emplace -STC_INLINE _cx_value* _cx_memb(_emplace)(_cx_self* self, _cx_raw raw) - { return _cx_memb(_push)(self, i_keyfrom(raw)); } +STC_INLINE _cx_value* _cx_MEMB(_emplace)(_cx_Self* self, _cx_raw raw) + { return _cx_MEMB(_push)(self, i_keyfrom(raw)); } #endif #if defined _i_has_cmp || defined _i_has_eq -STC_API bool _cx_memb(_eq)(const _cx_self* self, const _cx_self* other); +STC_API bool _cx_MEMB(_eq)(const _cx_Self* self, const _cx_Self* other); #endif #if !defined i_no_clone -STC_API _cx_self _cx_memb(_clone)(_cx_self cx); -STC_INLINE i_key _cx_memb(_value_clone)(i_key val) +STC_API _cx_Self _cx_MEMB(_clone)(_cx_Self cx); +STC_INLINE i_key _cx_MEMB(_value_clone)(i_key val) { return i_keyclone(val); } #endif // !i_no_clone -STC_INLINE intptr_t _cx_memb(_size)(const _cx_self* self) +STC_INLINE intptr_t _cx_MEMB(_size)(const _cx_Self* self) { return _cdeq_toidx(self, self->end); } -STC_INLINE intptr_t _cx_memb(_capacity)(const _cx_self* self) +STC_INLINE intptr_t _cx_MEMB(_capacity)(const _cx_Self* self) { return self->capmask; } -STC_INLINE bool _cx_memb(_empty)(const _cx_self* self) +STC_INLINE bool _cx_MEMB(_empty)(const _cx_Self* self) { return self->start == self->end; } -STC_INLINE _cx_raw _cx_memb(_value_toraw)(const _cx_value* pval) +STC_INLINE _cx_raw _cx_MEMB(_value_toraw)(const _cx_value* pval) { return i_keyto(pval); } -STC_INLINE _cx_value* _cx_memb(_front)(const _cx_self* self) +STC_INLINE _cx_value* _cx_MEMB(_front)(const _cx_Self* self) { return self->data + self->start; } -STC_INLINE _cx_value* _cx_memb(_back)(const _cx_self* self) +STC_INLINE _cx_value* _cx_MEMB(_back)(const _cx_Self* self) { return self->data + ((self->end - 1) & self->capmask); } -STC_INLINE void _cx_memb(_pop)(_cx_self* self) { // pop_front - assert(!_cx_memb(_empty)(self)); +STC_INLINE void _cx_MEMB(_pop)(_cx_Self* self) { // pop_front + assert(!_cx_MEMB(_empty)(self)); i_keydrop((self->data + self->start)); self->start = (self->start + 1) & self->capmask; } -STC_INLINE _cx_value _cx_memb(_pull)(_cx_self* self) { // move front out of queue - assert(!_cx_memb(_empty)(self)); +STC_INLINE _cx_value _cx_MEMB(_pull)(_cx_Self* self) { // move front out of queue + assert(!_cx_MEMB(_empty)(self)); intptr_t s = self->start; self->start = (s + 1) & self->capmask; return self->data[s]; } -STC_INLINE void _cx_memb(_copy)(_cx_self* self, const _cx_self* other) { +STC_INLINE void _cx_MEMB(_copy)(_cx_Self* self, const _cx_Self* other) { if (self->data == other->data) return; - _cx_memb(_drop)(self); - *self = _cx_memb(_clone)(*other); + _cx_MEMB(_drop)(self); + *self = _cx_MEMB(_clone)(*other); } -STC_INLINE _cx_iter _cx_memb(_begin)(const _cx_self* self) { +STC_INLINE _cx_iter _cx_MEMB(_begin)(const _cx_Self* self) { return c_LITERAL(_cx_iter){ - _cx_memb(_empty)(self) ? NULL : self->data + self->start, + _cx_MEMB(_empty)(self) ? NULL : self->data + self->start, self->start, self }; } -STC_INLINE _cx_iter _cx_memb(_end)(const _cx_self* self) +STC_INLINE _cx_iter _cx_MEMB(_end)(const _cx_Self* self) { return c_LITERAL(_cx_iter){.pos=self->end, ._s=self}; } -STC_INLINE void _cx_memb(_next)(_cx_iter* it) { +STC_INLINE void _cx_MEMB(_next)(_cx_iter* it) { if (it->pos != it->_s->capmask) { ++it->ref; ++it->pos; } else { it->ref -= it->pos; it->pos = 0; } if (it->pos == it->_s->end) it->ref = NULL; } -STC_INLINE intptr_t _cx_memb(_index)(const _cx_self* self, _cx_iter it) +STC_INLINE intptr_t _cx_MEMB(_index)(const _cx_Self* self, _cx_iter it) { return _cdeq_toidx(self, it.pos); } -STC_INLINE void _cx_memb(_adjust_end_)(_cx_self* self, intptr_t n) +STC_INLINE void _cx_MEMB(_adjust_end_)(_cx_Self* self, intptr_t n) { self->end = (self->end + n) & self->capmask; } /* -------------------------- IMPLEMENTATION ------------------------- */ #if defined(i_implement) || defined(i_static) -STC_DEF _cx_iter _cx_memb(_advance)(_cx_iter it, intptr_t n) { - intptr_t len = _cx_memb(_size)(it._s); +STC_DEF _cx_iter _cx_MEMB(_advance)(_cx_iter it, intptr_t n) { + intptr_t len = _cx_MEMB(_size)(it._s); intptr_t pos = it.pos, idx = _cdeq_toidx(it._s, pos); it.pos = (pos + n) & it._s->capmask; it.ref += it.pos - pos; @@ -141,27 +141,27 @@ STC_DEF _cx_iter _cx_memb(_advance)(_cx_iter it, intptr_t n) { } STC_DEF void -_cx_memb(_clear)(_cx_self* self) { - c_foreach (i, _cx_self, *self) +_cx_MEMB(_clear)(_cx_Self* self) { + c_foreach (i, _cx_Self, *self) { i_keydrop(i.ref); } self->start = 0, self->end = 0; } STC_DEF void -_cx_memb(_drop)(_cx_self* self) { - _cx_memb(_clear)(self); +_cx_MEMB(_drop)(_cx_Self* self) { + _cx_MEMB(_clear)(self); i_free(self->data); } -STC_DEF _cx_self -_cx_memb(_with_capacity)(const intptr_t n) { - _cx_self cx = {0}; - _cx_memb(_reserve)(&cx, n); +STC_DEF _cx_Self +_cx_MEMB(_with_capacity)(const intptr_t n) { + _cx_Self cx = {0}; + _cx_MEMB(_reserve)(&cx, n); return cx; } STC_DEF bool -_cx_memb(_reserve)(_cx_self* self, const intptr_t n) { +_cx_MEMB(_reserve)(_cx_Self* self, const intptr_t n) { if (n <= self->capmask) return true; intptr_t oldcap = self->capmask + 1, newcap = cnextpow2(n + 1); @@ -184,10 +184,10 @@ _cx_memb(_reserve)(_cx_self* self, const intptr_t n) { } STC_DEF _cx_value* -_cx_memb(_push)(_cx_self* self, i_key value) { // push_back +_cx_MEMB(_push)(_cx_Self* self, i_key value) { // push_back intptr_t end = (self->end + 1) & self->capmask; if (end == self->start) { // full - _cx_memb(_reserve)(self, self->capmask + 3); // => 2x expand + _cx_MEMB(_reserve)(self, self->capmask + 3); // => 2x expand end = (self->end + 1) & self->capmask; } _cx_value *v = self->data + self->end; @@ -197,14 +197,14 @@ _cx_memb(_push)(_cx_self* self, i_key value) { // push_back } STC_DEF void -_cx_memb(_shrink_to_fit)(_cx_self *self) { - intptr_t sz = _cx_memb(_size)(self), j = 0; +_cx_MEMB(_shrink_to_fit)(_cx_Self *self) { + intptr_t sz = _cx_MEMB(_size)(self), j = 0; if (sz > self->capmask/2) return; - _cx_self out = _cx_memb(_with_capacity)(sz); + _cx_Self out = _cx_MEMB(_with_capacity)(sz); if (!out.data) return; - c_foreach (i, _cx_self, *self) + c_foreach (i, _cx_Self, *self) out.data[j++] = *i.ref; out.end = sz; i_free(self->data); @@ -212,12 +212,12 @@ _cx_memb(_shrink_to_fit)(_cx_self *self) { } #if !defined i_no_clone -STC_DEF _cx_self -_cx_memb(_clone)(_cx_self cx) { - intptr_t sz = _cx_memb(_size)(&cx), j = 0; - _cx_self out = _cx_memb(_with_capacity)(sz); +STC_DEF _cx_Self +_cx_MEMB(_clone)(_cx_Self cx) { + intptr_t sz = _cx_MEMB(_size)(&cx), j = 0; + _cx_Self out = _cx_MEMB(_with_capacity)(sz); if (out.data) - c_foreach (i, _cx_self, cx) + c_foreach (i, _cx_Self, cx) out.data[j++] = i_keyclone((*i.ref)); out.end = sz; return out; @@ -226,10 +226,10 @@ _cx_memb(_clone)(_cx_self cx) { #if defined _i_has_cmp || defined _i_has_eq STC_DEF bool -_cx_memb(_eq)(const _cx_self* self, const _cx_self* other) { - if (_cx_memb(_size)(self) != _cx_memb(_size)(other)) return false; - for (_cx_iter i = _cx_memb(_begin)(self), j = _cx_memb(_begin)(other); - i.ref; _cx_memb(_next)(&i), _cx_memb(_next)(&j)) +_cx_MEMB(_eq)(const _cx_Self* self, const _cx_Self* other) { + if (_cx_MEMB(_size)(self) != _cx_MEMB(_size)(other)) return false; + for (_cx_iter i = _cx_MEMB(_begin)(self), j = _cx_MEMB(_begin)(other); + i.ref; _cx_MEMB(_next)(&i), _cx_MEMB(_next)(&j)) { const _cx_raw _rx = i_keyto(i.ref), _ry = i_keyto(j.ref); if (!(i_eq((&_rx), (&_ry)))) return false; diff --git a/include/stc/csmap.h b/include/stc/csmap.h index 28598f0a..f4d33a4d 100644 --- a/include/stc/csmap.h +++ b/include/stc/csmap.h @@ -73,7 +73,7 @@ int main(void) { #endif #include "priv/template.h" #ifndef i_is_forward - _cx_deftypes(_c_aatree_types, _cx_self, i_key, i_val, _i_MAP_ONLY, _i_SET_ONLY); + _cx_DEFTYPES(_c_aatree_types, _cx_Self, i_key, i_val, _i_MAP_ONLY, _i_SET_ONLY); #endif _i_MAP_ONLY( struct _cx_value { @@ -87,133 +87,133 @@ struct _cx_node { }; typedef i_keyraw _cx_keyraw; -typedef i_valraw _cx_memb(_rmapped); +typedef i_valraw _cx_MEMB(_rmapped); typedef _i_SET_ONLY( i_keyraw ) _i_MAP_ONLY( struct { i_keyraw first; i_valraw second; } ) _cx_raw; #if !defined i_no_emplace -STC_API _cx_result _cx_memb(_emplace)(_cx_self* self, _cx_keyraw rkey _i_MAP_ONLY(, i_valraw rmapped)); +STC_API _cx_result _cx_MEMB(_emplace)(_cx_Self* self, _cx_keyraw rkey _i_MAP_ONLY(, i_valraw rmapped)); #endif // !i_no_emplace #if !defined i_no_clone -STC_API _cx_self _cx_memb(_clone)(_cx_self tree); +STC_API _cx_Self _cx_MEMB(_clone)(_cx_Self tree); #endif // !i_no_clone -STC_API void _cx_memb(_drop)(_cx_self* self); -STC_API bool _cx_memb(_reserve)(_cx_self* self, intptr_t cap); -STC_API _cx_value* _cx_memb(_find_it)(const _cx_self* self, _cx_keyraw rkey, _cx_iter* out); -STC_API _cx_iter _cx_memb(_lower_bound)(const _cx_self* self, _cx_keyraw rkey); -STC_API _cx_value* _cx_memb(_front)(const _cx_self* self); -STC_API _cx_value* _cx_memb(_back)(const _cx_self* self); -STC_API int _cx_memb(_erase)(_cx_self* self, _cx_keyraw rkey); -STC_API _cx_iter _cx_memb(_erase_at)(_cx_self* self, _cx_iter it); -STC_API _cx_iter _cx_memb(_erase_range)(_cx_self* self, _cx_iter it1, _cx_iter it2); -STC_API _cx_iter _cx_memb(_begin)(const _cx_self* self); -STC_API void _cx_memb(_next)(_cx_iter* it); - -STC_INLINE _cx_self _cx_memb(_init)(void) { _cx_self tree = {0}; return tree; } -STC_INLINE bool _cx_memb(_empty)(const _cx_self* cx) { return cx->size == 0; } -STC_INLINE intptr_t _cx_memb(_size)(const _cx_self* cx) { return cx->size; } -STC_INLINE intptr_t _cx_memb(_capacity)(const _cx_self* cx) { return cx->cap; } -STC_INLINE _cx_iter _cx_memb(_find)(const _cx_self* self, _cx_keyraw rkey) - { _cx_iter it; _cx_memb(_find_it)(self, rkey, &it); return it; } -STC_INLINE bool _cx_memb(_contains)(const _cx_self* self, _cx_keyraw rkey) - { _cx_iter it; return _cx_memb(_find_it)(self, rkey, &it) != NULL; } -STC_INLINE const _cx_value* _cx_memb(_get)(const _cx_self* self, _cx_keyraw rkey) - { _cx_iter it; return _cx_memb(_find_it)(self, rkey, &it); } -STC_INLINE _cx_value* _cx_memb(_get_mut)(_cx_self* self, _cx_keyraw rkey) - { _cx_iter it; return _cx_memb(_find_it)(self, rkey, &it); } - -STC_INLINE _cx_self -_cx_memb(_with_capacity)(const intptr_t cap) { - _cx_self tree = _cx_memb(_init)(); - _cx_memb(_reserve)(&tree, cap); +STC_API void _cx_MEMB(_drop)(_cx_Self* self); +STC_API bool _cx_MEMB(_reserve)(_cx_Self* self, intptr_t cap); +STC_API _cx_value* _cx_MEMB(_find_it)(const _cx_Self* self, _cx_keyraw rkey, _cx_iter* out); +STC_API _cx_iter _cx_MEMB(_lower_bound)(const _cx_Self* self, _cx_keyraw rkey); +STC_API _cx_value* _cx_MEMB(_front)(const _cx_Self* self); +STC_API _cx_value* _cx_MEMB(_back)(const _cx_Self* self); +STC_API int _cx_MEMB(_erase)(_cx_Self* self, _cx_keyraw rkey); +STC_API _cx_iter _cx_MEMB(_erase_at)(_cx_Self* self, _cx_iter it); +STC_API _cx_iter _cx_MEMB(_erase_range)(_cx_Self* self, _cx_iter it1, _cx_iter it2); +STC_API _cx_iter _cx_MEMB(_begin)(const _cx_Self* self); +STC_API void _cx_MEMB(_next)(_cx_iter* it); + +STC_INLINE _cx_Self _cx_MEMB(_init)(void) { _cx_Self tree = {0}; return tree; } +STC_INLINE bool _cx_MEMB(_empty)(const _cx_Self* cx) { return cx->size == 0; } +STC_INLINE intptr_t _cx_MEMB(_size)(const _cx_Self* cx) { return cx->size; } +STC_INLINE intptr_t _cx_MEMB(_capacity)(const _cx_Self* cx) { return cx->cap; } +STC_INLINE _cx_iter _cx_MEMB(_find)(const _cx_Self* self, _cx_keyraw rkey) + { _cx_iter it; _cx_MEMB(_find_it)(self, rkey, &it); return it; } +STC_INLINE bool _cx_MEMB(_contains)(const _cx_Self* self, _cx_keyraw rkey) + { _cx_iter it; return _cx_MEMB(_find_it)(self, rkey, &it) != NULL; } +STC_INLINE const _cx_value* _cx_MEMB(_get)(const _cx_Self* self, _cx_keyraw rkey) + { _cx_iter it; return _cx_MEMB(_find_it)(self, rkey, &it); } +STC_INLINE _cx_value* _cx_MEMB(_get_mut)(_cx_Self* self, _cx_keyraw rkey) + { _cx_iter it; return _cx_MEMB(_find_it)(self, rkey, &it); } + +STC_INLINE _cx_Self +_cx_MEMB(_with_capacity)(const intptr_t cap) { + _cx_Self tree = _cx_MEMB(_init)(); + _cx_MEMB(_reserve)(&tree, cap); return tree; } STC_INLINE void -_cx_memb(_clear)(_cx_self* self) - { _cx_memb(_drop)(self); *self = _cx_memb(_init)(); } +_cx_MEMB(_clear)(_cx_Self* self) + { _cx_MEMB(_drop)(self); *self = _cx_MEMB(_init)(); } STC_INLINE _cx_raw -_cx_memb(_value_toraw)(const _cx_value* val) { +_cx_MEMB(_value_toraw)(const _cx_value* val) { return _i_SET_ONLY( i_keyto(val) ) _i_MAP_ONLY( c_LITERAL(_cx_raw){i_keyto((&val->first)), i_valto((&val->second))} ); } STC_INLINE void -_cx_memb(_value_drop)(_cx_value* val) { +_cx_MEMB(_value_drop)(_cx_value* val) { i_keydrop(_i_keyref(val)); _i_MAP_ONLY( i_valdrop((&val->second)); ) } #if !defined i_no_clone STC_INLINE _cx_value -_cx_memb(_value_clone)(_cx_value _val) { +_cx_MEMB(_value_clone)(_cx_value _val) { *_i_keyref(&_val) = i_keyclone((*_i_keyref(&_val))); _i_MAP_ONLY( _val.second = i_valclone(_val.second); ) return _val; } STC_INLINE void -_cx_memb(_copy)(_cx_self *self, const _cx_self* other) { +_cx_MEMB(_copy)(_cx_Self *self, const _cx_Self* other) { if (self->nodes == other->nodes) return; - _cx_memb(_drop)(self); - *self = _cx_memb(_clone)(*other); + _cx_MEMB(_drop)(self); + *self = _cx_MEMB(_clone)(*other); } STC_INLINE void -_cx_memb(_shrink_to_fit)(_cx_self *self) { - _cx_self tmp = _cx_memb(_clone)(*self); - _cx_memb(_drop)(self); *self = tmp; +_cx_MEMB(_shrink_to_fit)(_cx_Self *self) { + _cx_Self tmp = _cx_MEMB(_clone)(*self); + _cx_MEMB(_drop)(self); *self = tmp; } #endif // !i_no_clone #ifndef _i_isset - STC_API _cx_result _cx_memb(_insert_or_assign)(_cx_self* self, i_key key, i_val mapped); + STC_API _cx_result _cx_MEMB(_insert_or_assign)(_cx_Self* self, i_key key, i_val mapped); #if !defined i_no_emplace - STC_API _cx_result _cx_memb(_emplace_or_assign)(_cx_self* self, _cx_keyraw rkey, i_valraw rmapped); + STC_API _cx_result _cx_MEMB(_emplace_or_assign)(_cx_Self* self, _cx_keyraw rkey, i_valraw rmapped); #endif STC_INLINE const _cx_mapped* - _cx_memb(_at)(const _cx_self* self, _cx_keyraw rkey) - { _cx_iter it; return &_cx_memb(_find_it)(self, rkey, &it)->second; } + _cx_MEMB(_at)(const _cx_Self* self, _cx_keyraw rkey) + { _cx_iter it; return &_cx_MEMB(_find_it)(self, rkey, &it)->second; } STC_INLINE _cx_mapped* - _cx_memb(_at_mut)(_cx_self* self, _cx_keyraw rkey) - { _cx_iter it; return &_cx_memb(_find_it)(self, rkey, &it)->second; } + _cx_MEMB(_at_mut)(_cx_Self* self, _cx_keyraw rkey) + { _cx_iter it; return &_cx_MEMB(_find_it)(self, rkey, &it)->second; } #endif // !_i_isset STC_INLINE _cx_iter -_cx_memb(_end)(const _cx_self* self) { +_cx_MEMB(_end)(const _cx_Self* self) { (void)self; _cx_iter it; it.ref = NULL, it._top = 0, it._tn = 0; return it; } STC_INLINE _cx_iter -_cx_memb(_advance)(_cx_iter it, size_t n) { +_cx_MEMB(_advance)(_cx_iter it, size_t n) { while (n-- && it.ref) - _cx_memb(_next)(&it); + _cx_MEMB(_next)(&it); return it; } STC_INLINE bool -_cx_memb(_eq)(const _cx_self* self, const _cx_self* other) { - if (_cx_memb(_size)(self) != _cx_memb(_size)(other)) return false; - _cx_iter i = _cx_memb(_begin)(self), j = _cx_memb(_begin)(other); - for (; i.ref; _cx_memb(_next)(&i), _cx_memb(_next)(&j)) { +_cx_MEMB(_eq)(const _cx_Self* self, const _cx_Self* other) { + if (_cx_MEMB(_size)(self) != _cx_MEMB(_size)(other)) return false; + _cx_iter i = _cx_MEMB(_begin)(self), j = _cx_MEMB(_begin)(other); + for (; i.ref; _cx_MEMB(_next)(&i), _cx_MEMB(_next)(&j)) { const _cx_keyraw _rx = i_keyto(_i_keyref(i.ref)), _ry = i_keyto(_i_keyref(j.ref)); if (!(i_eq((&_rx), (&_ry)))) return false; } return true; } -static _cx_result _cx_memb(_insert_entry_)(_cx_self* self, _cx_keyraw rkey); +static _cx_result _cx_MEMB(_insert_entry_)(_cx_Self* self, _cx_keyraw rkey); STC_INLINE _cx_result -_cx_memb(_insert)(_cx_self* self, i_key _key _i_MAP_ONLY(, i_val _mapped)) { - _cx_result _res = _cx_memb(_insert_entry_)(self, i_keyto((&_key))); +_cx_MEMB(_insert)(_cx_Self* self, i_key _key _i_MAP_ONLY(, i_val _mapped)) { + _cx_result _res = _cx_MEMB(_insert_entry_)(self, i_keyto((&_key))); if (_res.inserted) { *_i_keyref(_res.ref) = _key; _i_MAP_ONLY( _res.ref->second = _mapped; )} else @@ -222,38 +222,38 @@ _cx_memb(_insert)(_cx_self* self, i_key _key _i_MAP_ONLY(, i_val _mapped)) { } STC_INLINE _cx_value* -_cx_memb(_push)(_cx_self* self, _cx_value _val) { - _cx_result _res = _cx_memb(_insert_entry_)(self, i_keyto(_i_keyref(&_val))); +_cx_MEMB(_push)(_cx_Self* self, _cx_value _val) { + _cx_result _res = _cx_MEMB(_insert_entry_)(self, i_keyto(_i_keyref(&_val))); if (_res.inserted) *_res.ref = _val; else - _cx_memb(_value_drop)(&_val); + _cx_MEMB(_value_drop)(&_val); return _res.ref; } STC_INLINE void -_cx_memb(_put_n)(_cx_self* self, const _cx_raw* raw, intptr_t n) { +_cx_MEMB(_put_n)(_cx_Self* self, const _cx_raw* raw, intptr_t n) { while (n--) #if defined _i_isset && defined i_no_emplace - _cx_memb(_insert)(self, *raw++); + _cx_MEMB(_insert)(self, *raw++); #elif defined _i_isset - _cx_memb(_emplace)(self, *raw++); + _cx_MEMB(_emplace)(self, *raw++); #elif defined i_no_emplace - _cx_memb(_insert_or_assign)(self, raw->first, raw->second), ++raw; + _cx_MEMB(_insert_or_assign)(self, raw->first, raw->second), ++raw; #else - _cx_memb(_emplace_or_assign)(self, raw->first, raw->second), ++raw; + _cx_MEMB(_emplace_or_assign)(self, raw->first, raw->second), ++raw; #endif } -STC_INLINE _cx_self -_cx_memb(_from_n)(const _cx_raw* raw, intptr_t n) - { _cx_self cx = {0}; _cx_memb(_put_n)(&cx, raw, n); return cx; } +STC_INLINE _cx_Self +_cx_MEMB(_from_n)(const _cx_raw* raw, intptr_t n) + { _cx_Self cx = {0}; _cx_MEMB(_put_n)(&cx, raw, n); return cx; } /* -------------------------- IMPLEMENTATION ------------------------- */ #if defined(i_implement) || defined(i_static) STC_DEF void -_cx_memb(_next)(_cx_iter *it) { +_cx_MEMB(_next)(_cx_iter *it) { int32_t tn = it->_tn; if (it->_top || tn) { while (tn) { @@ -268,18 +268,18 @@ _cx_memb(_next)(_cx_iter *it) { } STC_DEF _cx_iter -_cx_memb(_begin)(const _cx_self* self) { +_cx_MEMB(_begin)(const _cx_Self* self) { _cx_iter it; it.ref = NULL; it._d = self->nodes, it._top = 0; it._tn = self->root; if (it._tn) - _cx_memb(_next)(&it); + _cx_MEMB(_next)(&it); return it; } STC_DEF bool -_cx_memb(_reserve)(_cx_self* self, const intptr_t cap) { +_cx_MEMB(_reserve)(_cx_Self* self, const intptr_t cap) { if (cap <= self->cap) return false; _cx_node* nodes = (_cx_node*)i_realloc(self->nodes, (cap + 1)*c_sizeof(_cx_node)); @@ -292,7 +292,7 @@ _cx_memb(_reserve)(_cx_self* self, const intptr_t cap) { } STC_DEF _cx_value* -_cx_memb(_front)(const _cx_self* self) { +_cx_MEMB(_front)(const _cx_Self* self) { _cx_node *d = self->nodes; int32_t tn = self->root; while (d[tn].link[0]) @@ -301,7 +301,7 @@ _cx_memb(_front)(const _cx_self* self) { } STC_DEF _cx_value* -_cx_memb(_back)(const _cx_self* self) { +_cx_MEMB(_back)(const _cx_Self* self) { _cx_node *d = self->nodes; int32_t tn = self->root; while (d[tn].link[1]) @@ -310,14 +310,14 @@ _cx_memb(_back)(const _cx_self* self) { } static int32_t -_cx_memb(_new_node_)(_cx_self* self, int level) { +_cx_MEMB(_new_node_)(_cx_Self* self, int level) { int32_t tn; if (self->disp) { tn = self->disp; self->disp = self->nodes[tn].link[1]; } else { if (self->head == self->cap) - if (!_cx_memb(_reserve)(self, self->head*3/2 + 4)) + if (!_cx_MEMB(_reserve)(self, self->head*3/2 + 4)) return 0; tn = ++self->head; /* start with 1, 0 is nullnode. */ } @@ -328,8 +328,8 @@ _cx_memb(_new_node_)(_cx_self* self, int level) { #ifndef _i_isset STC_DEF _cx_result - _cx_memb(_insert_or_assign)(_cx_self* self, i_key _key, i_val _mapped) { - _cx_result _res = _cx_memb(_insert_entry_)(self, i_keyto((&_key))); + _cx_MEMB(_insert_or_assign)(_cx_Self* self, i_key _key, i_val _mapped) { + _cx_result _res = _cx_MEMB(_insert_entry_)(self, i_keyto((&_key))); _cx_mapped* _mp = _res.ref ? &_res.ref->second : &_mapped; if (_res.inserted) _res.ref->first = _key; @@ -341,8 +341,8 @@ _cx_memb(_new_node_)(_cx_self* self, int level) { #if !defined i_no_emplace STC_DEF _cx_result - _cx_memb(_emplace_or_assign)(_cx_self* self, _cx_keyraw rkey, i_valraw rmapped) { - _cx_result _res = _cx_memb(_insert_entry_)(self, rkey); + _cx_MEMB(_emplace_or_assign)(_cx_Self* self, _cx_keyraw rkey, i_valraw rmapped) { + _cx_result _res = _cx_MEMB(_insert_entry_)(self, rkey); if (_res.inserted) _res.ref->first = i_keyfrom(rkey); else { @@ -356,7 +356,7 @@ _cx_memb(_new_node_)(_cx_self* self, int level) { #endif // !_i_isset STC_DEF _cx_value* -_cx_memb(_find_it)(const _cx_self* self, _cx_keyraw rkey, _cx_iter* out) { +_cx_MEMB(_find_it)(const _cx_Self* self, _cx_keyraw rkey, _cx_iter* out) { int32_t tn = self->root; _cx_node *d = out->_d = self->nodes; out->_top = 0; @@ -373,9 +373,9 @@ _cx_memb(_find_it)(const _cx_self* self, _cx_keyraw rkey, _cx_iter* out) { } STC_DEF _cx_iter -_cx_memb(_lower_bound)(const _cx_self* self, _cx_keyraw rkey) { +_cx_MEMB(_lower_bound)(const _cx_Self* self, _cx_keyraw rkey) { _cx_iter it; - _cx_memb(_find_it)(self, rkey, &it); + _cx_MEMB(_find_it)(self, rkey, &it); if (!it.ref && it._top) { int32_t tn = it._st[--it._top]; it._tn = it._d[tn].link[1]; @@ -385,7 +385,7 @@ _cx_memb(_lower_bound)(const _cx_self* self, _cx_keyraw rkey) { } STC_DEF int32_t -_cx_memb(_skew_)(_cx_node *d, int32_t tn) { +_cx_MEMB(_skew_)(_cx_node *d, int32_t tn) { if (tn && d[d[tn].link[0]].level == d[tn].level) { int32_t tmp = d[tn].link[0]; d[tn].link[0] = d[tmp].link[1]; @@ -396,7 +396,7 @@ _cx_memb(_skew_)(_cx_node *d, int32_t tn) { } STC_DEF int32_t -_cx_memb(_split_)(_cx_node *d, int32_t tn) { +_cx_MEMB(_split_)(_cx_node *d, int32_t tn) { if (d[d[d[tn].link[1]].link[1]].level == d[tn].level) { int32_t tmp = d[tn].link[1]; d[tn].link[1] = d[tmp].link[0]; @@ -408,7 +408,7 @@ _cx_memb(_split_)(_cx_node *d, int32_t tn) { } static int32_t -_cx_memb(_insert_entry_i_)(_cx_self* self, int32_t tn, const _cx_keyraw* rkey, _cx_result* _res) { +_cx_MEMB(_insert_entry_i_)(_cx_Self* self, int32_t tn, const _cx_keyraw* rkey, _cx_result* _res) { int32_t up[64], tx = tn; _cx_node* d = self->nodes; int c, top = 0, dir = 0; @@ -420,7 +420,7 @@ _cx_memb(_insert_entry_i_)(_cx_self* self, int32_t tn, const _cx_keyraw* rkey, _ dir = (c < 0); tx = d[tx].link[dir]; } - if ((tx = _cx_memb(_new_node_)(self, 1)) == 0) + if ((tx = _cx_MEMB(_new_node_)(self, 1)) == 0) return 0; d = self->nodes; _res->ref = &d[tx].value; @@ -431,8 +431,8 @@ _cx_memb(_insert_entry_i_)(_cx_self* self, int32_t tn, const _cx_keyraw* rkey, _ while (top--) { if (top) dir = (d[up[top - 1]].link[1] == up[top]); - up[top] = _cx_memb(_skew_)(d, up[top]); - up[top] = _cx_memb(_split_)(d, up[top]); + up[top] = _cx_MEMB(_skew_)(d, up[top]); + up[top] = _cx_MEMB(_split_)(d, up[top]); if (top) d[up[top - 1]].link[dir] = up[top]; } @@ -440,33 +440,33 @@ _cx_memb(_insert_entry_i_)(_cx_self* self, int32_t tn, const _cx_keyraw* rkey, _ } static _cx_result -_cx_memb(_insert_entry_)(_cx_self* self, _cx_keyraw rkey) { +_cx_MEMB(_insert_entry_)(_cx_Self* self, _cx_keyraw rkey) { _cx_result res = {NULL}; - int32_t tn = _cx_memb(_insert_entry_i_)(self, self->root, &rkey, &res); + int32_t tn = _cx_MEMB(_insert_entry_i_)(self, self->root, &rkey, &res); self->root = tn; self->size += res.inserted; return res; } static int32_t -_cx_memb(_erase_r_)(_cx_self *self, int32_t tn, const _cx_keyraw* rkey, int *erased) { +_cx_MEMB(_erase_r_)(_cx_Self *self, int32_t tn, const _cx_keyraw* rkey, int *erased) { _cx_node *d = self->nodes; if (tn == 0) return 0; _cx_keyraw raw = i_keyto(_i_keyref(&d[tn].value)); int32_t tx; int c = i_cmp((&raw), rkey); if (c != 0) - d[tn].link[c < 0] = _cx_memb(_erase_r_)(self, d[tn].link[c < 0], rkey, erased); + d[tn].link[c < 0] = _cx_MEMB(_erase_r_)(self, d[tn].link[c < 0], rkey, erased); else { if (!(*erased)++) - _cx_memb(_value_drop)(&d[tn].value); + _cx_MEMB(_value_drop)(&d[tn].value); if (d[tn].link[0] && d[tn].link[1]) { tx = d[tn].link[0]; while (d[tx].link[1]) tx = d[tx].link[1]; d[tn].value = d[tx].value; /* move */ raw = i_keyto(_i_keyref(&d[tn].value)); - d[tn].link[0] = _cx_memb(_erase_r_)(self, d[tn].link[0], &raw, erased); + d[tn].link[0] = _cx_MEMB(_erase_r_)(self, d[tn].link[0], &raw, erased); } else { /* unlink node */ tx = tn; tn = d[tn].link[ d[tn].link[0] == 0 ]; @@ -479,19 +479,19 @@ _cx_memb(_erase_r_)(_cx_self *self, int32_t tn, const _cx_keyraw* rkey, int *era if (d[d[tn].link[0]].level < d[tn].level - 1 || d[tx].level < d[tn].level - 1) { if (d[tx].level > --d[tn].level) d[tx].level = d[tn].level; - tn = _cx_memb(_skew_)(d, tn); - tx = d[tn].link[1] = _cx_memb(_skew_)(d, d[tn].link[1]); - d[tx].link[1] = _cx_memb(_skew_)(d, d[tx].link[1]); - tn = _cx_memb(_split_)(d, tn); - d[tn].link[1] = _cx_memb(_split_)(d, d[tn].link[1]); + tn = _cx_MEMB(_skew_)(d, tn); + tx = d[tn].link[1] = _cx_MEMB(_skew_)(d, d[tn].link[1]); + d[tx].link[1] = _cx_MEMB(_skew_)(d, d[tx].link[1]); + tn = _cx_MEMB(_split_)(d, tn); + d[tn].link[1] = _cx_MEMB(_split_)(d, d[tn].link[1]); } return tn; } STC_DEF int -_cx_memb(_erase)(_cx_self* self, _cx_keyraw rkey) { +_cx_MEMB(_erase)(_cx_Self* self, _cx_keyraw rkey) { int erased = 0; - int32_t root = _cx_memb(_erase_r_)(self, self->root, &rkey, &erased); + int32_t root = _cx_MEMB(_erase_r_)(self, self->root, &rkey, &erased); if (!erased) return 0; self->root = root; @@ -500,23 +500,23 @@ _cx_memb(_erase)(_cx_self* self, _cx_keyraw rkey) { } STC_DEF _cx_iter -_cx_memb(_erase_at)(_cx_self* self, _cx_iter it) { +_cx_MEMB(_erase_at)(_cx_Self* self, _cx_iter it) { _cx_keyraw raw = i_keyto(_i_keyref(it.ref)); - _cx_memb(_next)(&it); + _cx_MEMB(_next)(&it); if (it.ref) { _cx_keyraw nxt = i_keyto(_i_keyref(it.ref)); - _cx_memb(_erase)(self, raw); - _cx_memb(_find_it)(self, nxt, &it); + _cx_MEMB(_erase)(self, raw); + _cx_MEMB(_find_it)(self, nxt, &it); } else - _cx_memb(_erase)(self, raw); + _cx_MEMB(_erase)(self, raw); return it; } STC_DEF _cx_iter -_cx_memb(_erase_range)(_cx_self* self, _cx_iter it1, _cx_iter it2) { +_cx_MEMB(_erase_range)(_cx_Self* self, _cx_iter it1, _cx_iter it2) { if (!it2.ref) { while (it1.ref) - it1 = _cx_memb(_erase_at)(self, it1); + it1 = _cx_MEMB(_erase_at)(self, it1); return it1; } _cx_key k1 = *_i_keyref(it1.ref), k2 = *_i_keyref(it2.ref); @@ -524,30 +524,30 @@ _cx_memb(_erase_range)(_cx_self* self, _cx_iter it1, _cx_iter it2) { for (;;) { if (memcmp(&k1, &k2, sizeof k1) == 0) return it1; - _cx_memb(_next)(&it1); + _cx_MEMB(_next)(&it1); k1 = *_i_keyref(it1.ref); - _cx_memb(_erase)(self, r1); + _cx_MEMB(_erase)(self, r1); r1 = i_keyto((&k1)); - _cx_memb(_find_it)(self, r1, &it1); + _cx_MEMB(_find_it)(self, r1, &it1); } } #if !defined i_no_clone static int32_t -_cx_memb(_clone_r_)(_cx_self* self, _cx_node* src, int32_t sn) { +_cx_MEMB(_clone_r_)(_cx_Self* self, _cx_node* src, int32_t sn) { if (sn == 0) return 0; - int32_t tx, tn = _cx_memb(_new_node_)(self, src[sn].level); - self->nodes[tn].value = _cx_memb(_value_clone)(src[sn].value); - tx = _cx_memb(_clone_r_)(self, src, src[sn].link[0]); self->nodes[tn].link[0] = tx; - tx = _cx_memb(_clone_r_)(self, src, src[sn].link[1]); self->nodes[tn].link[1] = tx; + int32_t tx, tn = _cx_MEMB(_new_node_)(self, src[sn].level); + self->nodes[tn].value = _cx_MEMB(_value_clone)(src[sn].value); + tx = _cx_MEMB(_clone_r_)(self, src, src[sn].link[0]); self->nodes[tn].link[0] = tx; + tx = _cx_MEMB(_clone_r_)(self, src, src[sn].link[1]); self->nodes[tn].link[1] = tx; return tn; } -STC_DEF _cx_self -_cx_memb(_clone)(_cx_self tree) { - _cx_self clone = _cx_memb(_with_capacity)(tree.size); - int32_t root = _cx_memb(_clone_r_)(&clone, tree.nodes, tree.root); +STC_DEF _cx_Self +_cx_MEMB(_clone)(_cx_Self tree) { + _cx_Self clone = _cx_MEMB(_with_capacity)(tree.size); + int32_t root = _cx_MEMB(_clone_r_)(&clone, tree.nodes, tree.root); clone.root = root; clone.size = tree.size; return clone; @@ -556,8 +556,8 @@ _cx_memb(_clone)(_cx_self tree) { #if !defined i_no_emplace STC_DEF _cx_result -_cx_memb(_emplace)(_cx_self* self, _cx_keyraw rkey _i_MAP_ONLY(, i_valraw rmapped)) { - _cx_result res = _cx_memb(_insert_entry_)(self, rkey); +_cx_MEMB(_emplace)(_cx_Self* self, _cx_keyraw rkey _i_MAP_ONLY(, i_valraw rmapped)) { + _cx_result res = _cx_MEMB(_insert_entry_)(self, rkey); if (res.inserted) { *_i_keyref(res.ref) = i_keyfrom(rkey); _i_MAP_ONLY(res.ref->second = i_valfrom(rmapped);) @@ -567,18 +567,18 @@ _cx_memb(_emplace)(_cx_self* self, _cx_keyraw rkey _i_MAP_ONLY(, i_valraw rmappe #endif // i_no_emplace static void -_cx_memb(_drop_r_)(_cx_node* d, int32_t tn) { +_cx_MEMB(_drop_r_)(_cx_node* d, int32_t tn) { if (tn) { - _cx_memb(_drop_r_)(d, d[tn].link[0]); - _cx_memb(_drop_r_)(d, d[tn].link[1]); - _cx_memb(_value_drop)(&d[tn].value); + _cx_MEMB(_drop_r_)(d, d[tn].link[0]); + _cx_MEMB(_drop_r_)(d, d[tn].link[1]); + _cx_MEMB(_value_drop)(&d[tn].value); } } STC_DEF void -_cx_memb(_drop)(_cx_self* self) { +_cx_MEMB(_drop)(_cx_Self* self) { if (self->cap) { - _cx_memb(_drop_r_)(self->nodes, self->root); + _cx_MEMB(_drop_r_)(self->nodes, self->root); i_free(self->nodes); } } diff --git a/include/stc/cstack.h b/include/stc/cstack.h index 5f0ffe2b..24ec2d5f 100644 --- a/include/stc/cstack.h +++ b/include/stc/cstack.h @@ -35,64 +35,64 @@ #ifndef i_is_forward #ifdef i_capacity #define i_no_clone - _cx_deftypes(_c_cstack_fixed, _cx_self, i_key, i_capacity); + _cx_DEFTYPES(_c_cstack_fixed, _cx_Self, i_key, i_capacity); #else - _cx_deftypes(_c_cstack_types, _cx_self, i_key); + _cx_DEFTYPES(_c_cstack_types, _cx_Self, i_key); #endif #endif typedef i_keyraw _cx_raw; #ifdef i_capacity -STC_INLINE void _cx_memb(_init)(_cx_self* self) +STC_INLINE void _cx_MEMB(_init)(_cx_Self* self) { self->_len = 0; } #else -STC_INLINE _cx_self _cx_memb(_init)(void) { - _cx_self out = {0}; +STC_INLINE _cx_Self _cx_MEMB(_init)(void) { + _cx_Self out = {0}; return out; } -STC_INLINE _cx_self _cx_memb(_with_capacity)(intptr_t cap) { - _cx_self out = {(_cx_value *) i_malloc(cap*c_sizeof(i_key)), 0, cap}; +STC_INLINE _cx_Self _cx_MEMB(_with_capacity)(intptr_t cap) { + _cx_Self out = {(_cx_value *) i_malloc(cap*c_sizeof(i_key)), 0, cap}; return out; } -STC_INLINE _cx_self _cx_memb(_with_size)(intptr_t size, i_key null) { - _cx_self out = {(_cx_value *) i_malloc(size*c_sizeof null), size, size}; +STC_INLINE _cx_Self _cx_MEMB(_with_size)(intptr_t size, i_key null) { + _cx_Self out = {(_cx_value *) i_malloc(size*c_sizeof null), size, size}; while (size) out.data[--size] = null; return out; } #endif // i_capacity -STC_INLINE void _cx_memb(_clear)(_cx_self* self) { +STC_INLINE void _cx_MEMB(_clear)(_cx_Self* self) { _cx_value *p = self->data + self->_len; while (p-- != self->data) { i_keydrop(p); } self->_len = 0; } -STC_INLINE void _cx_memb(_drop)(_cx_self* self) { - _cx_memb(_clear)(self); +STC_INLINE void _cx_MEMB(_drop)(_cx_Self* self) { + _cx_MEMB(_clear)(self); #ifndef i_capacity i_free(self->data); #endif } -STC_INLINE intptr_t _cx_memb(_size)(const _cx_self* self) +STC_INLINE intptr_t _cx_MEMB(_size)(const _cx_Self* self) { return self->_len; } -STC_INLINE bool _cx_memb(_empty)(const _cx_self* self) +STC_INLINE bool _cx_MEMB(_empty)(const _cx_Self* self) { return !self->_len; } -STC_INLINE intptr_t _cx_memb(_capacity)(const _cx_self* self) { +STC_INLINE intptr_t _cx_MEMB(_capacity)(const _cx_Self* self) { #ifndef i_capacity return self->_cap; #else return i_capacity; #endif } -STC_INLINE void _cx_memb(_value_drop)(_cx_value* val) +STC_INLINE void _cx_MEMB(_value_drop)(_cx_value* val) { i_keydrop(val); } -STC_INLINE bool _cx_memb(_reserve)(_cx_self* self, intptr_t n) { +STC_INLINE bool _cx_MEMB(_reserve)(_cx_Self* self, intptr_t n) { if (n < self->_len) return true; #ifndef i_capacity _cx_value *t = (_cx_value *)i_realloc(self->data, n*c_sizeof *t); @@ -101,100 +101,100 @@ STC_INLINE bool _cx_memb(_reserve)(_cx_self* self, intptr_t n) { return false; } -STC_INLINE _cx_value* _cx_memb(_append_uninit)(_cx_self *self, intptr_t n) { +STC_INLINE _cx_value* _cx_MEMB(_append_uninit)(_cx_Self *self, intptr_t n) { intptr_t len = self->_len; - if (!_cx_memb(_reserve)(self, len + n)) return NULL; + if (!_cx_MEMB(_reserve)(self, len + n)) return NULL; self->_len += n; return self->data + len; } -STC_INLINE void _cx_memb(_shrink_to_fit)(_cx_self* self) - { _cx_memb(_reserve)(self, self->_len); } +STC_INLINE void _cx_MEMB(_shrink_to_fit)(_cx_Self* self) + { _cx_MEMB(_reserve)(self, self->_len); } -STC_INLINE const _cx_value* _cx_memb(_top)(const _cx_self* self) +STC_INLINE const _cx_value* _cx_MEMB(_top)(const _cx_Self* self) { return &self->data[self->_len - 1]; } -STC_INLINE _cx_value* _cx_memb(_back)(const _cx_self* self) +STC_INLINE _cx_value* _cx_MEMB(_back)(const _cx_Self* self) { return (_cx_value*) &self->data[self->_len - 1]; } -STC_INLINE _cx_value* _cx_memb(_front)(const _cx_self* self) +STC_INLINE _cx_value* _cx_MEMB(_front)(const _cx_Self* self) { return (_cx_value*) &self->data[0]; } -STC_INLINE _cx_value* _cx_memb(_push)(_cx_self* self, _cx_value val) { - if (self->_len == _cx_memb(_capacity)(self)) - if (!_cx_memb(_reserve)(self, self->_len*3/2 + 4)) +STC_INLINE _cx_value* _cx_MEMB(_push)(_cx_Self* self, _cx_value val) { + if (self->_len == _cx_MEMB(_capacity)(self)) + if (!_cx_MEMB(_reserve)(self, self->_len*3/2 + 4)) return NULL; _cx_value* vp = self->data + self->_len++; *vp = val; return vp; } -STC_INLINE void _cx_memb(_pop)(_cx_self* self) +STC_INLINE void _cx_MEMB(_pop)(_cx_Self* self) { assert(self->_len); _cx_value* p = &self->data[--self->_len]; i_keydrop(p); } -STC_INLINE _cx_value _cx_memb(_pull)(_cx_self* self) +STC_INLINE _cx_value _cx_MEMB(_pull)(_cx_Self* self) { assert(self->_len); return self->data[--self->_len]; } -STC_INLINE void _cx_memb(_put_n)(_cx_self* self, const _cx_raw* raw, intptr_t n) - { while (n--) _cx_memb(_push)(self, i_keyfrom(*raw++)); } +STC_INLINE void _cx_MEMB(_put_n)(_cx_Self* self, const _cx_raw* raw, intptr_t n) + { while (n--) _cx_MEMB(_push)(self, i_keyfrom(*raw++)); } -STC_INLINE _cx_self _cx_memb(_from_n)(const _cx_raw* raw, intptr_t n) - { _cx_self cx = {0}; _cx_memb(_put_n)(&cx, raw, n); return cx; } +STC_INLINE _cx_Self _cx_MEMB(_from_n)(const _cx_raw* raw, intptr_t n) + { _cx_Self cx = {0}; _cx_MEMB(_put_n)(&cx, raw, n); return cx; } -STC_INLINE const _cx_value* _cx_memb(_at)(const _cx_self* self, intptr_t idx) +STC_INLINE const _cx_value* _cx_MEMB(_at)(const _cx_Self* self, intptr_t idx) { assert(idx < self->_len); return self->data + idx; } -STC_INLINE _cx_value* _cx_memb(_at_mut)(_cx_self* self, intptr_t idx) +STC_INLINE _cx_value* _cx_MEMB(_at_mut)(_cx_Self* self, intptr_t idx) { assert(idx < self->_len); return self->data + idx; } #if !defined i_no_emplace -STC_INLINE _cx_value* _cx_memb(_emplace)(_cx_self* self, _cx_raw raw) - { return _cx_memb(_push)(self, i_keyfrom(raw)); } +STC_INLINE _cx_value* _cx_MEMB(_emplace)(_cx_Self* self, _cx_raw raw) + { return _cx_MEMB(_push)(self, i_keyfrom(raw)); } #endif // !i_no_emplace #if !defined i_no_clone -STC_INLINE _cx_self _cx_memb(_clone)(_cx_self v) { - _cx_self out = {(_cx_value *)i_malloc(v._len*c_sizeof(_cx_value)), v._len, v._len}; +STC_INLINE _cx_Self _cx_MEMB(_clone)(_cx_Self v) { + _cx_Self out = {(_cx_value *)i_malloc(v._len*c_sizeof(_cx_value)), v._len, v._len}; if (!out.data) out._cap = 0; else for (intptr_t i = 0; i < v._len; ++v.data) out.data[i++] = i_keyclone((*v.data)); return out; } -STC_INLINE void _cx_memb(_copy)(_cx_self *self, const _cx_self* other) { +STC_INLINE void _cx_MEMB(_copy)(_cx_Self *self, const _cx_Self* other) { if (self->data == other->data) return; - _cx_memb(_drop)(self); - *self = _cx_memb(_clone)(*other); + _cx_MEMB(_drop)(self); + *self = _cx_MEMB(_clone)(*other); } -STC_INLINE i_key _cx_memb(_value_clone)(_cx_value val) +STC_INLINE i_key _cx_MEMB(_value_clone)(_cx_value val) { return i_keyclone(val); } -STC_INLINE i_keyraw _cx_memb(_value_toraw)(const _cx_value* val) +STC_INLINE i_keyraw _cx_MEMB(_value_toraw)(const _cx_value* val) { return i_keyto(val); } #endif // !i_no_clone -STC_INLINE _cx_iter _cx_memb(_begin)(const _cx_self* self) { +STC_INLINE _cx_iter _cx_MEMB(_begin)(const _cx_Self* self) { return c_LITERAL(_cx_iter){self->_len ? (_cx_value*)self->data : NULL, (_cx_value*)self->data + self->_len}; } -STC_INLINE _cx_iter _cx_memb(_end)(const _cx_self* self) +STC_INLINE _cx_iter _cx_MEMB(_end)(const _cx_Self* self) { return c_LITERAL(_cx_iter){NULL, (_cx_value*)self->data + self->_len}; } -STC_INLINE void _cx_memb(_next)(_cx_iter* it) +STC_INLINE void _cx_MEMB(_next)(_cx_iter* it) { if (++it->ref == it->end) it->ref = NULL; } -STC_INLINE _cx_iter _cx_memb(_advance)(_cx_iter it, size_t n) +STC_INLINE _cx_iter _cx_MEMB(_advance)(_cx_iter it, size_t n) { if ((it.ref += n) >= it.end) it.ref = NULL ; return it; } -STC_INLINE intptr_t _cx_memb(_index)(const _cx_self* self, _cx_iter it) +STC_INLINE intptr_t _cx_MEMB(_index)(const _cx_Self* self, _cx_iter it) { return (it.ref - self->data); } -STC_INLINE void _cx_memb(_adjust_end_)(_cx_self* self, intptr_t n) +STC_INLINE void _cx_MEMB(_adjust_end_)(_cx_Self* self, intptr_t n) { self->_len += n; } #if defined _i_has_eq || defined _i_has_cmp STC_INLINE bool -_cx_memb(_eq)(const _cx_self* self, const _cx_self* other) { +_cx_MEMB(_eq)(const _cx_Self* self, const _cx_Self* other) { if (self->_len != other->_len) return false; for (intptr_t i = 0; i < self->_len; ++i) { const _cx_raw _rx = i_keyto(self->data+i), _ry = i_keyto(other->data+i); diff --git a/include/stc/cvec.h b/include/stc/cvec.h index 71787733..3213dd1c 100644 --- a/include/stc/cvec.h +++ b/include/stc/cvec.h @@ -74,164 +74,164 @@ int main() { #include "priv/template.h" #ifndef i_is_forward - _cx_deftypes(_c_cvec_types, _cx_self, i_key); + _cx_DEFTYPES(_c_cvec_types, _cx_Self, i_key); #endif typedef i_keyraw _cx_raw; -STC_API _cx_self _cx_memb(_init)(void); -STC_API void _cx_memb(_drop)(_cx_self* self); -STC_API void _cx_memb(_clear)(_cx_self* self); -STC_API bool _cx_memb(_reserve)(_cx_self* self, intptr_t cap); -STC_API bool _cx_memb(_resize)(_cx_self* self, intptr_t size, i_key null); -STC_API _cx_value* _cx_memb(_push)(_cx_self* self, i_key value); -STC_API _cx_iter _cx_memb(_erase_n)(_cx_self* self, intptr_t idx, intptr_t n); -STC_API _cx_iter _cx_memb(_insert_uninit)(_cx_self* self, intptr_t idx, intptr_t n); +STC_API _cx_Self _cx_MEMB(_init)(void); +STC_API void _cx_MEMB(_drop)(_cx_Self* self); +STC_API void _cx_MEMB(_clear)(_cx_Self* self); +STC_API bool _cx_MEMB(_reserve)(_cx_Self* self, intptr_t cap); +STC_API bool _cx_MEMB(_resize)(_cx_Self* self, intptr_t size, i_key null); +STC_API _cx_value* _cx_MEMB(_push)(_cx_Self* self, i_key value); +STC_API _cx_iter _cx_MEMB(_erase_n)(_cx_Self* self, intptr_t idx, intptr_t n); +STC_API _cx_iter _cx_MEMB(_insert_uninit)(_cx_Self* self, intptr_t idx, intptr_t n); #if !defined i_no_cmp || defined _i_has_eq -STC_API _cx_iter _cx_memb(_find_in)(_cx_iter it1, _cx_iter it2, _cx_raw raw); +STC_API _cx_iter _cx_MEMB(_find_in)(_cx_iter it1, _cx_iter it2, _cx_raw raw); #endif #ifndef i_no_cmp -STC_API int _cx_memb(_value_cmp)(const _cx_value* x, const _cx_value* y); -STC_API _cx_iter _cx_memb(_binary_search_in)(_cx_iter it1, _cx_iter it2, _cx_raw raw, _cx_iter* lower_bound); +STC_API int _cx_MEMB(_value_cmp)(const _cx_value* x, const _cx_value* y); +STC_API _cx_iter _cx_MEMB(_binary_search_in)(_cx_iter it1, _cx_iter it2, _cx_raw raw, _cx_iter* lower_bound); #endif -STC_INLINE void _cx_memb(_value_drop)(_cx_value* val) { i_keydrop(val); } +STC_INLINE void _cx_MEMB(_value_drop)(_cx_value* val) { i_keydrop(val); } #if !defined i_no_emplace STC_API _cx_iter -_cx_memb(_emplace_n)(_cx_self* self, intptr_t idx, const _cx_raw raw[], intptr_t n); +_cx_MEMB(_emplace_n)(_cx_Self* self, intptr_t idx, const _cx_raw raw[], intptr_t n); -STC_INLINE _cx_value* _cx_memb(_emplace)(_cx_self* self, _cx_raw raw) { - return _cx_memb(_push)(self, i_keyfrom(raw)); +STC_INLINE _cx_value* _cx_MEMB(_emplace)(_cx_Self* self, _cx_raw raw) { + return _cx_MEMB(_push)(self, i_keyfrom(raw)); } -STC_INLINE _cx_value* _cx_memb(_emplace_back)(_cx_self* self, _cx_raw raw) { - return _cx_memb(_push)(self, i_keyfrom(raw)); +STC_INLINE _cx_value* _cx_MEMB(_emplace_back)(_cx_Self* self, _cx_raw raw) { + return _cx_MEMB(_push)(self, i_keyfrom(raw)); } -STC_INLINE _cx_iter _cx_memb(_emplace_at)(_cx_self* self, _cx_iter it, _cx_raw raw) { - return _cx_memb(_emplace_n)(self, _it_ptr(it) - self->data, &raw, 1); +STC_INLINE _cx_iter _cx_MEMB(_emplace_at)(_cx_Self* self, _cx_iter it, _cx_raw raw) { + return _cx_MEMB(_emplace_n)(self, _it_ptr(it) - self->data, &raw, 1); } #endif // !i_no_emplace #if !defined i_no_clone -STC_API _cx_self _cx_memb(_clone)(_cx_self cx); -STC_API _cx_iter _cx_memb(_copy_n)(_cx_self* self, intptr_t idx, const _cx_value arr[], intptr_t n); -STC_INLINE void _cx_memb(_put_n)(_cx_self* self, const _cx_raw* raw, intptr_t n) - { while (n--) _cx_memb(_push)(self, i_keyfrom(*raw++)); } -STC_INLINE _cx_self _cx_memb(_from_n)(const _cx_raw* raw, intptr_t n) - { _cx_self cx = {0}; _cx_memb(_put_n)(&cx, raw, n); return cx; } -STC_INLINE i_key _cx_memb(_value_clone)(_cx_value val) +STC_API _cx_Self _cx_MEMB(_clone)(_cx_Self cx); +STC_API _cx_iter _cx_MEMB(_copy_n)(_cx_Self* self, intptr_t idx, const _cx_value arr[], intptr_t n); +STC_INLINE void _cx_MEMB(_put_n)(_cx_Self* self, const _cx_raw* raw, intptr_t n) + { while (n--) _cx_MEMB(_push)(self, i_keyfrom(*raw++)); } +STC_INLINE _cx_Self _cx_MEMB(_from_n)(const _cx_raw* raw, intptr_t n) + { _cx_Self cx = {0}; _cx_MEMB(_put_n)(&cx, raw, n); return cx; } +STC_INLINE i_key _cx_MEMB(_value_clone)(_cx_value val) { return i_keyclone(val); } -STC_INLINE void _cx_memb(_copy)(_cx_self* self, const _cx_self* other) { +STC_INLINE void _cx_MEMB(_copy)(_cx_Self* self, const _cx_Self* other) { if (self->data == other->data) return; - _cx_memb(_clear)(self); - _cx_memb(_copy_n)(self, 0, other->data, other->_len); + _cx_MEMB(_clear)(self); + _cx_MEMB(_copy_n)(self, 0, other->data, other->_len); } #endif // !i_no_clone -STC_INLINE intptr_t _cx_memb(_size)(const _cx_self* self) { return self->_len; } -STC_INLINE intptr_t _cx_memb(_capacity)(const _cx_self* self) { return self->_cap; } -STC_INLINE bool _cx_memb(_empty)(const _cx_self* self) { return !self->_len; } -STC_INLINE _cx_raw _cx_memb(_value_toraw)(const _cx_value* val) { return i_keyto(val); } -STC_INLINE _cx_value* _cx_memb(_front)(const _cx_self* self) { return self->data; } -STC_INLINE _cx_value* _cx_memb(_back)(const _cx_self* self) +STC_INLINE intptr_t _cx_MEMB(_size)(const _cx_Self* self) { return self->_len; } +STC_INLINE intptr_t _cx_MEMB(_capacity)(const _cx_Self* self) { return self->_cap; } +STC_INLINE bool _cx_MEMB(_empty)(const _cx_Self* self) { return !self->_len; } +STC_INLINE _cx_raw _cx_MEMB(_value_toraw)(const _cx_value* val) { return i_keyto(val); } +STC_INLINE _cx_value* _cx_MEMB(_front)(const _cx_Self* self) { return self->data; } +STC_INLINE _cx_value* _cx_MEMB(_back)(const _cx_Self* self) { return self->data + self->_len - 1; } -STC_INLINE void _cx_memb(_pop)(_cx_self* self) +STC_INLINE void _cx_MEMB(_pop)(_cx_Self* self) { assert(self->_len); _cx_value* p = &self->data[--self->_len]; i_keydrop(p); } -STC_INLINE _cx_value _cx_memb(_pull)(_cx_self* self) +STC_INLINE _cx_value _cx_MEMB(_pull)(_cx_Self* self) { assert(self->_len); return self->data[--self->_len]; } -STC_INLINE _cx_value* _cx_memb(_push_back)(_cx_self* self, i_key value) - { return _cx_memb(_push)(self, value); } -STC_INLINE void _cx_memb(_pop_back)(_cx_self* self) { _cx_memb(_pop)(self); } - -STC_INLINE _cx_self -_cx_memb(_with_size)(const intptr_t size, i_key null) { - _cx_self cx = _cx_memb(_init)(); - _cx_memb(_resize)(&cx, size, null); +STC_INLINE _cx_value* _cx_MEMB(_push_back)(_cx_Self* self, i_key value) + { return _cx_MEMB(_push)(self, value); } +STC_INLINE void _cx_MEMB(_pop_back)(_cx_Self* self) { _cx_MEMB(_pop)(self); } + +STC_INLINE _cx_Self +_cx_MEMB(_with_size)(const intptr_t size, i_key null) { + _cx_Self cx = _cx_MEMB(_init)(); + _cx_MEMB(_resize)(&cx, size, null); return cx; } -STC_INLINE _cx_self -_cx_memb(_with_capacity)(const intptr_t cap) { - _cx_self cx = _cx_memb(_init)(); - _cx_memb(_reserve)(&cx, cap); +STC_INLINE _cx_Self +_cx_MEMB(_with_capacity)(const intptr_t cap) { + _cx_Self cx = _cx_MEMB(_init)(); + _cx_MEMB(_reserve)(&cx, cap); return cx; } STC_INLINE void -_cx_memb(_shrink_to_fit)(_cx_self* self) { - _cx_memb(_reserve)(self, _cx_memb(_size)(self)); +_cx_MEMB(_shrink_to_fit)(_cx_Self* self) { + _cx_MEMB(_reserve)(self, _cx_MEMB(_size)(self)); } STC_INLINE _cx_iter -_cx_memb(_insert_n)(_cx_self* self, const intptr_t idx, const _cx_value arr[], const intptr_t n) { - _cx_iter it = _cx_memb(_insert_uninit)(self, idx, n); +_cx_MEMB(_insert_n)(_cx_Self* self, const intptr_t idx, const _cx_value arr[], const intptr_t n) { + _cx_iter it = _cx_MEMB(_insert_uninit)(self, idx, n); if (it.ref) c_memcpy(it.ref, arr, n*c_sizeof *arr); return it; } STC_INLINE _cx_iter -_cx_memb(_insert)(_cx_self* self, const intptr_t idx, const i_key value) { - return _cx_memb(_insert_n)(self, idx, &value, 1); +_cx_MEMB(_insert)(_cx_Self* self, const intptr_t idx, const i_key value) { + return _cx_MEMB(_insert_n)(self, idx, &value, 1); } STC_INLINE _cx_iter -_cx_memb(_insert_at)(_cx_self* self, _cx_iter it, const i_key value) { - return _cx_memb(_insert_n)(self, _it_ptr(it) - self->data, &value, 1); +_cx_MEMB(_insert_at)(_cx_Self* self, _cx_iter it, const i_key value) { + return _cx_MEMB(_insert_n)(self, _it_ptr(it) - self->data, &value, 1); } STC_INLINE _cx_iter -_cx_memb(_erase_at)(_cx_self* self, _cx_iter it) { - return _cx_memb(_erase_n)(self, it.ref - self->data, 1); +_cx_MEMB(_erase_at)(_cx_Self* self, _cx_iter it) { + return _cx_MEMB(_erase_n)(self, it.ref - self->data, 1); } STC_INLINE _cx_iter -_cx_memb(_erase_range)(_cx_self* self, _cx_iter i1, _cx_iter i2) { - return _cx_memb(_erase_n)(self, i1.ref - self->data, _it2_ptr(i1, i2) - i1.ref); +_cx_MEMB(_erase_range)(_cx_Self* self, _cx_iter i1, _cx_iter i2) { + return _cx_MEMB(_erase_n)(self, i1.ref - self->data, _it2_ptr(i1, i2) - i1.ref); } STC_INLINE const _cx_value* -_cx_memb(_at)(const _cx_self* self, const intptr_t idx) { +_cx_MEMB(_at)(const _cx_Self* self, const intptr_t idx) { assert(idx < self->_len); return self->data + idx; } STC_INLINE _cx_value* -_cx_memb(_at_mut)(_cx_self* self, const intptr_t idx) { +_cx_MEMB(_at_mut)(_cx_Self* self, const intptr_t idx) { assert(idx < self->_len); return self->data + idx; } -STC_INLINE _cx_iter _cx_memb(_begin)(const _cx_self* self) { +STC_INLINE _cx_iter _cx_MEMB(_begin)(const _cx_Self* self) { intptr_t n = self->_len; return c_LITERAL(_cx_iter){n ? self->data : NULL, self->data + n}; } -STC_INLINE _cx_iter _cx_memb(_end)(const _cx_self* self) +STC_INLINE _cx_iter _cx_MEMB(_end)(const _cx_Self* self) { return c_LITERAL(_cx_iter){NULL, self->data + self->_len}; } -STC_INLINE void _cx_memb(_next)(_cx_iter* it) +STC_INLINE void _cx_MEMB(_next)(_cx_iter* it) { if (++it->ref == it->end) it->ref = NULL; } -STC_INLINE _cx_iter _cx_memb(_advance)(_cx_iter it, size_t n) +STC_INLINE _cx_iter _cx_MEMB(_advance)(_cx_iter it, size_t n) { if ((it.ref += n) >= it.end) it.ref = NULL; return it; } -STC_INLINE intptr_t _cx_memb(_index)(const _cx_self* self, _cx_iter it) +STC_INLINE intptr_t _cx_MEMB(_index)(const _cx_Self* self, _cx_iter it) { return (it.ref - self->data); } -STC_INLINE void _cx_memb(_adjust_end_)(_cx_self* self, intptr_t n) +STC_INLINE void _cx_MEMB(_adjust_end_)(_cx_Self* self, intptr_t n) { self->_len += n; } #if !defined i_no_cmp || defined _i_has_eq STC_INLINE _cx_iter -_cx_memb(_find)(const _cx_self* self, _cx_raw raw) { - return _cx_memb(_find_in)(_cx_memb(_begin)(self), _cx_memb(_end)(self), raw); +_cx_MEMB(_find)(const _cx_Self* self, _cx_raw raw) { + return _cx_MEMB(_find_in)(_cx_MEMB(_begin)(self), _cx_MEMB(_end)(self), raw); } STC_INLINE const _cx_value* -_cx_memb(_get)(const _cx_self* self, _cx_raw raw) { - return _cx_memb(_find)(self, raw).ref; +_cx_MEMB(_get)(const _cx_Self* self, _cx_raw raw) { + return _cx_MEMB(_find)(self, raw).ref; } STC_INLINE _cx_value* -_cx_memb(_get_mut)(const _cx_self* self, _cx_raw raw) - { return (_cx_value*) _cx_memb(_get)(self, raw); } +_cx_MEMB(_get_mut)(const _cx_Self* self, _cx_raw raw) + { return (_cx_value*) _cx_MEMB(_get)(self, raw); } STC_INLINE bool -_cx_memb(_eq)(const _cx_self* self, const _cx_self* other) { +_cx_MEMB(_eq)(const _cx_Self* self, const _cx_Self* other) { if (self->_len != other->_len) return false; for (intptr_t i = 0; i < self->_len; ++i) { const _cx_raw _rx = i_keyto(self->data+i), _ry = i_keyto(other->data+i); @@ -243,39 +243,39 @@ _cx_memb(_eq)(const _cx_self* self, const _cx_self* other) { #ifndef i_no_cmp STC_INLINE _cx_iter -_cx_memb(_binary_search)(const _cx_self* self, _cx_raw raw) { +_cx_MEMB(_binary_search)(const _cx_Self* self, _cx_raw raw) { _cx_iter lower; - return _cx_memb(_binary_search_in)(_cx_memb(_begin)(self), _cx_memb(_end)(self), raw, &lower); + return _cx_MEMB(_binary_search_in)(_cx_MEMB(_begin)(self), _cx_MEMB(_end)(self), raw, &lower); } STC_INLINE _cx_iter -_cx_memb(_lower_bound)(const _cx_self* self, _cx_raw raw) { +_cx_MEMB(_lower_bound)(const _cx_Self* self, _cx_raw raw) { _cx_iter lower; - _cx_memb(_binary_search_in)(_cx_memb(_begin)(self), _cx_memb(_end)(self), raw, &lower); + _cx_MEMB(_binary_search_in)(_cx_MEMB(_begin)(self), _cx_MEMB(_end)(self), raw, &lower); return lower; } STC_INLINE void -_cx_memb(_sort_range)(_cx_iter i1, _cx_iter i2, int(*cmp)(const _cx_value*, const _cx_value*)) { +_cx_MEMB(_sort_range)(_cx_iter i1, _cx_iter i2, int(*cmp)(const _cx_value*, const _cx_value*)) { qsort(i1.ref, (size_t)(_it2_ptr(i1, i2) - i1.ref), sizeof(_cx_value), (int(*)(const void*, const void*)) cmp); } STC_INLINE void -_cx_memb(_sort)(_cx_self* self) { - _cx_memb(_sort_range)(_cx_memb(_begin)(self), _cx_memb(_end)(self), _cx_memb(_value_cmp)); +_cx_MEMB(_sort)(_cx_Self* self) { + _cx_MEMB(_sort_range)(_cx_MEMB(_begin)(self), _cx_MEMB(_end)(self), _cx_MEMB(_value_cmp)); } #endif // !c_no_cmp /* -------------------------- IMPLEMENTATION ------------------------- */ #if defined(i_implement) || defined(i_static) -STC_DEF _cx_self -_cx_memb(_init)(void) { - return c_LITERAL(_cx_self){NULL}; +STC_DEF _cx_Self +_cx_MEMB(_init)(void) { + return c_LITERAL(_cx_Self){NULL}; } STC_DEF void -_cx_memb(_clear)(_cx_self* self) { +_cx_MEMB(_clear)(_cx_Self* self) { if (self->_cap) { for (_cx_value *p = self->data, *q = p + self->_len; p != q; ) { --q; i_keydrop(q); @@ -285,15 +285,15 @@ _cx_memb(_clear)(_cx_self* self) { } STC_DEF void -_cx_memb(_drop)(_cx_self* self) { +_cx_MEMB(_drop)(_cx_Self* self) { if (self->_cap == 0) return; - _cx_memb(_clear)(self); + _cx_MEMB(_clear)(self); i_free(self->data); } STC_DEF bool -_cx_memb(_reserve)(_cx_self* self, const intptr_t cap) { +_cx_MEMB(_reserve)(_cx_Self* self, const intptr_t cap) { if (cap > self->_cap || (cap && cap == self->_len)) { _cx_value* d = (_cx_value*)i_realloc(self->data, cap*c_sizeof(i_key)); if (!d) @@ -305,8 +305,8 @@ _cx_memb(_reserve)(_cx_self* self, const intptr_t cap) { } STC_DEF bool -_cx_memb(_resize)(_cx_self* self, const intptr_t len, i_key null) { - if (!_cx_memb(_reserve)(self, len)) +_cx_MEMB(_resize)(_cx_Self* self, const intptr_t len, i_key null) { + if (!_cx_MEMB(_reserve)(self, len)) return false; const intptr_t n = self->_len; for (intptr_t i = len; i < n; ++i) @@ -318,9 +318,9 @@ _cx_memb(_resize)(_cx_self* self, const intptr_t len, i_key null) { } STC_DEF _cx_value* -_cx_memb(_push)(_cx_self* self, i_key value) { +_cx_MEMB(_push)(_cx_Self* self, i_key value) { if (self->_len == self->_cap) - if (!_cx_memb(_reserve)(self, self->_len*3/2 + 4)) + if (!_cx_MEMB(_reserve)(self, self->_len*3/2 + 4)) return NULL; _cx_value *v = self->data + self->_len++; *v = value; @@ -328,10 +328,10 @@ _cx_memb(_push)(_cx_self* self, i_key value) { } STC_DEF _cx_iter -_cx_memb(_insert_uninit)(_cx_self* self, const intptr_t idx, const intptr_t n) { +_cx_MEMB(_insert_uninit)(_cx_Self* self, const intptr_t idx, const intptr_t n) { if (self->_len + n > self->_cap) - if (!_cx_memb(_reserve)(self, self->_len*3/2 + n)) - return _cx_memb(_end)(self); + if (!_cx_MEMB(_reserve)(self, self->_len*3/2 + n)) + return _cx_MEMB(_end)(self); _cx_value* pos = self->data + idx; c_memmove(pos + n, pos, (self->_len - idx)*c_sizeof *pos); @@ -340,7 +340,7 @@ _cx_memb(_insert_uninit)(_cx_self* self, const intptr_t idx, const intptr_t n) { } STC_DEF _cx_iter -_cx_memb(_erase_n)(_cx_self* self, const intptr_t idx, const intptr_t len) { +_cx_MEMB(_erase_n)(_cx_Self* self, const intptr_t idx, const intptr_t len) { _cx_value* d = self->data + idx, *p = d, *end = self->data + self->_len; for (intptr_t i = 0; i < len; ++i, ++p) { i_keydrop(p); } @@ -350,17 +350,17 @@ _cx_memb(_erase_n)(_cx_self* self, const intptr_t idx, const intptr_t len) { } #if !defined i_no_clone -STC_DEF _cx_self -_cx_memb(_clone)(_cx_self cx) { - _cx_self out = _cx_memb(_init)(); - _cx_memb(_copy_n)(&out, 0, cx.data, cx._len); +STC_DEF _cx_Self +_cx_MEMB(_clone)(_cx_Self cx) { + _cx_Self out = _cx_MEMB(_init)(); + _cx_MEMB(_copy_n)(&out, 0, cx.data, cx._len); return out; } STC_DEF _cx_iter -_cx_memb(_copy_n)(_cx_self* self, const intptr_t idx, +_cx_MEMB(_copy_n)(_cx_Self* self, const intptr_t idx, const _cx_value arr[], const intptr_t n) { - _cx_iter it = _cx_memb(_insert_uninit)(self, idx, n); + _cx_iter it = _cx_MEMB(_insert_uninit)(self, idx, n); if (it.ref) for (_cx_value* p = it.ref, *q = p + n; p != q; ++arr) *p++ = i_keyclone((*arr)); @@ -370,8 +370,8 @@ _cx_memb(_copy_n)(_cx_self* self, const intptr_t idx, #if !defined i_no_emplace STC_DEF _cx_iter -_cx_memb(_emplace_n)(_cx_self* self, const intptr_t idx, const _cx_raw raw[], intptr_t n) { - _cx_iter it = _cx_memb(_insert_uninit)(self, idx, n); +_cx_MEMB(_emplace_n)(_cx_Self* self, const intptr_t idx, const _cx_raw raw[], intptr_t n) { + _cx_iter it = _cx_MEMB(_insert_uninit)(self, idx, n); if (it.ref) for (_cx_value* p = it.ref; n--; ++raw, ++p) *p = i_keyfrom((*raw)); @@ -381,7 +381,7 @@ _cx_memb(_emplace_n)(_cx_self* self, const intptr_t idx, const _cx_raw raw[], in #if !defined i_no_cmp || defined _i_has_eq STC_DEF _cx_iter -_cx_memb(_find_in)(_cx_iter i1, _cx_iter i2, _cx_raw raw) { +_cx_MEMB(_find_in)(_cx_iter i1, _cx_iter i2, _cx_raw raw) { const _cx_value* p2 = _it2_ptr(i1, i2); for (; i1.ref != p2; ++i1.ref) { const _cx_raw r = i_keyto(i1.ref); @@ -395,7 +395,7 @@ _cx_memb(_find_in)(_cx_iter i1, _cx_iter i2, _cx_raw raw) { #ifndef i_no_cmp STC_DEF _cx_iter -_cx_memb(_binary_search_in)(_cx_iter i1, _cx_iter i2, const _cx_raw raw, +_cx_MEMB(_binary_search_in)(_cx_iter i1, _cx_iter i2, const _cx_raw raw, _cx_iter* lower_bound) { _cx_value* w[2] = {i1.ref, _it2_ptr(i1, i2)}; _cx_iter mid = i1; @@ -412,7 +412,7 @@ _cx_memb(_binary_search_in)(_cx_iter i1, _cx_iter i2, const _cx_raw raw, i1.ref = NULL; return i1; } -STC_DEF int _cx_memb(_value_cmp)(const _cx_value* x, const _cx_value* y) { +STC_DEF int _cx_MEMB(_value_cmp)(const _cx_value* x, const _cx_value* y) { const _cx_raw rx = i_keyto(x); const _cx_raw ry = i_keyto(y); return i_cmp((&rx), (&ry)); diff --git a/include/stc/extend.h b/include/stc/extend.h index f697d2b3..f9ac92bf 100644 --- a/include/stc/extend.h +++ b/include/stc/extend.h @@ -54,7 +54,7 @@ typedef struct { i_type get; } c_PASTE(i_type, _ext); -#define c_extend(self) c_container_of(self, _cx_memb(_ext), get) +#define c_extend(self) c_container_of(self, _cx_MEMB(_ext), get) #define i_is_forward #define _i_inc diff --git a/include/stc/priv/template.h b/include/stc/priv/template.h index b3f3eabe..c1b7c1e7 100644 --- a/include/stc/priv/template.h +++ b/include/stc/priv/template.h @@ -25,17 +25,17 @@ #ifndef STC_TEMPLATE_H_INCLUDED #define STC_TEMPLATE_H_INCLUDED - #define _cx_self i_type - #define _cx_memb(name) c_PASTE(_cx_self, name) - #define _cx_deftypes(macro, SELF, ...) c_EXPAND(macro(SELF, __VA_ARGS__)) - #define _cx_value _cx_memb(_value) - #define _cx_key _cx_memb(_key) - #define _cx_mapped _cx_memb(_mapped) - #define _cx_raw _cx_memb(_raw) - #define _cx_keyraw _cx_memb(_keyraw) - #define _cx_iter _cx_memb(_iter) - #define _cx_result _cx_memb(_result) - #define _cx_node _cx_memb(_node) + #define _cx_Self i_type + #define _cx_MEMB(name) c_PASTE(_cx_Self, name) + #define _cx_DEFTYPES(macro, SELF, ...) c_EXPAND(macro(SELF, __VA_ARGS__)) + #define _cx_value _cx_MEMB(_value) + #define _cx_key _cx_MEMB(_key) + #define _cx_mapped _cx_MEMB(_mapped) + #define _cx_raw _cx_MEMB(_raw) + #define _cx_keyraw _cx_MEMB(_keyraw) + #define _cx_iter _cx_MEMB(_iter) + #define _cx_result _cx_MEMB(_result) + #define _cx_node _cx_MEMB(_node) #endif #ifndef i_type -- cgit v1.2.3 From 3fed66750bed9c82a8bb12fd86b963d2f5ec0eb5 Mon Sep 17 00:00:00 2001 From: Tyge Løvset Date: Tue, 20 Jun 2023 16:32:32 +0200 Subject: Renamed `i_more` => `i_retain` (avoids undef of template parameters on next STC container inclusion). --- docs/ccommon_api.md | 4 ++-- include/stc/algo/sort.h | 23 +++++++++++++++++++++-- include/stc/cdeq.h | 6 +++--- include/stc/priv/template2.h | 4 ++-- misc/benchmarks/various/csort_bench.c | 2 +- 5 files changed, 29 insertions(+), 10 deletions(-) (limited to 'include/stc/algo/sort.h') diff --git a/docs/ccommon_api.md b/docs/ccommon_api.md index 89a98cbb..c9c65156 100644 --- a/docs/ccommon_api.md +++ b/docs/ccommon_api.md @@ -222,11 +222,11 @@ int main() { } ``` Containers with random access may also be sorted. Even sorting cdeq/cqueue (with ring buffer) is -possible and very fast. Note that `i_more` must be defined to pick up template parameters from the container: +possible and very fast. Note that `i_retain` must be defined to retain specified template parameters for use by sort: ```c #define i_type MyDeq #define i_val int -#define i_more +#define i_retain #include // deque #include #include diff --git a/include/stc/algo/sort.h b/include/stc/algo/sort.h index 291d90a6..002e6499 100644 --- a/include/stc/algo/sort.h +++ b/include/stc/algo/sort.h @@ -26,7 +26,7 @@ template params: #define i_less - less function. default: *x < *y #define i_type name - define {{name}}_sort_n(), else {{i_val}}array_sort_n(). -// test: +// ex1: #include #define i_val int #include @@ -34,12 +34,31 @@ template params: int main() { int nums[] = {23, 321, 5434, 25, 245, 1, 654, 33, 543, 21}; - intarray_sort_n(nums, c_arraylen(arr)); + intarray_sort_n(nums, c_arraylen(nums)); for (int i = 0; i < c_arraylen(nums); i++) printf(" %d", nums[i]); puts(""); } + +// ex2: +#define i_val int +#define i_type IDeq +#define i_retain // retain input template params to be reused by sort.h +#include +#include + +int main() { + IDeq nums = c_init(IDeq, {5434, 25, 245, 1, 654, 33, 543, 21}); + IDeq_push_front(&nums, 23); + IDeq_push_front(&nums, 321); + + IDeq_sort_n(&nums, IDeq_size(&nums)); + + c_foreach (i, IDeq, nums) + printf(" %d", *i.ref); + IDeq_drop(&nums); +} */ #include "../ccommon.h" diff --git a/include/stc/cdeq.h b/include/stc/cdeq.h index 0eac5a1d..06dfdb82 100644 --- a/include/stc/cdeq.h +++ b/include/stc/cdeq.h @@ -23,11 +23,11 @@ #define _i_prefix cdeq_ #define _pop _pop_front #define _pull _pull_front -#ifdef i_more +#ifdef i_retain #include "cqueue.h" - #define i_more + #define i_retain #else - #define i_more + #define i_retain #include "cqueue.h" #endif #undef _pop diff --git a/include/stc/priv/template2.h b/include/stc/priv/template2.h index 4604e610..47b82937 100644 --- a/include/stc/priv/template2.h +++ b/include/stc/priv/template2.h @@ -20,8 +20,8 @@ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ -#ifdef i_more -#undef i_more +#ifdef i_retain +#undef i_retain #else #undef i_type #undef i_tag diff --git a/misc/benchmarks/various/csort_bench.c b/misc/benchmarks/various/csort_bench.c index d434693f..93034dde 100644 --- a/misc/benchmarks/various/csort_bench.c +++ b/misc/benchmarks/various/csort_bench.c @@ -8,7 +8,7 @@ #define NDEBUG #define i_type Ints #define i_val int -#define i_more +#define i_retain #include #include -- cgit v1.2.3 From e25dec033773ab713a7593a923e2c83745be0b9a Mon Sep 17 00:00:00 2001 From: Tyge Løvset Date: Sun, 2 Jul 2023 22:01:46 +0200 Subject: Update in coroutine API. cco_yield, cco_await, cco_await_on, cco_block_on has changed. cco_final: renamed => cco_cleanup: Reverted i_retain template param back to => i_more. --- docs/ccommon_api.md | 62 +++++++++++------- include/stc/algo/coroutine.h | 120 ++++++++++++++++++++-------------- include/stc/algo/sort.h | 2 +- include/stc/cdeq.h | 6 +- include/stc/priv/template2.h | 4 +- misc/benchmarks/various/csort_bench.c | 2 +- misc/examples/cointerleave.c | 11 ++-- misc/examples/coread.c | 7 +- misc/examples/coroutines.c | 54 +++++++-------- misc/examples/dining_philosophers.c | 16 +++-- misc/examples/generator.c | 5 +- misc/examples/scheduler.c | 34 +++++----- misc/examples/triples.c | 10 +-- 13 files changed, 189 insertions(+), 144 deletions(-) (limited to 'include/stc/algo/sort.h') diff --git a/docs/ccommon_api.md b/docs/ccommon_api.md index c9c65156..b30bdda6 100644 --- a/docs/ccommon_api.md +++ b/docs/ccommon_api.md @@ -222,11 +222,11 @@ int main() { } ``` Containers with random access may also be sorted. Even sorting cdeq/cqueue (with ring buffer) is -possible and very fast. Note that `i_retain` must be defined to retain specified template parameters for use by sort: +possible and very fast. Note that `i_more` must be defined to retain specified template parameters for use by sort: ```c #define i_type MyDeq #define i_val int -#define i_retain +#define i_more #include // deque #include #include @@ -313,6 +313,7 @@ the gcd() function. It also ensures that it stops when the diagonal size >= 100: [ [Run this code](https://godbolt.org/z/coqqrfbd5) ] ```c #include +#include struct triples { int n; // input: max number of triples to be generated. @@ -320,22 +321,23 @@ struct triples { int cco_state; // required member }; -bool triples(struct triples* i) { // coroutine +int triples(struct triples* i) { // coroutine cco_routine(i) { for (i->c = 5; i->n; ++i->c) { for (i->a = 1; i->a < i->c; ++i->a) { for (i->b = i->a + 1; i->b < i->c; ++i->b) { if ((int64_t)i->a*i->a + (int64_t)i->b*i->b == (int64_t)i->c*i->c) { - cco_yield(false); - if (--i->n == 0) cco_return; + cco_yield(); + if (--i->n == 0) + cco_return; } } } } - cco_final: + cco_cleanup: puts("done"); } - return true; + return 0; } int gcd(int a, int b) { // greatest common denominator @@ -352,7 +354,7 @@ int main() struct triples t = {.n=INT32_MAX}; int n = 0; - while (!triples(&t)) { + while (triples(&t)) { // Skip triples with GCD(a,b) > 1 if (gcd(t.a, t.b) > 1) continue; @@ -366,28 +368,36 @@ int main() } ``` ### Coroutine API -**Note**: *cco_yield()* may not be called inside a `switch` statement. Use `if-else-if` constructs instead. -To resume the coroutine from where it was suspended with *cco_yield()*, simply call the coroutine again. +To resume the coroutine from where it was suspended with *cco_yield()*: call the coroutine again. + +**Note**: *cco_yield()* / *cco_await()* may not be called inside a `switch` statement; either use +`if-else-if` constructs, or `cco_switch / cco_case / cco_default` for switch-emulation instead. | | Function / operator | Description | |:----------|:-------------------------------------|:----------------------------------------| -| | `cco_final:` | Label for cleanup in coroutine | +| | Function / 'keywords': | | +|`cco_result` | Enum `CCO_DONE=0`, `CCO_YIELD`, `CCO_AWAIT` | Recommended return values in coroutines | +| | Function / 'keywords': | | +| | `cco_cleanup:` | Label for cleanup position in coroutine | | `bool` | `cco_done(co)` | Is coroutine done? | -| | `cco_routine(co) { ... }` | The coroutine closure | -| | `cco_yield()` | Yield/suspend execution | -| | `cco_yield(ret)` | Yield/suspend execution and return ret | -| | `cco_await(promise)` | Await/suspend until promise is true | -| | `cco_await(promise, ret)` | Await/suspend with ret value | -| | `cco_return` | Replaces return. Jump to cco_final: if exist| -| | `cco_return_v(val)` | Yield final value, enter final-state | -| | `cco_closure(Ret, Closure, ...)` | Define coroutine closure struct. | -| `void` | `cco_await_on(closure) { }` | Await on closure to finish | -| `void` | `cco_await_on(co, func) { }` | Await on func(co) to finish | +| | `cco_routine(co) { }` | The coroutine scope | +| | `cco_yield();` | Yield/suspend execution (return CCO_YIELD)| +| | `cco_yield_v();` | Yield/suspend execution (return void) | +| | `cco_yield_v(ret);` | Yield/suspend execution (return ret) | +| | `cco_yield_final();` | Yield final time, enables cleanup-state | +| | `cco_yield_final(val);` | Yield a final value (e.g. CCO_ERROR) | +| | `cco_await(condition);` | Suspend until condition is true (return CCO_AWAIT)| +| | `cco_await_v(condition);` | Suspend until condition is true (return void) | +| | `cco_await_v(condition, ret);` | Suspend until condition is true (return ret)| +| | `cco_await_on(cocall);` | Await on sub-coroutine to finish | +| | `cco_return;` | Return from coroutine (inside cco_routine) | +| | `cco_closure(Closure, ...);` | Define a coroutine closure struct (optional) | | | Semaphores: | | | | `cco_sem` | Semaphore type | +| `cco_sem` | `cco_sem_from(long value)` | Create semaphore | +| | `cco_sem_set(sem, long value)` | Set semaphore value | | | `cco_sem_await(sem)` | Await for the semaphore count > 0 | | | `cco_sem_await(sem, ret)` | Await with ret on the semaphore | -| `cco_sem` | `cco_sem_init(long value)` | Set semaphore value | | | `cco_sem_release(sem)` | Signal the semaphore (count += 1) | | | Timers: | | | | `cco_timer` | Timer type | @@ -401,11 +411,15 @@ To resume the coroutine from where it was suspended with *cco_yield()*, simply c | | From caller side: | | | `void` | `cco_stop(co)` | Next call of coroutine finalizes | | `void` | `cco_reset(co)` | Reset state to initial (for reuse) | -| `void` | `cco_block_on(closure) { }` | Run blocking until closure is finished | -| `void` | `cco_block_on(co, func) { }` | Run blocking until func is finished | +| `void` | `cco_block_on(cocall) { }` | Run blocking until cocall is finished | +| `void` | `cco_block_on(cocall, int *result) { }`| Run blocking until cocall is finished | | | Time functions: | | | `double` | `cco_time(void)` | Return secs with usec prec. since Epoch | | | `cco_sleep(double sec)` | Sleep for seconds (msec or usec prec.) | +| | Emulate switch: | | +| | `cco_switch(x) { }` | Like switch syntax | +| | `cco_case(val) { }` | Braces are required. Fall-through if no break; | +| | `cco_default { }` | Default action | --- ## RAII scope macros diff --git a/include/stc/algo/coroutine.h b/include/stc/algo/coroutine.h index e20fd8ad..198b0439 100644 --- a/include/stc/algo/coroutine.h +++ b/include/stc/algo/coroutine.h @@ -32,22 +32,22 @@ struct iterpair { int cco_state; // required member }; -bool iterpair(struct iterpair* I) { +int iterpair(struct iterpair* I) { cco_routine(I) { for (I->x = 0; I->x < I->max_x; I->x++) for (I->y = 0; I->y < I->max_y; I->y++) - cco_yield(false); + cco_yield(); - cco_final: // required if there is cleanup code + cco_cleanup: // required if there is cleanup code puts("final"); } - return true; // finished + return 0; // CCO_DONE } int main(void) { struct iterpair it = {.max_x=3, .max_y=3}; int n = 0; - while (!iterpair(&it)) + while (iterpair(&it)) { printf("%d %d\n", it.x, it.y); // example of early stop: @@ -59,12 +59,19 @@ int main(void) { #include "../ccommon.h" enum { - cco_state_final = -1, - cco_state_done = -2, + CCO_STATE_CLEANUP = -1, + CCO_STATE_DONE = -2, }; +typedef enum { + CCO_DONE = 0, + CCO_YIELD = 1, + CCO_AWAIT = 2, + CCO_ERROR = -1, +} cco_result; #define cco_initial(co) ((co)->cco_state == 0) -#define cco_done(co) ((co)->cco_state == cco_state_done) +#define cco_suspended(co) ((co)->cco_state > 0) +#define cco_done(co) ((co)->cco_state == CCO_STATE_DONE) /* Emulate switch in coro: always use { } after cco_case(val) and cco_default. */ #define cco_switch(x) for (long long _sw = (long long)(x), _b=0; !_b; _b=1) @@ -72,83 +79,97 @@ enum { #define cco_default #define cco_routine(co) \ - for (int *_state = &(co)->cco_state; *_state != cco_state_done; *_state = cco_state_done) \ + for (int *_state = &(co)->cco_state; *_state != CCO_STATE_DONE; *_state = CCO_STATE_DONE) \ _resume: switch (*_state) case 0: // thanks, @liigo! -#define cco_yield(ret) \ +#define cco_yield() cco_yield_v(CCO_YIELD) +#define cco_yield_v(ret) \ do { \ *_state = __LINE__; return ret; goto _resume; \ case __LINE__:; \ } while (0) -#define cco_await(...) c_MACRO_OVERLOAD(cco_await, __VA_ARGS__) -#define cco_await_1(promise) cco_await_2(promise, ) -#define cco_await_2(promise, ret) \ +#define cco_await(promise) cco_await_v_2(promise, CCO_AWAIT) +#define cco_await_v(...) c_MACRO_OVERLOAD(cco_await_v, __VA_ARGS__) +#define cco_await_v_1(promise) cco_await_v_2(promise, ) +#define cco_await_v_2(promise, ret) \ do { \ *_state = __LINE__; \ case __LINE__: if (!(promise)) {return ret; goto _resume;} \ } while (0) -#define cco_closure(Ret, Closure, ...) \ - struct Closure { \ - Ret (*cco_fn)(struct Closure*); \ - int cco_state; \ - __VA_ARGS__ \ - } - -typedef struct cco_base { - void (*cco_fn)(struct cco_base*); - int cco_state; -} cco_base; - -#define cco_base_cast(closure) \ - ((cco_base *)(closure) + 0*sizeof((cco_resume(closure), (int*)0 == &(closure)->cco_state))) - -#define cco_resume(closure) (closure)->cco_fn(closure) -#define cco_await_on(...) c_MACRO_OVERLOAD(cco_await_on, __VA_ARGS__) -#define cco_await_on_1(closure) cco_await_2((cco_resume(closure), cco_done(closure)), ) -#define cco_await_on_2(co, func) cco_await_2((func(co), cco_done(co)), ) +/* cco_await_on(): assumes coroutine returns a cco_result value (int) */ +#define cco_await_on(corocall) \ + do { \ + *_state = __LINE__; \ + case __LINE__: { int _r = corocall; if (_r != CCO_DONE) {return _r; goto _resume;} } \ + } while (0) +/* cco_block_on(): assumes coroutine returns a cco_result value (int) */ #define cco_block_on(...) c_MACRO_OVERLOAD(cco_block_on, __VA_ARGS__) -#define cco_block_on_1(closure) while (cco_resume(closure), !cco_done(closure)) -#define cco_block_on_2(co, func) while (func(co), !cco_done(co)) +#define cco_block_on_1(corocall) while (corocall != CCO_DONE) +#define cco_block_on_2(corocall, res) while ((*(res) = (corocall)) != CCO_DONE) -#define cco_final \ - *_state = cco_state_final; case cco_state_final +#define cco_cleanup \ + *_state = CCO_STATE_CLEANUP; case CCO_STATE_CLEANUP #define cco_return \ do { \ - *_state = *_state >= 0 ? cco_state_final : cco_state_done; \ + *_state = *_state >= 0 ? CCO_STATE_CLEANUP : CCO_STATE_DONE; \ goto _resume; \ } while (0) -#define cco_return_v(value) \ +#define cco_yield_final() cco_yield_final_v(CCO_YIELD) +#define cco_yield_final_v(value) \ do { \ - *_state = *_state >= 0 ? cco_state_final : cco_state_done; \ + *_state = *_state >= 0 ? CCO_STATE_CLEANUP : CCO_STATE_DONE; \ return value; \ } while (0) #define cco_stop(co) \ do { \ int* _s = &(co)->cco_state; \ - if (*_s > 0) *_s = cco_state_final; \ - else if (*_s == 0) *_s = cco_state_done; \ + if (*_s > 0) *_s = CCO_STATE_CLEANUP; \ + else if (*_s == 0) *_s = CCO_STATE_DONE; \ } while (0) #define cco_reset(co) \ (void)((co)->cco_state = 0) +/* + * Closure (optional) + */ + +#define cco_closure(Name, ...) \ + struct Name { \ + int (*cco_fn)(struct Name*); \ + int cco_state; \ + __VA_ARGS__ \ + } + +typedef struct cco_base { + int (*cco_fn)(struct cco_base*); + int cco_state; +} cco_base; + +#define cco_resume(closure) \ + (closure)->cco_fn(closure) + +#define cco_cast(closure) \ + ((cco_base *)(closure) + 0*sizeof((cco_resume(closure), (int*)0 == &(closure)->cco_state))) + /* * Semaphore */ typedef struct { intptr_t count; } cco_sem; -#define cco_sem_await(...) c_MACRO_OVERLOAD(cco_sem_await, __VA_ARGS__) -#define cco_sem_await_1(sem) cco_sem_await_2(sem, ) -#define cco_sem_await_2(sem, ret) \ +#define cco_sem_await(sem) cco_sem_await_v_2(sem, CCO_AWAIT) +#define cco_sem_await_v(...) c_MACRO_OVERLOAD(cco_sem_await_v, __VA_ARGS__) +#define cco_sem_await_v_1(sem) cco_sem_await_v_2(sem, ) +#define cco_sem_await_v_2(sem, ret) \ do { \ - cco_await_2((sem)->count > 0, ret); \ + cco_await_v_2((sem)->count > 0, ret); \ --(sem)->count; \ } while (0) @@ -197,12 +218,13 @@ typedef struct { intptr_t count; } cco_sem; typedef struct { double interval, start; } cco_timer; -#define cco_timer_await(...) c_MACRO_OVERLOAD(cco_timer_await, __VA_ARGS__) -#define cco_timer_await_2(tm, sec) cco_timer_await_3(tm, sec, ) -#define cco_timer_await_3(tm, sec, ret) \ +#define cco_timer_await(tm, sec) cco_timer_await_v_3(tm, sec, CCO_AWAIT) +#define cco_timer_await_v(...) c_MACRO_OVERLOAD(cco_timer_await_v, __VA_ARGS__) +#define cco_timer_await_v_2(tm, sec) cco_timer_await_v_3(tm, sec, ) +#define cco_timer_await_v_3(tm, sec, ret) \ do { \ cco_timer_start(tm, sec); \ - cco_await_2(cco_timer_expired(tm), ret); \ + cco_await_v_2(cco_timer_expired(tm), ret); \ } while (0) static inline void cco_timer_start(cco_timer* tm, double sec) { diff --git a/include/stc/algo/sort.h b/include/stc/algo/sort.h index 002e6499..8365ccc5 100644 --- a/include/stc/algo/sort.h +++ b/include/stc/algo/sort.h @@ -44,7 +44,7 @@ int main() { // ex2: #define i_val int #define i_type IDeq -#define i_retain // retain input template params to be reused by sort.h +#define i_more // retain input template params to be reused by sort.h #include #include diff --git a/include/stc/cdeq.h b/include/stc/cdeq.h index 2db040f1..bac40f90 100644 --- a/include/stc/cdeq.h +++ b/include/stc/cdeq.h @@ -23,11 +23,11 @@ #define _i_prefix cdeq_ #define _pop _pop_front #define _pull _pull_front -#ifdef i_retain +#ifdef i_more #include "cqueue.h" - #define i_retain + #define i_more #else - #define i_retain + #define i_more #include "cqueue.h" #endif #undef _pop diff --git a/include/stc/priv/template2.h b/include/stc/priv/template2.h index bd8bc5fc..def5d01e 100644 --- a/include/stc/priv/template2.h +++ b/include/stc/priv/template2.h @@ -20,8 +20,8 @@ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ -#ifdef i_retain -#undef i_retain +#ifdef i_more +#undef i_more #else #undef i_type #undef i_tag diff --git a/misc/benchmarks/various/csort_bench.c b/misc/benchmarks/various/csort_bench.c index 93034dde..d434693f 100644 --- a/misc/benchmarks/various/csort_bench.c +++ b/misc/benchmarks/various/csort_bench.c @@ -8,7 +8,7 @@ #define NDEBUG #define i_type Ints #define i_val int -#define i_retain +#define i_more #include #include diff --git a/misc/examples/cointerleave.c b/misc/examples/cointerleave.c index 1ba7b861..61562a5f 100644 --- a/misc/examples/cointerleave.c +++ b/misc/examples/cointerleave.c @@ -15,7 +15,7 @@ static int get_value(struct GenValue* g) { cco_routine(g) { for (g->it = IVec_begin(g->v); g->it.ref; IVec_next(&g->it)) - cco_yield(*g->it.ref); + cco_yield_v(*g->it.ref); } return -1; } @@ -26,10 +26,10 @@ struct Generator { int value; }; -void interleaved(struct Generator* g) +cco_result interleaved(struct Generator* g) { cco_routine(g) { - do { + while (!(cco_done(&g->x) & cco_done(&g->y))) { g->value = get_value(&g->x); if (!cco_done(&g->x)) cco_yield(); @@ -37,8 +37,9 @@ void interleaved(struct Generator* g) g->value = get_value(&g->y); if (!cco_done(&g->y)) cco_yield(); - } while (!(cco_done(&g->x) & cco_done(&g->y))); + } } + return CCO_DONE; } void Use(void) @@ -48,7 +49,7 @@ void Use(void) struct Generator g = {{&a}, {&b}}; - cco_block_on(&g, interleaved) { + cco_block_on(interleaved(&g)) { printf("%d ", g.value); } puts(""); diff --git a/misc/examples/coread.c b/misc/examples/coread.c index 622228c0..a13f6be5 100644 --- a/misc/examples/coread.c +++ b/misc/examples/coread.c @@ -12,7 +12,7 @@ struct file_read { cstr line; }; -void file_read(struct file_read* g) +int file_read(struct file_read* g) { cco_routine(g) { g->fp = fopen(g->filename, "r"); @@ -21,18 +21,19 @@ void file_read(struct file_read* g) cco_await(!cstr_getline(&g->line, g->fp)); - cco_final: + cco_cleanup: printf("finish\n"); cstr_drop(&g->line); if (g->fp) fclose(g->fp); } + return 0; } int main(void) { struct file_read g = {__FILE__}; int n = 0; - cco_block_on(&g, file_read) + cco_block_on(file_read(&g)) { printf("%3d %s\n", ++n, cstr_str(&g.line)); //if (n == 10) cco_stop(&g); diff --git a/misc/examples/coroutines.c b/misc/examples/coroutines.c index 1e900fa1..b8dfaa13 100644 --- a/misc/examples/coroutines.c +++ b/misc/examples/coroutines.c @@ -4,27 +4,26 @@ // Demonstrate to call another coroutine from a coroutine: // First create prime generator, then call fibonacci sequence: -typedef long long llong; -bool is_prime(int64_t i) { - for (llong j=2; j*j <= i; ++j) +bool is_prime(long long i) { + for (long long j=2; j*j <= i; ++j) if (i % j == 0) return false; return true; } struct prime { int count, idx; - llong result, pos; + long long result, pos; int cco_state; }; -bool prime(struct prime* g) { +int prime(struct prime* g) { cco_routine(g) { if (g->result < 2) g->result = 2; if (g->result == 2) { if (g->count-- == 0) cco_return; ++g->idx; - cco_yield(false); + cco_yield(); } g->result += !(g->result & 1); for (g->pos = g->result; g->count > 0; g->pos += 2) { @@ -32,13 +31,13 @@ bool prime(struct prime* g) { --g->count; ++g->idx; g->result = g->pos; - cco_yield(false); + cco_yield(); } } - cco_final: + cco_cleanup: printf("final prm\n"); } - return true; + return 0; } @@ -46,13 +45,14 @@ bool prime(struct prime* g) { struct fibonacci { int count, idx; - llong result, b; + long long result, b; int cco_state; }; -bool fibonacci(struct fibonacci* g) { +int fibonacci(struct fibonacci* g) { assert(g->count < 94); + long long sum; cco_routine(g) { g->idx = 0; g->result = 0; @@ -61,17 +61,17 @@ bool fibonacci(struct fibonacci* g) { if (g->count-- == 0) cco_return; if (++g->idx > 1) { - // NB! locals lasts only until next cco_yield/cco_await! - llong sum = g->result + g->b; + // NB! locals lasts only until next yield/await! + sum = g->result + g->b; g->result = g->b; g->b = sum; } - cco_yield(false); + cco_yield(); } - cco_final: + cco_cleanup: printf("final fib\n"); } - return true; + return 0; } // Combine @@ -82,29 +82,31 @@ struct combined { int cco_state; }; - -void combined(struct combined* g) { +int combined(struct combined* g) { cco_routine(g) { - cco_await(prime(&g->prm)); - cco_await(fibonacci(&g->fib)); + cco_await_on(prime(&g->prm)); + cco_await_on(fibonacci(&g->fib)); // Reuse the g->prm context and extend the count: g->prm.count = 8, g->prm.result += 2; cco_reset(&g->prm); - cco_await(prime(&g->prm)); + cco_await_on(prime(&g->prm)); - cco_final: + cco_cleanup: puts("final combined"); } + return 0; } int main(void) { struct combined c = {.prm={.count=8}, .fib={14}}; + int res; - cco_block_on(&c, combined) { - printf("Prime(%d)=%lld, Fib(%d)=%lld\n", - c.prm.idx, c.prm.result, - c.fib.idx, c.fib.result); + cco_block_on(combined(&c), &res) { + if (res == CCO_YIELD) + printf("Prime(%d)=%lld, Fib(%d)=%lld\n", + c.prm.idx, c.prm.result, + c.fib.idx, c.fib.result); } } diff --git a/misc/examples/dining_philosophers.c b/misc/examples/dining_philosophers.c index e13eb055..61fe67fb 100644 --- a/misc/examples/dining_philosophers.c +++ b/misc/examples/dining_philosophers.c @@ -27,7 +27,7 @@ struct Dining { // Philosopher coroutine -void philosopher(struct Philosopher* p) +int philosopher(struct Philosopher* p) { double duration; cco_routine(p) { @@ -48,14 +48,15 @@ void philosopher(struct Philosopher* p) cco_sem_release(p->right_fork); } - cco_final: + cco_cleanup: printf("Philosopher %d finished\n", p->id); } + return 0; } // Dining coroutine -void dining(struct Dining* d) +int dining(struct Dining* d) { cco_routine(d) { for (int i = 0; i < num_forks; ++i) @@ -68,20 +69,21 @@ void dining(struct Dining* d) } while (1) { - // per-"frame" logic update of all philosophers states + // per-"frame" logic resume each philosopher for (int i = 0; i < num_philosophers; ++i) { philosopher(&d->ph[i]); } cco_yield(); // suspend, return control back to main } - cco_final: + cco_cleanup: for (int i = 0; i < num_philosophers; ++i) { cco_stop(&d->ph[i]); philosopher(&d->ph[i]); } puts("Dining finished"); } + return 0; } int main() @@ -89,13 +91,13 @@ int main() struct Dining dine; cco_reset(&dine); int n=0; - cco_timer tm = cco_timer_from(10.0); // seconds + cco_timer tm = cco_timer_from(15.0); // seconds csrand((uint64_t)time(NULL)); while (!cco_done(&dine)) { if (cco_timer_expired(&tm)) cco_stop(&dine); - dining(&dine); + dining(&dine); // resume cco_sleep(0.001); ++n; } diff --git a/misc/examples/generator.c b/misc/examples/generator.c index 6b4b8407..3ff7a645 100644 --- a/misc/examples/generator.c +++ b/misc/examples/generator.c @@ -14,7 +14,7 @@ typedef struct { int cco_state; } Triple_iter; -void Triple_next(Triple_iter* it) { +int Triple_next(Triple_iter* it) { Triple_value* g = it->ref; cco_routine(it) { @@ -29,9 +29,10 @@ void Triple_next(Triple_iter* it) { } } } - cco_final: + cco_cleanup: it->ref = NULL; } + return 0; } Triple_iter Triple_begin(Triple* g) { diff --git a/misc/examples/scheduler.c b/misc/examples/scheduler.c index 04f7ba4a..c1168850 100644 --- a/misc/examples/scheduler.c +++ b/misc/examples/scheduler.c @@ -2,9 +2,11 @@ #include #include -cco_closure(bool, Task, +struct Task { + int (*fn)(struct Task*); + int cco_state; struct Scheduler* sched; -); +}; #define i_type Scheduler #define i_val struct Task @@ -16,49 +18,49 @@ static bool schedule(Scheduler* sched) Scheduler_pop(sched); if (!cco_done(&task)) - cco_resume(&task); + task.fn(&task); return !Scheduler_empty(sched); } -static bool push_task(const struct Task* task) +static int push_task(const struct Task* task) { Scheduler_push(task->sched, *task); - return false; + return CCO_YIELD; } -static bool taskA(struct Task* task) +static int taskA(struct Task* task) { cco_routine(task) { puts("Hello, from task A"); - cco_yield(push_task(task)); + cco_yield_v(push_task(task)); puts("A is back doing work"); - cco_yield(push_task(task)); + cco_yield_v(push_task(task)); puts("A is back doing more work"); - cco_yield(push_task(task)); + cco_yield_v(push_task(task)); puts("A is back doing even more work"); } - return true; + return 0; } -static bool taskB(struct Task* task) +static int taskB(struct Task* task) { cco_routine(task) { puts("Hello, from task B"); - cco_yield(push_task(task)); + cco_yield_v(push_task(task)); puts("B is back doing work"); - cco_yield(push_task(task)); + cco_yield_v(push_task(task)); puts("B is back doing more work"); } - return true; + return 0; } void Use(void) { Scheduler scheduler = c_init(Scheduler, { - {.cco_fn=taskA, .sched=&scheduler}, - {.cco_fn=taskB, .sched=&scheduler}, + {.fn=taskA, .sched=&scheduler}, + {.fn=taskB, .sched=&scheduler}, }); while (schedule(&scheduler)) {} diff --git a/misc/examples/triples.c b/misc/examples/triples.c index 17e3d40b..a8ca6b47 100644 --- a/misc/examples/triples.c +++ b/misc/examples/triples.c @@ -32,7 +32,7 @@ struct triples { int cco_state; }; -void triples_coro(struct triples* t) { +int triples_coro(struct triples* t) { cco_routine(t) { t->count = 0; for (t->c = 5; t->size; ++t->c) { @@ -46,9 +46,10 @@ void triples_coro(struct triples* t) { } } } - cco_final: + cco_cleanup: puts("done"); } + return 0; } int main() @@ -57,11 +58,10 @@ int main() triples_vanilla(5); puts("\nCoroutine triples:"); - struct triples t = {INT32_MAX}; + struct triples t = {.size=INT32_MAX}; int n = 0; - while (!cco_done(&t)) { - triples_coro(&t); + while (triples_coro(&t)) { if (gcd(t.a, t.b) > 1) continue; if (t.c < 100) -- cgit v1.2.3 From ebe5abc29d51c643520301e42124365477f44957 Mon Sep 17 00:00:00 2001 From: tylov Date: Wed, 12 Jul 2023 19:39:59 +0200 Subject: Changed docs and examples to use i_key* template parameters instead of i_val* for all non-maps. Renamed c_ASSERT() to c_assert() and added optional message parameter to c_static_assert(). --- README.md | 36 ++++++++++---------- docs/carc_api.md | 38 ++++++++++----------- docs/cbox_api.md | 52 ++++++++++++++-------------- docs/ccommon_api.md | 10 +++--- docs/cdeq_api.md | 54 ++++++++++++++--------------- docs/clist_api.md | 56 +++++++++++++++--------------- docs/cpque_api.md | 32 +++++++++--------- docs/cqueue_api.md | 28 +++++++-------- docs/cset_api.md | 2 +- docs/cspan_api.md | 7 ++-- docs/csset_api.md | 2 +- docs/cstack_api.md | 38 ++++++++++----------- docs/csview_api.md | 2 +- docs/cvec_api.md | 64 +++++++++++++++++------------------ include/stc/algo/sort.h | 21 +++++++----- include/stc/cbits.h | 8 ++--- include/stc/ccommon.h | 14 ++++---- include/stc/cdeq.h | 4 +-- include/stc/clist.h | 2 +- include/stc/cmap.h | 2 +- include/stc/cpque.h | 2 +- include/stc/cqueue.h | 4 +-- include/stc/cspan.h | 28 +++++++-------- include/stc/cstack.h | 8 ++--- include/stc/cvec.h | 8 ++--- include/stc/extend.h | 4 ++- misc/benchmarks/various/csort_bench.c | 2 +- misc/examples/arc_containers.c | 8 ++--- misc/examples/arc_demo.c | 8 ++--- misc/examples/arcvec_erase.c | 6 ++-- misc/examples/astar.c | 4 +-- misc/examples/box.c | 4 +-- misc/examples/box2.c | 6 ++-- misc/examples/cointerleave.c | 2 +- misc/examples/complex.c | 4 +-- misc/examples/convert.c | 4 +-- misc/examples/csmap_find.c | 2 +- misc/examples/csmap_insert.c | 2 +- misc/examples/demos.c | 6 ++-- misc/examples/forfilter.c | 4 +-- misc/examples/forloops.c | 2 +- misc/examples/functor.c | 2 +- misc/examples/inits.c | 6 ++-- misc/examples/intrusive.c | 2 +- misc/examples/list.c | 2 +- misc/examples/list_erase.c | 2 +- misc/examples/list_splice.c | 2 +- misc/examples/lower_bound.c | 4 +-- misc/examples/mmap.c | 2 +- misc/examples/multimap.c | 2 +- misc/examples/music_arc.c | 4 +-- misc/examples/new_list.c | 10 +++--- misc/examples/new_pque.c | 2 +- misc/examples/new_queue.c | 4 +-- misc/examples/new_sptr.c | 10 +++--- misc/examples/new_vec.c | 4 +-- misc/examples/person_arc.c | 4 +-- misc/examples/printspan.c | 8 ++--- misc/examples/priority.c | 2 +- misc/examples/queue.c | 2 +- misc/examples/rawptr_elements.c | 2 +- misc/examples/read.c | 2 +- misc/examples/regex_match.c | 2 +- misc/examples/scheduler.c | 2 +- misc/examples/shape.c | 6 ++-- misc/examples/stack.c | 4 +-- misc/tests/cspan_test.c | 4 +-- 67 files changed, 348 insertions(+), 338 deletions(-) (limited to 'include/stc/algo/sort.h') diff --git a/README.md b/README.md index ab350488..67c4d7fd 100644 --- a/README.md +++ b/README.md @@ -81,7 +81,7 @@ List of contents 1. ***Centralized analysis of template parameters***. The analyser assigns values to all non-specified template parameters (based on the specified ones) using meta-programming, so that you don't have to! You may specify a set of "standard" template parameters for each -container, but as a minimum *only one is required*: `i_val` (+ `i_key` for maps). In this +container, but as a minimum *only one is required*: `i_key` (+ `i_val` for maps). In this case, STC assumes that the elements are of basic types. For non-trivial types, additional template parameters must be given. 2. ***Alternative insert/lookup type***. You may specify an alternative type to use for @@ -118,7 +118,7 @@ Benchmark notes: - Container names are prefixed by `c`, e.g. `cvec`, `cstr`. - Public STC macros are prefixed by `c_`, e.g. `c_foreach`, `c_init`. -- Template parameter macros are prefixed by `i_`, e.g. `i_val`, `i_type`. +- Template parameter macros are prefixed by `i_`, e.g. `i_key`, `i_type`. - All containers can be initialized with `{0}`, i.e. no heap allocation used by default init. - Common types for a container type Con: - Con @@ -150,7 +150,7 @@ templated types in C++. However, to specify template parameters with STC, you de including the container: ```c #define i_type Floats // Container type name; unless defined name would be cvec_float -#define i_val float // Container element type +#define i_key float // Container element type #include // "instantiate" the desired container type #include @@ -177,7 +177,7 @@ You may switch to a different container type, e.g. a sorted set (csset): [ [Run this code](https://godbolt.org/z/qznfa65e1) ] ```c #define i_type Floats -#define i_val float +#define i_key float #include // Use a sorted set instead #include @@ -196,7 +196,7 @@ int main() } ``` For user-defined struct elements, `i_cmp` compare function should be defined as the default `<` and `==` -only works for integral types. *Alternatively, `#define i_opt c_no_cmp` to disable sorting and searching*. Similarily, if an element destructor `i_valdrop` is defined, `i_valclone` function is required. +only works for integral types. *Alternatively, `#define i_opt c_no_cmp` to disable sorting and searching*. Similarily, if an element destructor `i_keydrop` is defined, `i_keyclone` function is required. *Alternatively `#define i_opt c_no_clone` to disable container cloning.* Let's make a vector of vectors, which can be cloned. All of its element vectors will be destroyed when destroying the Vec2D. @@ -206,11 +206,11 @@ Let's make a vector of vectors, which can be cloned. All of its element vectors #include #define i_type Vec -#define i_val float +#define i_key float #include #define i_type Vec2D -#define i_valclass Vec // Use i_valclass when element type has "members" _clone(), _drop() and _cmp(). +#define i_keyclass Vec // Use i_keyclass when element type has "members" _clone(), _drop() and _cmp(). #define i_opt c_no_cmp // Disable cmp (search/sort) for Vec2D because Vec_cmp() is not defined. #include @@ -246,12 +246,12 @@ This example uses four different container types: struct Point { float x, y; }; // Define cvec_pnt with a less-comparison function for Point. -#define i_val struct Point +#define i_key struct Point #define i_less(a, b) a->x < b->x || (a->x == b->x && a->y < b->y) #define i_tag pnt #include // cvec_pnt: vector of struct Point -#define i_val int +#define i_key int #include // clist_int: singly linked list #define i_key int @@ -369,10 +369,10 @@ or define your own, e.g.: #define i_tag ix #include // cset_ix -#define i_val int +#define i_key int #include // cvec_int -#define i_val Point +#define i_key Point #define i_tag pnt #include // clist_pnt ``` @@ -383,8 +383,8 @@ Each templated type requires one `#include`, even if it's the same container bas The template parameters are given by a `#define i_xxxx` statement, where *xxxx* is the parameter name. The list of template parameters: -- `i_key` *Type* - Element key type for map/set only. **[required]**. -- `i_val` *Type* - Element value type. **[required for]** cmap/csmap, it is the mapped value type. +- `i_key` *Type* - Element key type. **[required]**. Note: `i_val` *may* be used instead for non-maps (not recommended). +- `i_val` *Type* - Element value type. **[required for]** cmap/csmap as the mapped value type. - `i_cmp` *Func* - Three-way comparison of two *i_keyraw*\* or *i_valraw*\* - **[required for]** non-integral *i_keyraw* elements unless *i_opt* is defined with *c_no_cmp*. - `i_hash` *Func* - Hash function taking *i_keyraw*\* - defaults to *c_default_hash*. **[required for]** ***cmap/cset*** with non-POD *i_keyraw* elements. - `i_eq` *Func* - Equality comparison of two *i_keyraw*\* - defaults to *!i_cmp*. Companion with *i_hash*. @@ -458,7 +458,7 @@ and non-emplace methods: #define i_implement // define in ONE file to implement longer functions in cstr #include -#define i_val_str // special macro to enable container of cstr +#define i_key_str // special macro to enable container of cstr #include // vector of string (cstr) ... cvec_str vec = {0}; @@ -518,7 +518,7 @@ last example on the **cmap** page demonstrates how to specify a map with non-tri Define `i_type` instead of `i_tag`: ```c #define i_type MyVec -#define i_val int +#define i_key int #include myvec vec = MyVec_init(); @@ -543,7 +543,7 @@ typedef struct Dataset { // Implementation #define i_is_forward // flag that the container was forward declared. -#define i_val struct Point +#define i_key struct Point #define i_tag pnt #include ``` @@ -617,8 +617,8 @@ STC is generally very memory efficient. Memory usage for the different container - coroutines: much improved with some new API and added features. - cspan: Support for column-major (fortran order) multidim spans and transposed views. - Removed default comparison for clist, cvec and cdeq (as with cstack and cqueue). - - Using i_val_str, i_valclass, i_valboxed still expects comparisons defined. - - Define i_native_cmp to enable built-in i_val types comparisons (<, ==). + - Using i_key_str, i_keyclass, i_keyboxed still expects comparisons defined. + - Define i_native_cmp to enable built-in i_key types comparisons (<, ==). - cstr and csview are now shared linked by default. Static linking by defining i_static. - New cdeq and cqueue implementation(s), using circular buffer. - Renamed i_extern => i_import. diff --git a/docs/carc_api.md b/docs/carc_api.md index 22e6bac2..254f868a 100644 --- a/docs/carc_api.md +++ b/docs/carc_api.md @@ -6,14 +6,14 @@ deallocated when the last remaining **carc** owning the object is destroyed with The object is destroyed using *carc_X_drop()*. A **carc** may also own no objects, in which case it is called empty. The *carc_X_cmp()*, *carc_X_drop()* methods are defined based on -the `i_cmp` and `i_valdrop` macros specified. Use *carc_X_clone(p)* when sharing ownership of +the `i_cmp` and `i_keydrop` macros specified. Use *carc_X_clone(p)* when sharing ownership of the pointed-to object. All **carc** functions can be called by multiple threads on different instances of **carc** without additional synchronization even if these instances are copies and share ownership of the same object. **carc** uses thread-safe atomic reference counting, through the *carc_X_clone()* and *carc_X_drop()* methods. -When declaring a container with shared pointers, define `i_valboxed` with the carc type, see example. +When declaring a container with shared pointers, define `i_keyboxed` with the carc type, see example. See similar c++ class [std::shared_ptr](https://en.cppreference.com/w/cpp/memory/shared_ptr) for a functional reference, or Rust [std::sync::Arc](https://doc.rust-lang.org/std/sync/struct.Arc.html) / [std::rc::Rc](https://doc.rust-lang.org/std/rc/struct.Rc.html). @@ -21,14 +21,14 @@ See similar c++ class [std::shared_ptr](https://en.cppreference.com/w/cpp/memory ```c #define i_type // full typename of the carc -#define i_val // value: REQUIRED +#define i_key // element type: REQUIRED -#define i_valraw // convertion "raw" type - defaults to i_val -#define i_valto // convertion func i_val* => i_valraw: REQUIRED IF i_valraw defined. -#define i_valfrom // convertion func i_valraw => i_val +#define i_keyraw // convertion "raw" type - defaults to i_key +#define i_keyto // convertion func i_key* => i_keyraw: REQUIRED IF i_keyraw defined. +#define i_keyfrom // convertion func i_keyraw => i_key #define i_opt c_no_atomic // Non-atomic reference counting, like Rust Rc. -#define i_tag // alternative typename: carc_{i_tag}. i_tag defaults to i_val +#define i_tag // alternative typename: carc_{i_tag}. i_tag defaults to i_key #include ``` `X` should be replaced by the value of `i_tag` in all of the following documentation. @@ -36,9 +36,9 @@ See similar c++ class [std::shared_ptr](https://en.cppreference.com/w/cpp/memory ## Methods ```c carc_X carc_X_init(); // empty shared pointer -carc_X carc_X_from(i_valraw raw); // create an carc from raw type (available if i_valraw defined by user). -carc_X carc_X_from_ptr(i_val* p); // create an carc from raw pointer. Takes ownership of p. -carc_X carc_X_make(i_val val); // create an carc from constructed val object. Faster than from_ptr(). +carc_X carc_X_from(i_keyraw raw); // create an carc from raw type (available if i_keyraw defined by user). +carc_X carc_X_from_ptr(i_key* p); // create an carc from raw pointer. Takes ownership of p. +carc_X carc_X_make(i_key key); // create an carc from constructed key object. Faster than from_ptr(). carc_X carc_X_clone(carc_X other); // return other with increased use count carc_X carc_X_move(carc_X* self); // transfer ownership to receiver; self becomes NULL @@ -49,7 +49,7 @@ void carc_X_drop(carc_X* self); // destruct (decr long carc_X_use_count(const carc_X* self); void carc_X_reset(carc_X* self); -void carc_X_reset_to(carc_X* self, i_val* p); // assign new carc from ptr. Takes ownership of p. +void carc_X_reset_to(carc_X* self, i_key* p); // assign new carc from ptr. Takes ownership of p. uint64_t carc_X_hash(const carc_X* x); // hash value int carc_X_cmp(const carc_X* x, const carc_X* y); // compares pointer addresses if no `i_cmp` is specified. @@ -58,9 +58,9 @@ bool carc_X_eq(const carc_X* x, const carc_X* y); // carc_X_cmp() = // functions on pointed to objects. -uint64_t carc_X_value_hash(const i_val* x); -int carc_X_value_cmp(const i_val* x, const i_val* y); -bool carc_X_value_eq(const i_val* x, const i_val* y); +uint64_t carc_X_value_hash(const i_key* x); +int carc_X_value_cmp(const i_key* x, const i_key* y); +bool carc_X_value_eq(const i_key* x, const i_key* y); ``` ## Types and constants @@ -69,8 +69,8 @@ bool carc_X_value_eq(const i_val* x, const i_val* y); |:------------------|:--------------------------------------------------|:-----------------------| | `carc_null` | `{0}` | Init nullptr const | | `carc_X` | `struct { carc_X_value* get; long* use_count; }` | The carc type | -| `carc_X_value` | `i_val` | The carc element type | -| `carc_X_raw` | `i_valraw` | Convertion type | +| `carc_X_value` | `i_key` | The carc element type | +| `carc_X_raw` | `i_keyraw` | Convertion type | ## Example @@ -89,12 +89,12 @@ bool carc_X_value_eq(const i_val* x, const i_val* y); #include #define i_type Arc // (atomic) ref. counted pointer -#define i_val Map -#define i_valdrop(p) (printf("drop Arc:\n"), Map_drop(p)) +#define i_key Map +#define i_keydrop(p) (printf("drop Arc:\n"), Map_drop(p)) #include #define i_type Stack -#define i_valboxed Arc // Note: use i_valboxed for carc or cbox value types +#define i_keyboxed Arc // Note: use i_keyboxed for carc or cbox value types #include int main() diff --git a/docs/cbox_api.md b/docs/cbox_api.md index 9151f56d..83d59521 100644 --- a/docs/cbox_api.md +++ b/docs/cbox_api.md @@ -2,11 +2,11 @@ **cbox** is a smart pointer to a heap allocated value of type X. A **cbox** can be empty. The *cbox_X_cmp()*, *cbox_X_drop()* methods are defined based on the `i_cmp` -and `i_valdrop` macros specified. Use *cbox_X_clone(p)* to make a deep copy, which uses the -`i_valclone` macro if defined. +and `i_keydrop` macros specified. Use *cbox_X_clone(p)* to make a deep copy, which uses the +`i_keyclone` macro if defined. -When declaring a container of **cbox** values, define `i_valboxed` with the -cbox type instead of defining `i_val`. This will auto-set `i_valdrop`, `i_valclone`, and `i_cmp` using +When declaring a container of **cbox** values, define `i_keyboxed` with the +cbox type instead of defining `i_key`. This will auto-set `i_keydrop`, `i_keyclone`, and `i_cmp` using functions defined by the specified **cbox**. See similar c++ class [std::unique_ptr](https://en.cppreference.com/w/cpp/memory/unique_ptr) for a functional reference, or Rust [std::boxed::Box](https://doc.rust-lang.org/std/boxed/struct.Box.html) @@ -15,29 +15,29 @@ See similar c++ class [std::unique_ptr](https://en.cppreference.com/w/cpp/memory ```c #define i_type // full typename of the cbox -#define i_val // value: REQUIRED -#define i_cmp // three-way compare two i_val* : REQUIRED IF i_val is a non-integral type -#define i_valdrop // destroy value func - defaults to empty destruct -#define i_valclone // REQUIRED if i_valdrop is defined, unless 'i_opt c_no_clone' is defined. +#define i_key // element type: REQUIRED +#define i_cmp // three-way compare two i_key* : REQUIRED IF i_key is a non-integral type +#define i_keydrop // destroy element func - defaults to empty destruct +#define i_keyclone // REQUIRED if i_keydrop is defined, unless 'i_opt c_no_clone' is defined. -#define i_valraw // convertion type (lookup): default to {i_val} -#define i_valto // convertion func i_val* => i_valraw: REQUIRED IF i_valraw defined. -#define i_valfrom // from-raw func. +#define i_keyraw // convertion type (lookup): default to {i_key} +#define i_keyto // convertion func i_key* => i_keyraw: REQUIRED IF i_keyraw defined. +#define i_keyfrom // from-raw func. -#define i_valclass // alt. to i_val: REQUIRES that {i_val}_clone, {i_val}_drop, {i_valraw}_cmp exist. -#define i_tag // alternative typename: cbox_{i_tag}. i_tag defaults to i_val +#define i_keyclass // alt. to i_key: REQUIRES that {i_key}_clone, {i_key}_drop, {i_keyraw}_cmp exist. +#define i_tag // alternative typename: cbox_{i_tag}. i_tag defaults to i_key #include ``` `X` should be replaced by the value of `i_tag` in all of the following documentation. -Define `i_opt` with `c_no_cmp` if comparison between i_val's is not needed/available. Will then +Define `i_opt` with `c_no_cmp` if comparison between i_key's is not needed/available. Will then compare the pointer addresses when used. Additionally, `c_no_clone` or `i_is_fwd` may be defined. ## Methods ```c cbox_X cbox_X_init(); // return an empty cbox -cbox_X cbox_X_from(i_valraw raw); // create a cbox from raw type. Avail if i_valraw user defined. -cbox_X cbox_X_from_ptr(i_val* ptr); // create a cbox from a pointer. Takes ownership of ptr. -cbox_X cbox_X_make(i_val val); // create a cbox from unowned val object. +cbox_X cbox_X_from(i_keyraw raw); // create a cbox from raw type. Avail if i_keyraw user defined. +cbox_X cbox_X_from_ptr(i_key* ptr); // create a cbox from a pointer. Takes ownership of ptr. +cbox_X cbox_X_make(i_key val); // create a cbox from unowned val object. cbox_X cbox_X_clone(cbox_X other); // return deep copied clone cbox_X cbox_X_move(cbox_X* self); // transfer ownership to receiving cbox returned. self becomes NULL. @@ -46,7 +46,7 @@ void cbox_X_assign(cbox_X* self, cbox_X* moved); // transfer owners void cbox_X_drop(cbox_X* self); // destruct the contained object and free its heap memory. void cbox_X_reset(cbox_X* self); -void cbox_X_reset_to(cbox_X* self, i_val* p); // assign new cbox from ptr. Takes ownership of p. +void cbox_X_reset_to(cbox_X* self, i_key* p); // assign new cbox from ptr. Takes ownership of p. uint64_t cbox_X_hash(const cbox_X* x); // hash value int cbox_X_cmp(const cbox_X* x, const cbox_X* y); // compares pointer addresses if no `i_cmp` is specified. @@ -55,9 +55,9 @@ bool cbox_X_eq(const cbox_X* x, const cbox_X* y); // cbox_X_cmp() == // functions on pointed to objects. -uint64_t cbox_X_value_hash(const i_val* x); -int cbox_X_value_cmp(const i_val* x, const i_val* y); -bool cbox_X_value_eq(const i_val* x, const i_val* y); +uint64_t cbox_X_value_hash(const i_key* x); +int cbox_X_value_cmp(const i_key* x, const i_key* y); +bool cbox_X_value_eq(const i_key* x, const i_key* y); ``` ## Types and constants @@ -66,7 +66,7 @@ bool cbox_X_value_eq(const i_val* x, const i_val* y); |:-------------------|:--------------------------------|:------------------------| | `cbox_null` | `{0}` | Init nullptr const | | `cbox_X` | `struct { cbox_X_value* get; }` | The cbox type | -| `cbox_X_value` | `i_val` | The cbox element type | +| `cbox_X_value` | `i_key` | The cbox element type | ## Example @@ -77,9 +77,9 @@ void int_drop(int* x) { } #define i_type IBox -#define i_val int -#define i_valdrop int_drop // optional func, just to display elements destroyed -#define i_valclone(x) x // must specified when i_valdrop is defined. +#define i_key int +#define i_keydrop int_drop // optional func, just to display elements destroyed +#define i_keyclone(x) x // must specified when i_keydrop is defined. #include #define i_type ISet @@ -87,7 +87,7 @@ void int_drop(int* x) { #include // ISet : std::set> #define i_type IVec -#define i_valboxed IBox // NB: use i_valboxed instead of i_val +#define i_keyboxed IBox // NB: use i_keyboxed instead of i_key #include // IVec : std::vector> int main() diff --git a/docs/ccommon_api.md b/docs/ccommon_api.md index 7569bb5b..52ad88e4 100644 --- a/docs/ccommon_api.md +++ b/docs/ccommon_api.md @@ -162,7 +162,7 @@ Note that `c_flt_take()` and `c_flt_takewhile()` breaks the loop on false. Make any container from an initializer list: ```c -#define i_val_str // owned cstr string value type +#define i_key_str // owned cstr string value type #include #define i_key int @@ -210,7 +210,7 @@ You may customize `i_tag` and the comparison function `i_cmp` or `i_less`. There is a [benchmark/test file here](../misc/benchmarks/various/csort_bench.c). ```c -#define i_val int +#define i_key int #include #include @@ -224,7 +224,7 @@ Containers with random access may also be sorted. Even sorting cdeq/cqueue (with possible and very fast. Note that `i_more` must be defined to retain specified template parameters for use by sort: ```c #define i_type MyDeq -#define i_val int +#define i_key int #define i_more #include // deque #include @@ -273,7 +273,7 @@ int* ip = c_const_cast(int*, cs); // issues a warning! ### Predefined template parameter functions -**crawstr** - Non-owned `const char*` "class" element type: `#define i_valclass crawstr` +**crawstr** - Non-owned `const char*` "class" element type: `#define i_keyclass crawstr` ```c typedef const char* crawstr; int crawstr_cmp(const crawstr* x, const crawstr* y); @@ -485,7 +485,7 @@ return ok; #define i_implement #include -#define i_val_str +#define i_key_str #include // receiver should check errno variable diff --git a/docs/cdeq_api.md b/docs/cdeq_api.md index 5a00d69a..292b0933 100644 --- a/docs/cdeq_api.md +++ b/docs/cdeq_api.md @@ -11,16 +11,16 @@ See the c++ class [std::deque](https://en.cppreference.com/w/cpp/container/deque ```c #define i_type // full typename of the container -#define i_val // value: REQUIRED -#define i_cmp // three-way compare two i_valraw* : REQUIRED IF i_valraw is a non-integral type -#define i_valdrop // destroy value func - defaults to empty destruct -#define i_valclone // REQUIRED IF i_valdrop defined +#define i_key // value: REQUIRED +#define i_cmp // three-way compare two i_keyraw* : REQUIRED IF i_keyraw is a non-integral type +#define i_keydrop // destroy value func - defaults to empty destruct +#define i_keyclone // REQUIRED IF i_keydrop defined -#define i_valraw // convertion "raw" type - defaults to i_val -#define i_valfrom // convertion func i_valraw => i_val -#define i_valto // convertion func i_val* => i_valraw +#define i_keyraw // convertion "raw" type - defaults to i_key +#define i_keyfrom // convertion func i_keyraw => i_key +#define i_keyto // convertion func i_key* => i_keyraw -#define i_tag // alternative typename: cdeq_{i_tag}. i_tag defaults to i_val +#define i_tag // alternative typename: cdeq_{i_tag}. i_tag defaults to i_key #include ``` `X` should be replaced by the value of `i_tag` in all of the following documentation. @@ -44,30 +44,30 @@ intptr_t cdeq_X_capacity(const cdeq_X* self); const cdeq_X_value* cdeq_X_at(const cdeq_X* self, intptr_t idx); cdeq_X_value* cdeq_X_at_mut(cdeq_X* self, intptr_t idx); -const cdeq_X_value* cdeq_X_get(const cdeq_X* self, i_valraw raw); // return NULL if not found -cdeq_X_value* cdeq_X_get_mut(cdeq_X* self, i_valraw raw); // mutable get -cdeq_X_iter cdeq_X_find(const cdeq_X* self, i_valraw raw); -cdeq_X_iter cdeq_X_find_in(cdeq_X_iter i1, cdeq_X_iter i2, i_valraw raw); // return cvec_X_end() if not found +const cdeq_X_value* cdeq_X_get(const cdeq_X* self, i_keyraw raw); // return NULL if not found +cdeq_X_value* cdeq_X_get_mut(cdeq_X* self, i_keyraw raw); // mutable get +cdeq_X_iter cdeq_X_find(const cdeq_X* self, i_keyraw raw); +cdeq_X_iter cdeq_X_find_in(cdeq_X_iter i1, cdeq_X_iter i2, i_keyraw raw); // return cvec_X_end() if not found cdeq_X_value* cdeq_X_front(const cdeq_X* self); cdeq_X_value* cdeq_X_back(const cdeq_X* self); -cdeq_X_value* cdeq_X_push_front(cdeq_X* self, i_val value); -cdeq_X_value* cdeq_X_emplace_front(cdeq_X* self, i_valraw raw); +cdeq_X_value* cdeq_X_push_front(cdeq_X* self, i_key value); +cdeq_X_value* cdeq_X_emplace_front(cdeq_X* self, i_keyraw raw); void cdeq_X_pop_front(cdeq_X* self); -cdeq_X_value* cdeq_X_push_back(cdeq_X* self, i_val value); -cdeq_X_value* cdeq_X_push(cdeq_X* self, i_val value); // alias for push_back() -cdeq_X_value* cdeq_X_emplace_back(cdeq_X* self, i_valraw raw); -cdeq_X_value* cdeq_X_emplace(cdeq_X* self, i_valraw raw); // alias for emplace_back() +cdeq_X_value* cdeq_X_push_back(cdeq_X* self, i_key value); +cdeq_X_value* cdeq_X_push(cdeq_X* self, i_key value); // alias for push_back() +cdeq_X_value* cdeq_X_emplace_back(cdeq_X* self, i_keyraw raw); +cdeq_X_value* cdeq_X_emplace(cdeq_X* self, i_keyraw raw); // alias for emplace_back() void cdeq_X_pop_back(cdeq_X* self); -cdeq_X_iter cdeq_X_insert_n(cdeq_X* self, intptr_t idx, const i_val[] arr, intptr_t n); // move values -cdeq_X_iter cdeq_X_insert_at(cdeq_X* self, cdeq_X_iter it, i_val value); // move value +cdeq_X_iter cdeq_X_insert_n(cdeq_X* self, intptr_t idx, const i_key[] arr, intptr_t n); // move values +cdeq_X_iter cdeq_X_insert_at(cdeq_X* self, cdeq_X_iter it, i_key value); // move value cdeq_X_iter cdeq_X_insert_uninit(cdeq_X* self, intptr_t idx, intptr_t n); // uninitialized data // copy values: -cdeq_X_iter cdeq_X_emplace_n(cdeq_X* self, intptr_t idx, const i_valraw[] arr, intptr_t n); -cdeq_X_iter cdeq_X_emplace_at(cdeq_X* self, cdeq_X_iter it, i_valraw raw); +cdeq_X_iter cdeq_X_emplace_n(cdeq_X* self, intptr_t idx, const i_keyraw[] arr, intptr_t n); +cdeq_X_iter cdeq_X_emplace_at(cdeq_X* self, cdeq_X_iter it, i_keyraw raw); void cdeq_X_erase_n(cdeq_X* self, intptr_t idx, intptr_t n); cdeq_X_iter cdeq_X_erase_at(cdeq_X* self, cdeq_X_iter it); @@ -88,14 +88,14 @@ void cdeq_X_value_drop(cdeq_X_value* pval); | Type name | Type definition | Used to represent... | |:-------------------|:------------------------------------|:-----------------------| -| `cdeq_X` | `struct { cdeq_X_value* data; }` | The cdeq type | -| `cdeq_X_value` | `i_val` | The cdeq value type | -| `cdeq_X_raw` | `i_valraw` | The raw value type | -| `cdeq_X_iter` | `struct { cdeq_X_value* ref; }` | The iterator type | +| `cdeq_X` | `struct { cdeq_X_value* data; }` | The cdeq type | +| `cdeq_X_value` | `i_key` | The cdeq value type | +| `cdeq_X_raw` | `i_keyraw` | The raw value type | +| `cdeq_X_iter` | `struct { cdeq_X_value* ref; }` | The iterator type | ## Examples ```c -#define i_val int +#define i_key int #define i_tag i #include diff --git a/docs/clist_api.md b/docs/clist_api.md index 51b7af6a..023cca41 100644 --- a/docs/clist_api.md +++ b/docs/clist_api.md @@ -22,16 +22,16 @@ See the c++ class [std::list](https://en.cppreference.com/w/cpp/container/list) ## Header file and declaration ```c -#define i_type // container type name (default: clist_{i_val}) -#define i_val // value: REQUIRED -#define i_cmp // three-way compare two i_valraw* : REQUIRED IF i_valraw is a non-integral type -#define i_valdrop // destroy value func - defaults to empty destruct -#define i_valclone // REQUIRED IF i_valdrop defined - -#define i_valraw // convertion "raw" type (default: {i_val}) -#define i_valto // convertion func i_val* => i_valraw -#define i_valfrom // convertion func i_valraw => i_val -#define i_tag // alternative typename: cpque_{i_tag}. i_tag defaults to i_val +#define i_type // container type name (default: clist_{i_key}) +#define i_key // value: REQUIRED +#define i_cmp // three-way compare two i_keyraw* : REQUIRED IF i_keyraw is a non-integral type +#define i_keydrop // destroy value func - defaults to empty destruct +#define i_keyclone // REQUIRED IF i_keydrop defined + +#define i_keyraw // convertion "raw" type (default: {i_key}) +#define i_keyto // convertion func i_key* => i_keyraw +#define i_keyfrom // convertion func i_keyraw => i_key +#define i_tag // alternative typename: cpque_{i_tag}. i_tag defaults to i_key #include ``` @@ -53,31 +53,31 @@ intptr_t clist_X_count(const clist_X* list); clist_X_value* clist_X_back(const clist_X* self); clist_X_value* clist_X_front(const clist_X* self); -void clist_X_push_back(clist_X* self, i_val value); // note: no pop_back() -void clist_X_push_front(clist_X* self, i_val value); -void clist_X_push(clist_X* self, i_val value); // alias for push_back() +void clist_X_push_back(clist_X* self, i_key value); // note: no pop_back() +void clist_X_push_front(clist_X* self, i_key value); +void clist_X_push(clist_X* self, i_key value); // alias for push_back() -void clist_X_emplace_back(clist_X* self, i_valraw raw); -void clist_X_emplace_front(clist_X* self, i_valraw raw); -void clist_X_emplace(clist_X* self, i_valraw raw); // alias for emplace_back() +void clist_X_emplace_back(clist_X* self, i_keyraw raw); +void clist_X_emplace_front(clist_X* self, i_keyraw raw); +void clist_X_emplace(clist_X* self, i_keyraw raw); // alias for emplace_back() -clist_X_iter clist_X_insert_at(clist_X* self, clist_X_iter it, i_val value); // return iter to new elem -clist_X_iter clist_X_emplace_at(clist_X* self, clist_X_iter it, i_valraw raw); +clist_X_iter clist_X_insert_at(clist_X* self, clist_X_iter it, i_key value); // return iter to new elem +clist_X_iter clist_X_emplace_at(clist_X* self, clist_X_iter it, i_keyraw raw); void clist_X_pop_front(clist_X* self); clist_X_iter clist_X_erase_at(clist_X* self, clist_X_iter it); // return iter after it clist_X_iter clist_X_erase_range(clist_X* self, clist_X_iter it1, clist_X_iter it2); -intptr_t clist_X_remove(clist_X* self, i_valraw raw); // removes all matches +intptr_t clist_X_remove(clist_X* self, i_keyraw raw); // removes all matches clist_X clist_X_split_off(clist_X* self, clist_X_iter i1, clist_X_iter i2); // split off [i1, i2) clist_X_iter clist_X_splice(clist_X* self, clist_X_iter it, clist_X* other); // return updated valid it clist_X_iter clist_X_splice_range(clist_X* self, clist_X_iter it, // return updated valid it clist_X* other, clist_X_iter it1, clist_X_iter it2); -clist_X_iter clist_X_find(const clist_X* self, i_valraw raw); -clist_X_iter clist_X_find_in(clist_X_iter it1, clist_X_iter it2, i_valraw raw); -const i_val* clist_X_get(const clist_X* self, i_valraw raw); -i_val* clist_X_get_mut(clist_X* self, i_valraw raw); +clist_X_iter clist_X_find(const clist_X* self, i_keyraw raw); +clist_X_iter clist_X_find_in(clist_X_iter it1, clist_X_iter it2, i_keyraw raw); +const i_key* clist_X_get(const clist_X* self, i_keyraw raw); +i_key* clist_X_get_mut(clist_X* self, i_keyraw raw); void clist_X_reverse(clist_X* self); void clist_X_sort(clist_X* self); @@ -108,8 +108,8 @@ void clist_X_value_drop(clist_X_value* pval); |:--------------------|:------------------------------------|:-----------------------------------------| | `clist_X` | `struct { clist_X_node* last; }` | The clist type | | `clist_X_node` | `struct { clist_X_node* next; clist_X_value value; }` | The clist node type | -| `clist_X_value` | `i_val` | The clist element type | -| `clist_X_raw` | `i_valraw` | clist raw value type | +| `clist_X_value` | `i_key` | The clist element type | +| `clist_X_raw` | `i_keyraw` | clist raw value type | | `clist_X_iter` | `struct { clist_value *ref; ... }` | clist iterator | ## Example @@ -117,7 +117,7 @@ void clist_X_value_drop(clist_X_value* pval); Interleave *push_front()* / *push_back()* then *sort()*: ```c #define i_type DList -#define i_val double +#define i_key double #include #include @@ -154,7 +154,7 @@ Use of *erase_at()* and *erase_range()*: ```c // erasing from clist #define i_tag i -#define i_val int +#define i_key int #include #include @@ -189,7 +189,7 @@ mylist contains: 10 30 Splice `[30, 40]` from *L2* into *L1* before `3`: ```c #define i_tag i -#define i_val int +#define i_key int #include #include diff --git a/docs/cpque_api.md b/docs/cpque_api.md index 962ee162..ca94e367 100644 --- a/docs/cpque_api.md +++ b/docs/cpque_api.md @@ -8,17 +8,17 @@ See the c++ class [std::priority_queue](https://en.cppreference.com/w/cpp/contai ## Header file and declaration ```c -#define i_type // define type name of the container (default cpque_{i_val}) -#define i_val // value: REQUIRED -#define i_less // compare two i_val* : REQUIRED IF i_val/i_valraw is a non-integral type -#define i_valdrop // destroy value func - defaults to empty destruct -#define i_valclone // REQUIRED IF i_valdrop defined +#define i_type // define type name of the container (default cpque_{i_key}) +#define i_key // value: REQUIRED +#define i_less // compare two i_key* : REQUIRED IF i_key/i_keyraw is a non-integral type +#define i_keydrop // destroy value func - defaults to empty destruct +#define i_keyclone // REQUIRED IF i_keydrop defined -#define i_valraw // convertion type -#define i_valfrom // convertion func i_valraw => i_val -#define i_valto // convertion func i_val* => i_valraw. +#define i_keyraw // convertion type +#define i_keyfrom // convertion func i_keyraw => i_key +#define i_keyto // convertion func i_key* => i_keyraw. -#define i_tag // alternative typename: cpque_{i_tag}. i_tag defaults to i_val +#define i_tag // alternative typename: cpque_{i_tag}. i_tag defaults to i_key #include ``` `X` should be replaced by the value of `i_tag` in all of the following documentation. @@ -28,7 +28,7 @@ See the c++ class [std::priority_queue](https://en.cppreference.com/w/cpp/contai ```c cpque_X cpque_X_init(void); // create empty pri-queue. cpque_X cpque_X_with_capacity(intptr_t cap); -cpque_X cpque_X_with_size(intptr_t size, i_val null); +cpque_X cpque_X_with_size(intptr_t size, i_key null); cpque_X cpque_X_clone(cpque_X pq); void cpque_X_clear(cpque_X* self); @@ -39,16 +39,16 @@ void cpque_X_drop(cpque_X* self); // destructor intptr_t cpque_X_size(const cpque_X* self); bool cpque_X_empty(const cpque_X* self); -i_val* cpque_X_top(const cpque_X* self); +i_key* cpque_X_top(const cpque_X* self); void cpque_X_make_heap(cpque_X* self); // heapify the vector. -void cpque_X_push(cpque_X* self, i_val value); -void cpque_X_emplace(cpque_X* self, i_valraw raw); // converts from raw +void cpque_X_push(cpque_X* self, i_key value); +void cpque_X_emplace(cpque_X* self, i_keyraw raw); // converts from raw void cpque_X_pop(cpque_X* self); void cpque_X_erase_at(cpque_X* self, intptr_t idx); -i_val cpque_X_value_clone(i_val value); +i_key cpque_X_value_clone(i_key value); ``` ## Types @@ -56,14 +56,14 @@ i_val cpque_X_value_clone(i_val value); | Type name | Type definition | Used to represent... | |:-------------------|:--------------------------------------|:------------------------| | `cpque_X` | `struct {cpque_X_value* data; ...}` | The cpque type | -| `cpque_X_value` | `i_val` | The cpque element type | +| `cpque_X_value` | `i_key` | The cpque element type | ## Example ```c #include #include -#define i_val int64_t +#define i_key int64_t #define i_cmp -c_default_cmp // min-heap #define i_tag i #include diff --git a/docs/cqueue_api.md b/docs/cqueue_api.md index f5df86d6..bce62833 100644 --- a/docs/cqueue_api.md +++ b/docs/cqueue_api.md @@ -7,16 +7,16 @@ See the c++ class [std::queue](https://en.cppreference.com/w/cpp/container/queue ## Header file and declaration ```c -#define i_type // container type name (default: cset_{i_key}) -#define i_val // value: REQUIRED -#define i_valdrop // destroy value func - defaults to empty destruct -#define i_valclone // REQUIRED IF i_valdrop defined +#define i_type // container type name (default: cqueue_{i_key}) +#define i_key // value: REQUIRED +#define i_keydrop // destroy value func - defaults to empty destruct +#define i_keyclone // REQUIRED IF i_keydrop defined -#define i_valraw // convertion "raw" type - defaults to i_val -#define i_valfrom // convertion func i_valraw => i_val -#define i_valto // convertion func i_val* => i_valraw +#define i_keyraw // convertion "raw" type - defaults to i_key +#define i_keyfrom // convertion func i_keyraw => i_key +#define i_keyto // convertion func i_key* => i_keyraw -#define i_tag // alternative typename: cqueue_{i_tag}. i_tag defaults to i_val +#define i_tag // alternative typename: cqueue_{i_tag}. i_tag defaults to i_key #include ``` `X` should be replaced by the value of `i_tag` in all of the following documentation. @@ -42,8 +42,8 @@ bool cqueue_X_empty(const cqueue_X* self); cqueue_X_value* cqueue_X_front(const cqueue_X* self); cqueue_X_value* cqueue_X_back(const cqueue_X* self); -cqueue_X_value* cqueue_X_push(cqueue_X* self, i_val value); -cqueue_X_value* cqueue_X_emplace(cqueue_X* self, i_valraw raw); +cqueue_X_value* cqueue_X_push(cqueue_X* self, i_key value); +cqueue_X_value* cqueue_X_emplace(cqueue_X* self, i_keyraw raw); void cqueue_X_pop(cqueue_X* self); cqueue_X_iter cqueue_X_begin(const cqueue_X* self); @@ -52,7 +52,7 @@ void cqueue_X_next(cqueue_X_iter* it); cqueue_X_iter cqueue_X_advance(cqueue_X_iter it, intptr_t n); bool cqueue_X_eq(const cqueue_X* c1, const cqueue_X* c2); // require i_eq/i_cmp/i_less. -i_val cqueue_X_value_clone(i_val value); +i_key cqueue_X_value_clone(i_key value); cqueue_X_raw cqueue_X_value_toraw(const cqueue_X_value* pval); void cqueue_X_value_drop(cqueue_X_value* pval); ``` @@ -62,13 +62,13 @@ void cqueue_X_value_drop(cqueue_X_value* pval); | Type name | Type definition | Used to represent... | |:--------------------|:---------------------|:-------------------------| | `cqueue_X` | `cdeq_X` | The cqueue type | -| `cqueue_X_value` | `i_val` | The cqueue element type | -| `cqueue_X_raw` | `i_valraw` | cqueue raw value type | +| `cqueue_X_value` | `i_key` | The cqueue element type | +| `cqueue_X_raw` | `i_keyraw` | cqueue raw value type | | `cqueue_X_iter` | `cdeq_X_iter` | cqueue iterator | ## Examples ```c -#define i_val int +#define i_key int #define i_tag i #include diff --git a/docs/cset_api.md b/docs/cset_api.md index ecf87e5b..7bce3136 100644 --- a/docs/cset_api.md +++ b/docs/cset_api.md @@ -18,7 +18,7 @@ A **cset** is an associative container that contains a set of unique objects of #define i_keyfrom // convertion func i_keyraw => i_key - defaults to plain copy #define i_keyto // convertion func i_key* => i_keyraw - defaults to plain copy -#define i_tag // alternative typename: cmap_{i_tag}. i_tag defaults to i_val +#define i_tag // alternative typename: cmap_{i_tag}. i_tag defaults to i_key #define i_expandby // default 1. If 2, table expand 2x (else 1.5x) #include ``` diff --git a/docs/cspan_api.md b/docs/cspan_api.md index 4262b1ef..1aeeb4f7 100644 --- a/docs/cspan_api.md +++ b/docs/cspan_api.md @@ -47,8 +47,11 @@ SpanTypeN_iter SpanType_begin(const SpanTypeN* self); SpanTypeN_iter SpanType_end(const SpanTypeN* self); void SpanType_next(SpanTypeN_iter* it); -SpanTypeN cspan_md(char order, ValueType* data, d1, d2, ...); // make a multi-dim cspan. order: 'C' or 'F' (Fortran) - // transpose the md span (inverse axes). no changes to the underlying array. +SpanTypeN cspan_md(ValueType* data, d1, d2, ...); // make a multi-dim cspan, row-major order. +SpanTypeN cspan_md_left(ValueType* data, d1, d2, ...); // column-major ordered cspan (layout left). +SpanTypeN cspan_md_ordered(char order, ValueType* data, d1, d2, ...); // order='C': row-major, 'F' (Fortran): column-major. + + // transpose a md span (inverse axes). no changes to the underlying array. void cspan_transpose(const SpanTypeN* self); // create a sub md span of lower rank. Like e.g. cspan_slice(Span2, &ms4, {x}, {y}, {c_ALL}, {c_ALL}); diff --git a/docs/csset_api.md b/docs/csset_api.md index 5695ecf6..d086b660 100644 --- a/docs/csset_api.md +++ b/docs/csset_api.md @@ -18,7 +18,7 @@ See the c++ class [std::set](https://en.cppreference.com/w/cpp/container/set) fo #define i_keyfrom // convertion func i_keyraw => i_key - defaults to plain copy #define i_keyto // convertion func i_key* => i_keyraw - defaults to plain copy -#define i_tag // alternative typename: csset_{i_tag}. i_tag defaults to i_val +#define i_tag // alternative typename: csset_{i_tag}. i_tag defaults to i_key #include ``` `X` should be replaced by the value of `i_tag` in all of the following documentation. diff --git a/docs/cstack_api.md b/docs/cstack_api.md index 9cb7b42b..51889d7f 100644 --- a/docs/cstack_api.md +++ b/docs/cstack_api.md @@ -9,15 +9,15 @@ See the c++ class [std::stack](https://en.cppreference.com/w/cpp/container/stack ```c #define i_type // full typename of the container -#define i_val // value: REQUIRED -#define i_valdrop // destroy value func - defaults to empty destruct -#define i_valclone // REQUIRED IF i_valdrop defined +#define i_key // value: REQUIRED +#define i_keydrop // destroy value func - defaults to empty destruct +#define i_keyclone // REQUIRED IF i_keydrop defined -#define i_valraw // convertion "raw" type - defaults to i_val -#define i_valfrom // convertion func i_valraw => i_val -#define i_valto // convertion func i_val* => i_valraw +#define i_keyraw // convertion "raw" type - defaults to i_key +#define i_keyfrom // convertion func i_keyraw => i_key +#define i_keyto // convertion func i_key* => i_keyraw -#define i_tag // alternative typename: cstack_{i_tag}. i_tag defaults to i_val +#define i_tag // alternative typename: cstack_{i_tag}. i_tag defaults to i_key #include ``` `X` should be replaced by the value of `i_tag` in all of the following documentation. @@ -27,13 +27,13 @@ See the c++ class [std::stack](https://en.cppreference.com/w/cpp/container/stack ```c cstack_X cstack_X_init(void); cstack_X cstack_X_with_capacity(intptr_t cap); -cstack_X cstack_X_with_size(intptr_t size, i_val fill); +cstack_X cstack_X_with_size(intptr_t size, i_key fill); cstack_X cstack_X_clone(cstack_X st); void cstack_X_clear(cstack_X* self); bool cstack_X_reserve(cstack_X* self, intptr_t n); void cstack_X_shrink_to_fit(cstack_X* self); -i_val* cstack_X_append_uninit(cstack_X* self, intptr_t n); +i_key* cstack_X_append_uninit(cstack_X* self, intptr_t n); void cstack_X_copy(cstack_X* self, const cstack_X* other); void cstack_X_drop(cstack_X* self); // destructor @@ -41,12 +41,12 @@ intptr_t cstack_X_size(const cstack_X* self); intptr_t cstack_X_capacity(const cstack_X* self); bool cstack_X_empty(const cstack_X* self); -i_val* cstack_X_top(const cstack_X* self); -const i_val* cstack_X_at(const cstack_X* self, intptr_t idx); -i_val* cstack_X_at_mut(cstack_X* self, intptr_t idx); +i_key* cstack_X_top(const cstack_X* self); +const i_key* cstack_X_at(const cstack_X* self, intptr_t idx); +i_key* cstack_X_at_mut(cstack_X* self, intptr_t idx); -i_val* cstack_X_push(cstack_X* self, i_val value); -i_val* cstack_X_emplace(cstack_X* self, i_valraw raw); +i_key* cstack_X_push(cstack_X* self, i_key value); +i_key* cstack_X_emplace(cstack_X* self, i_keyraw raw); void cstack_X_pop(cstack_X* self); @@ -55,8 +55,8 @@ cstack_X_iter cstack_X_end(const cstack_X* self); void cstack_X_next(cstack_X_iter* it); bool cstack_X_eq(const cstack_X* c1, const cstack_X* c2); // require i_eq/i_cmp/i_less. -i_val cstack_X_value_clone(i_val value); -i_valraw cstack_X_value_toraw(const cvec_X_value* pval); +i_key cstack_X_value_clone(i_key value); +i_keyraw cstack_X_value_toraw(const cvec_X_value* pval); void cstack_X_value_drop(cvec_X_value* pval); ``` @@ -65,14 +65,14 @@ void cstack_X_value_drop(cvec_X_value* pval); | Type name | Type definition | Used to represent... | |:--------------------|:-------------------------------------|:----------------------------| | `cstack_X` | `struct { cstack_value *data; ... }` | The cstack type | -| `cstack_X_value` | `i_val` | The cstack element type | -| `cstack_X_raw` | `i_valraw` | cstack raw value type | +| `cstack_X_value` | `i_key` | The cstack element type | +| `cstack_X_raw` | `i_keyraw` | cstack raw value type | | `cstack_X_iter` | `struct { cstack_value *ref; }` | cstack iterator | ## Example ```c #define i_type IStack -#define i_val int +#define i_key int #include #include diff --git a/docs/csview_api.md b/docs/csview_api.md index a02b007a..33df6a64 100644 --- a/docs/csview_api.md +++ b/docs/csview_api.md @@ -185,7 +185,7 @@ void print_split(csview input, const char* sep) } #define i_implement #include -#define i_val_str +#define i_key_str #include cstack_str string_split(csview input, const char* sep) diff --git a/docs/cvec_api.md b/docs/cvec_api.md index d19f4bae..ce85e446 100644 --- a/docs/cvec_api.md +++ b/docs/cvec_api.md @@ -13,16 +13,16 @@ See the c++ class [std::vector](https://en.cppreference.com/w/cpp/container/vect ```c #define i_type // full typename of the container -#define i_val // value: REQUIRED -#define i_cmp // three-way compare two i_valraw* : REQUIRED IF i_valraw is a non-integral type -#define i_valdrop // destroy value func - defaults to empty destruct -#define i_valclone // REQUIRED IF i_valdrop defined +#define i_key // value: REQUIRED +#define i_cmp // three-way compare two i_keyraw* : REQUIRED IF i_keyraw is a non-integral type +#define i_keydrop // destroy value func - defaults to empty destruct +#define i_keyclone // REQUIRED IF i_keydrop defined -#define i_valraw // convertion "raw" type - defaults to i_val -#define i_valfrom // convertion func i_valraw => i_val -#define i_valto // convertion func i_val* => i_valraw +#define i_keyraw // convertion "raw" type - defaults to i_key +#define i_keyfrom // convertion func i_keyraw => i_key +#define i_keyto // convertion func i_key* => i_keyraw -#define i_tag // alternative typename: cvec_{i_tag}. i_tag defaults to i_val +#define i_tag // alternative typename: cvec_{i_tag}. i_tag defaults to i_key #include ``` `X` should be replaced by the value of `i_tag` in all of the following documentation. @@ -31,15 +31,15 @@ See the c++ class [std::vector](https://en.cppreference.com/w/cpp/container/vect ```c cvec_X cvec_X_init(void); -cvec_X cvec_X_with_size(intptr_t size, i_val null); +cvec_X cvec_X_with_size(intptr_t size, i_key null); cvec_X cvec_X_with_capacity(intptr_t size); cvec_X cvec_X_clone(cvec_X vec); void cvec_X_clear(cvec_X* self); void cvec_X_copy(cvec_X* self, const cvec_X* other); -cvec_X_iter cvec_X_copy_n(cvec_X* self, intptr_t idx, const i_val* arr, intptr_t n); +cvec_X_iter cvec_X_copy_n(cvec_X* self, intptr_t idx, const i_key* arr, intptr_t n); bool cvec_X_reserve(cvec_X* self, intptr_t cap); -bool cvec_X_resize(cvec_X* self, intptr_t size, i_val null); +bool cvec_X_resize(cvec_X* self, intptr_t size, i_key null); void cvec_X_shrink_to_fit(cvec_X* self); void cvec_X_drop(cvec_X* self); // destructor @@ -48,34 +48,34 @@ intptr_t cvec_X_size(const cvec_X* self); intptr_t cvec_X_capacity(const cvec_X* self); const cvec_X_value* cvec_X_at(const cvec_X* self, intptr_t idx); -const cvec_X_value* cvec_X_get(const cvec_X* self, i_valraw raw); // return NULL if not found +const cvec_X_value* cvec_X_get(const cvec_X* self, i_keyraw raw); // return NULL if not found cvec_X_value* cvec_X_at_mut(cvec_X* self, intptr_t idx); // return mutable at idx -cvec_X_value* cvec_X_get_mut(cvec_X* self, i_valraw raw); // find mutable value -cvec_X_iter cvec_X_find(const cvec_X* self, i_valraw raw); -cvec_X_iter cvec_X_find_in(cvec_X_iter i1, cvec_X_iter i2, i_valraw raw); // return cvec_X_end() if not found +cvec_X_value* cvec_X_get_mut(cvec_X* self, i_keyraw raw); // find mutable value +cvec_X_iter cvec_X_find(const cvec_X* self, i_keyraw raw); +cvec_X_iter cvec_X_find_in(cvec_X_iter i1, cvec_X_iter i2, i_keyraw raw); // return cvec_X_end() if not found // On sorted vectors: -cvec_X_iter cvec_X_binary_search(const cvec_X* self, i_valraw raw); // at elem == raw, else end -cvec_X_iter cvec_X_lower_bound(const cvec_X* self, i_valraw raw); // at first elem >= raw, else end +cvec_X_iter cvec_X_binary_search(const cvec_X* self, i_keyraw raw); // at elem == raw, else end +cvec_X_iter cvec_X_lower_bound(const cvec_X* self, i_keyraw raw); // at first elem >= raw, else end cvec_X_iter cvec_X_binary_search_in(cvec_X_iter i1, cvec_X_iter i2, - i_valraw raw, cvec_X_iter* lower_bound); + i_keyraw raw, cvec_X_iter* lower_bound); cvec_X_value* cvec_X_front(const cvec_X* self); cvec_X_value* cvec_X_back(const cvec_X* self); -cvec_X_value* cvec_X_push(cvec_X* self, i_val value); -cvec_X_value* cvec_X_emplace(cvec_X* self, i_valraw raw); -cvec_X_value* cvec_X_push_back(cvec_X* self, i_val value); // alias for push -cvec_X_value* cvec_X_emplace_back(cvec_X* self, i_valraw raw); // alias for emplace +cvec_X_value* cvec_X_push(cvec_X* self, i_key value); +cvec_X_value* cvec_X_emplace(cvec_X* self, i_keyraw raw); +cvec_X_value* cvec_X_push_back(cvec_X* self, i_key value); // alias for push +cvec_X_value* cvec_X_emplace_back(cvec_X* self, i_keyraw raw); // alias for emplace void cvec_X_pop(cvec_X* self); void cvec_X_pop_back(cvec_X* self); // alias for pop -cvec_X_iter cvec_X_insert_n(cvec_X* self, intptr_t idx, const i_val arr[], intptr_t n); // move values -cvec_X_iter cvec_X_insert_at(cvec_X* self, cvec_X_iter it, i_val value); // move value +cvec_X_iter cvec_X_insert_n(cvec_X* self, intptr_t idx, const i_key arr[], intptr_t n); // move values +cvec_X_iter cvec_X_insert_at(cvec_X* self, cvec_X_iter it, i_key value); // move value cvec_X_iter cvec_X_insert_uninit(cvec_X* self, intptr_t idx, intptr_t n); // return iter at idx -cvec_X_iter cvec_X_emplace_n(cvec_X* self, intptr_t idx, const i_valraw raw[], intptr_t n); -cvec_X_iter cvec_X_emplace_at(cvec_X* self, cvec_X_iter it, i_valraw raw); +cvec_X_iter cvec_X_emplace_n(cvec_X* self, intptr_t idx, const i_keyraw raw[], intptr_t n); +cvec_X_iter cvec_X_emplace_at(cvec_X* self, cvec_X_iter it, i_keyraw raw); cvec_X_iter cvec_X_erase_n(cvec_X* self, intptr_t idx, intptr_t n); cvec_X_iter cvec_X_erase_at(cvec_X* self, cvec_X_iter it); @@ -83,7 +83,7 @@ cvec_X_iter cvec_X_erase_range(cvec_X* self, cvec_X_iter it1, cvec_X_ite void cvec_X_sort(cvec_X* self); void cvec_X_sort_range(cvec_X_iter i1, cvec_X_iter i2, - int(*cmp)(const i_val*, const i_val*)); + int(*cmp)(const i_key*, const i_key*)); cvec_X_iter cvec_X_begin(const cvec_X* self); cvec_X_iter cvec_X_end(const cvec_X* self); @@ -101,13 +101,13 @@ cvec_X_raw cvec_X_value_drop(cvec_X_value* pval); | Type name | Type definition | Used to represent... | |:-------------------|:----------------------------------|:-----------------------| | `cvec_X` | `struct { cvec_X_value* data; }` | The cvec type | -| `cvec_X_value` | `i_val` | The cvec value type | -| `cvec_X_raw` | `i_valraw` | The raw value type | +| `cvec_X_value` | `i_key` | The cvec value type | +| `cvec_X_raw` | `i_keyraw` | The raw value type | | `cvec_X_iter` | `struct { cvec_X_value* ref; }` | The iterator type | ## Examples ```c -#define i_val int +#define i_key int #include #include @@ -150,7 +150,7 @@ sorted: 5 7 8 13 16 25 #define i_implement #include -#define i_val_str +#define i_key_str #include int main() { @@ -206,7 +206,7 @@ User User_clone(User user) { // Declare a managed, clonable vector of users. #define i_type UVec -#define i_valclass User // User is a "class" as it has _cmp, _clone and _drop functions. +#define i_keyclass User // User is a "class" as it has _cmp, _clone and _drop functions. #include int main(void) { diff --git a/include/stc/algo/sort.h b/include/stc/algo/sort.h index 8365ccc5..01e7d521 100644 --- a/include/stc/algo/sort.h +++ b/include/stc/algo/sort.h @@ -22,13 +22,13 @@ */ /* Generic Quicksort in C, performs as fast as c++ std::sort(). template params: -#define i_val - value type [required] +#define i_key - value type [required] #define i_less - less function. default: *x < *y -#define i_type name - define {{name}}_sort_n(), else {{i_val}}array_sort_n(). +#define i_type name - define {{name}}_sort_n(), else {{i_key}}array_sort_n(). // ex1: #include -#define i_val int +#define i_key int #include int main() { @@ -42,7 +42,7 @@ int main() { } // ex2: -#define i_val int +#define i_key int #define i_type IDeq #define i_more // retain input template params to be reused by sort.h #include @@ -62,13 +62,16 @@ int main() { */ #include "../ccommon.h" +#if !defined i_key && defined i_val + #define i_key i_val +#endif #ifndef i_type #define i_at(arr, idx) (&arr[idx]) #ifndef i_tag - #define i_tag i_val + #define i_tag i_key #endif #define i_type c_PASTE(i_tag, array) - typedef i_val i_type; + typedef i_key i_type; #endif #ifndef i_at #define i_at(arr, idx) _cx_MEMB(_at_mut)(arr, idx) @@ -78,7 +81,7 @@ int main() { static inline void _cx_MEMB(_insertsort_ij)(_cx_Self* arr, intptr_t lo, intptr_t hi) { for (intptr_t j = lo, i = lo + 1; i <= hi; j = i, ++i) { - i_val key = *i_at(arr, i); + i_key key = *i_at(arr, i); while (j >= 0 && (i_less((&key), i_at(arr, j)))) { *i_at(arr, j + 1) = *i_at(arr, j); --j; @@ -90,14 +93,14 @@ static inline void _cx_MEMB(_insertsort_ij)(_cx_Self* arr, intptr_t lo, intptr_t static inline void _cx_MEMB(_sort_ij)(_cx_Self* arr, intptr_t lo, intptr_t hi) { intptr_t i = lo, j; while (lo < hi) { - i_val pivot = *i_at(arr, lo + (hi - lo)*7/16); + i_key pivot = *i_at(arr, lo + (hi - lo)*7/16); j = hi; while (i <= j) { while (i_less(i_at(arr, i), (&pivot))) ++i; while (i_less((&pivot), i_at(arr, j))) --j; if (i <= j) { - c_swap(i_val, i_at(arr, i), i_at(arr, j)); + c_swap(i_key, i_at(arr, i), i_at(arr, j)); ++i; --j; } } diff --git a/include/stc/cbits.h b/include/stc/cbits.h index 9463c82c..66bc6354 100644 --- a/include/stc/cbits.h +++ b/include/stc/cbits.h @@ -90,7 +90,7 @@ STC_INLINE _llong _cbits_count(const uint64_t* set, const _llong sz) { STC_INLINE char* _cbits_to_str(const uint64_t* set, const _llong sz, char* out, _llong start, _llong stop) { if (stop > sz) stop = sz; - assert(start <= stop); + c_assert(start <= stop); c_memset(out, '0', stop - start); for (_llong i = start; i < stop; ++i) @@ -122,7 +122,7 @@ STC_INLINE bool _cbits_disjoint(const uint64_t* set, const uint64_t* other, cons #if !defined i_capacity // DYNAMIC SIZE BITARRAY -#define _i_assert(x) assert(x) +#define _i_assert(x) c_assert(x) #define i_type cbits typedef struct { uint64_t *data64; _llong _size; } i_type; @@ -216,13 +216,13 @@ STC_INLINE void _i_memb(_set_all)(i_type *self, const bool value); STC_INLINE void _i_memb(_set_pattern)(i_type *self, const uint64_t pattern); STC_INLINE i_type _i_memb(_with_size)(const _llong size, const bool value) { - assert(size <= i_capacity); + c_assert(size <= i_capacity); i_type set; _i_memb(_set_all)(&set, value); return set; } STC_INLINE i_type _i_memb(_with_pattern)(const _llong size, const uint64_t pattern) { - assert(size <= i_capacity); + c_assert(size <= i_capacity); i_type set; _i_memb(_set_pattern)(&set, pattern); return set; } diff --git a/include/stc/ccommon.h b/include/stc/ccommon.h index d6da8734..efbebdc3 100644 --- a/include/stc/ccommon.h +++ b/include/stc/ccommon.h @@ -34,11 +34,6 @@ typedef long long _llong; #define c_NPOS INTPTR_MAX #define c_ZI PRIiPTR #define c_ZU PRIuPTR -#if defined STC_NDEBUG || defined NDEBUG - #define c_ASSERT(expr) (void)(0) -#else - #define c_ASSERT(expr) assert(expr) -#endif #if defined(_MSC_VER) #pragma warning(disable: 4116 4996) // unnamed type definition in parentheses @@ -80,7 +75,14 @@ typedef long long _llong; #define c_free(p) free(p) #define c_delete(T, ptr) do { T *_tp = ptr; T##_drop(_tp); free(_tp); } while (0) -#define c_static_assert(b) ((int)(0*sizeof(int[(b) ? 1 : -1]))) +#define c_static_assert(...) c_MACRO_OVERLOAD(c_static_assert, __VA_ARGS__) +#define c_static_assert_1(b) ((int)(0*sizeof(int[(b) ? 1 : -1]))) +#define c_static_assert_2(b, m) c_static_assert_1(b) +#if defined STC_NDEBUG || defined NDEBUG + #define c_assert(expr) ((void)0) +#else + #define c_assert(expr) assert(expr) +#endif #define c_container_of(p, C, m) ((C*)((char*)(1 ? (p) : &((C*)0)->m) - offsetof(C, m))) #define c_const_cast(T, p) ((T)(p) + 0*sizeof((T)0 == (p))) #define c_swap(T, xp, yp) do { T *_xp = xp, *_yp = yp, \ diff --git a/include/stc/cdeq.h b/include/stc/cdeq.h index bac40f90..056ef005 100644 --- a/include/stc/cdeq.h +++ b/include/stc/cdeq.h @@ -51,13 +51,13 @@ _cx_MEMB(_push_back)(_cx_Self* self, _cx_value val) STC_INLINE void _cx_MEMB(_pop_back)(_cx_Self* self) { - assert(!_cx_MEMB(_empty)(self)); + c_assert(!_cx_MEMB(_empty)(self)); self->end = (self->end - 1) & self->capmask; i_keydrop((self->data + self->end)); } STC_INLINE _cx_value _cx_MEMB(_pull_back)(_cx_Self* self) { // move back out of deq - assert(!_cx_MEMB(_empty)(self)); + c_assert(!_cx_MEMB(_empty)(self)); self->end = (self->end - 1) & self->capmask; return self->data[self->end]; } diff --git a/include/stc/clist.h b/include/stc/clist.h index 38358d73..9cc1bb39 100644 --- a/include/stc/clist.h +++ b/include/stc/clist.h @@ -145,7 +145,7 @@ STC_INLINE void _cx_MEMB(_clear)(_cx_Self* self) { _cx_MEMB(_drop)(self) STC_INLINE _cx_value* _cx_MEMB(_push)(_cx_Self* self, i_key value) { return _cx_MEMB(_push_back)(self, value); } STC_INLINE void _cx_MEMB(_pop_front)(_cx_Self* self) - { assert(!_cx_MEMB(_empty)(self)); _cx_MEMB(_erase_after_node)(self, self->last); } + { c_assert(!_cx_MEMB(_empty)(self)); _cx_MEMB(_erase_after_node)(self, self->last); } STC_INLINE _cx_value* _cx_MEMB(_front)(const _cx_Self* self) { return &self->last->next->value; } STC_INLINE _cx_value* _cx_MEMB(_back)(const _cx_Self* self) { return &self->last->value; } STC_INLINE _cx_raw _cx_MEMB(_value_toraw)(const _cx_value* pval) { return i_keyto(pval); } diff --git a/include/stc/cmap.h b/include/stc/cmap.h index 21e7b933..513a8b93 100644 --- a/include/stc/cmap.h +++ b/include/stc/cmap.h @@ -117,7 +117,7 @@ STC_INLINE bool _cx_MEMB(_contains)(const _cx_Self* self, _cx_keyraw rke STC_INLINE const _cx_mapped* _cx_MEMB(_at)(const _cx_Self* self, _cx_keyraw rkey) { chash_bucket b = _cx_MEMB(_bucket_)(self, &rkey); - assert(b.found); + c_assert(b.found); return &self->data[b.idx].second; } STC_INLINE _cx_mapped* diff --git a/include/stc/cpque.h b/include/stc/cpque.h index cfe027cc..ca51eeff 100644 --- a/include/stc/cpque.h +++ b/include/stc/cpque.h @@ -89,7 +89,7 @@ STC_INLINE const _cx_value* _cx_MEMB(_top)(const _cx_Self* self) { return &self->data[0]; } STC_INLINE void _cx_MEMB(_pop)(_cx_Self* self) - { assert(!_cx_MEMB(_empty)(self)); _cx_MEMB(_erase_at)(self, 0); } + { c_assert(!_cx_MEMB(_empty)(self)); _cx_MEMB(_erase_at)(self, 0); } #if !defined i_no_clone STC_API _cx_Self _cx_MEMB(_clone)(_cx_Self q); diff --git a/include/stc/cqueue.h b/include/stc/cqueue.h index e9f1b877..5d38ca89 100644 --- a/include/stc/cqueue.h +++ b/include/stc/cqueue.h @@ -88,13 +88,13 @@ STC_INLINE _cx_value* _cx_MEMB(_back)(const _cx_Self* self) { return self->data + ((self->end - 1) & self->capmask); } STC_INLINE void _cx_MEMB(_pop)(_cx_Self* self) { // pop_front - assert(!_cx_MEMB(_empty)(self)); + c_assert(!_cx_MEMB(_empty)(self)); i_keydrop((self->data + self->start)); self->start = (self->start + 1) & self->capmask; } STC_INLINE _cx_value _cx_MEMB(_pull)(_cx_Self* self) { // move front out of queue - assert(!_cx_MEMB(_empty)(self)); + c_assert(!_cx_MEMB(_empty)(self)); intptr_t s = self->start; self->start = (s + 1) & self->capmask; return self->data[s]; diff --git a/include/stc/cspan.h b/include/stc/cspan.h index 89986d6f..4d091395 100644 --- a/include/stc/cspan.h +++ b/include/stc/cspan.h @@ -84,7 +84,7 @@ int demo2() { const int rank, const int32_t a[][2]) { \ Self s = {.data=v}; int outrank; \ s.data += _cspan_slice(s.shape, s.stride.d, &outrank, shape, stri, rank, a); \ - c_ASSERT(outrank == RANK); \ + c_assert(outrank == RANK); \ return s; \ } \ STC_INLINE Self##_iter Self##_begin(const Self* self) { \ @@ -145,7 +145,6 @@ using_cspan_tuple(7); using_cspan_tuple(8); #define cspan_subspan3(self, offset, count) \ {.data=cspan_at(self, offset, 0, 0), .shape={count, (self)->shape[1], (self)->shape[2]}, .stride=(self)->stride} - // cspan_submd(): Reduce rank (N <= 4) Optimized, same as e.g. cspan_slice(Span2, &ms4, {x}, {y}, {c_ALL}, {c_ALL}); #define cspan_submd2(OutSpan, self, ...) _cspan_submdN(OutSpan, 2, self, __VA_ARGS__) #define cspan_submd3(OutSpan, self, ...) _cspan_submdN(OutSpan, 3, self, __VA_ARGS__) @@ -172,23 +171,22 @@ using_cspan_tuple(7); using_cspan_tuple(8); #define _cspan_submd4_5(ok, self, x, y, z) \ {.data=cspan_at(self, x, y, z, 0) + ok, .shape={(self)->shape[3]}, .stride={.d={(self)->stride.d[3]}}} -#define cspan_md(array, ...) cspan_md_order('C', array, __VA_ARGS__) -#define cspan_md_left(array, ...) cspan_md_order('F', array, __VA_ARGS__) -#define cspan_md_order(order, array, ...) \ +#define cspan_md(array, ...) cspan_md_ordered('C', array, __VA_ARGS__) +#define cspan_md_left(array, ...) cspan_md_ordered('F', array, __VA_ARGS__) +#define cspan_md_ordered(order, array, ...) \ {.data=array, .shape={__VA_ARGS__}, \ .stride=*(c_PASTE(cspan_tuple, c_NUMARGS(__VA_ARGS__))*)_cspan_shape2stride(order, ((int32_t[]){__VA_ARGS__}), c_NUMARGS(__VA_ARGS__))} #define cspan_transpose(self) \ _cspan_transpose((self)->shape, (self)->stride.d, cspan_rank(self)) - // General slicing function; #define cspan_slice(OutSpan, parent, ...) \ OutSpan##_slice_((parent)->data, (parent)->shape, (parent)->stride.d, cspan_rank(parent) + \ c_static_assert(cspan_rank(parent) == sizeof((int32_t[][2]){__VA_ARGS__})/sizeof(int32_t[2])), \ (const int32_t[][2]){__VA_ARGS__}) -// ----------- private definitions ------------ +/* ------------------- PRIVAT DEFINITIONS ------------------- */ // cspan_index() helpers: #define cspan_idx_1 cspan_idx_3 @@ -215,19 +213,19 @@ STC_INLINE void _cspan_transpose(int32_t shape[], int32_t stride[], int rank) { } STC_INLINE intptr_t _cspan_idx1(const int32_t shape[1], const cspan_tuple1 stri, int32_t x) - { c_ASSERT(c_LTu(x, shape[0])); return x; } + { c_assert(c_LTu(x, shape[0])); return (intptr_t)stri.d[0]*x; } STC_INLINE intptr_t _cspan_idx2(const int32_t shape[2], const cspan_tuple2 stri, int32_t x, int32_t y) - { c_ASSERT(c_LTu(x, shape[0]) && c_LTu(y, shape[1])); return (intptr_t)stri.d[0]*x + stri.d[1]*y; } + { c_assert(c_LTu(x, shape[0]) && c_LTu(y, shape[1])); return (intptr_t)stri.d[0]*x + stri.d[1]*y; } STC_INLINE intptr_t _cspan_idx3(const int32_t shape[3], const cspan_tuple3 stri, int32_t x, int32_t y, int32_t z) { - c_ASSERT(c_LTu(x, shape[0]) && c_LTu(y, shape[1]) && c_LTu(z, shape[2])); + c_assert(c_LTu(x, shape[0]) && c_LTu(y, shape[1]) && c_LTu(z, shape[2])); return (intptr_t)stri.d[0]*x + stri.d[1]*y + stri.d[2]*z; } STC_INLINE intptr_t _cspan_idxN(int rank, const int32_t shape[], const int32_t stride[], const int32_t a[]) { intptr_t off = 0; while (rank--) { - c_ASSERT(c_LTu(a[rank], shape[rank])); + c_assert(c_LTu(a[rank], shape[rank])); off += stride[rank]*a[rank]; } return off; @@ -239,6 +237,8 @@ STC_API intptr_t _cspan_next2(int32_t pos[], const int32_t shape[], const int32_ #define _cspan_next4 _cspan_next2 #define _cspan_next5 _cspan_next2 #define _cspan_next6 _cspan_next2 +#define _cspan_next7 _cspan_next2 +#define _cspan_next8 _cspan_next2 STC_API intptr_t _cspan_slice(int32_t oshape[], int32_t ostride[], int* orank, const int32_t shape[], const int32_t stride[], @@ -247,7 +247,7 @@ STC_API intptr_t _cspan_slice(int32_t oshape[], int32_t ostride[], int* orank, STC_API int32_t* _cspan_shape2stride(char order, int32_t shape[], int rank); #endif // STC_CSPAN_H_INCLUDED -/* -------------------------- IMPLEMENTATION ------------------------- */ +/* --------------------- IMPLEMENTATION --------------------- */ #if defined(i_implement) || defined(i_static) STC_DEF int32_t* _cspan_shape2stride(char order, int32_t shape[], int rank) { @@ -283,13 +283,13 @@ STC_DEF intptr_t _cspan_slice(int32_t oshape[], int32_t ostride[], int* orank, for (; i < rank; ++i) { off += stride[i]*a[i][0]; switch (a[i][1]) { - case 0: c_ASSERT(c_LTu(a[i][0], shape[i])); continue; + case 0: c_assert(c_LTu(a[i][0], shape[i])); continue; case -1: end = shape[i]; break; default: end = a[i][1]; } oshape[oi] = end - a[i][0]; ostride[oi] = stride[i]; - c_ASSERT(c_LTu(0, oshape[oi]) & !c_LTu(shape[i], end)); + c_assert(c_LTu(0, oshape[oi]) & !c_LTu(shape[i], end)); ++oi; } *orank = oi; diff --git a/include/stc/cstack.h b/include/stc/cstack.h index 24ec2d5f..f8640ed1 100644 --- a/include/stc/cstack.h +++ b/include/stc/cstack.h @@ -129,10 +129,10 @@ STC_INLINE _cx_value* _cx_MEMB(_push)(_cx_Self* self, _cx_value val) { } STC_INLINE void _cx_MEMB(_pop)(_cx_Self* self) - { assert(self->_len); _cx_value* p = &self->data[--self->_len]; i_keydrop(p); } + { c_assert(self->_len); _cx_value* p = &self->data[--self->_len]; i_keydrop(p); } STC_INLINE _cx_value _cx_MEMB(_pull)(_cx_Self* self) - { assert(self->_len); return self->data[--self->_len]; } + { c_assert(self->_len); return self->data[--self->_len]; } STC_INLINE void _cx_MEMB(_put_n)(_cx_Self* self, const _cx_raw* raw, intptr_t n) { while (n--) _cx_MEMB(_push)(self, i_keyfrom(*raw++)); } @@ -141,9 +141,9 @@ STC_INLINE _cx_Self _cx_MEMB(_from_n)(const _cx_raw* raw, intptr_t n) { _cx_Self cx = {0}; _cx_MEMB(_put_n)(&cx, raw, n); return cx; } STC_INLINE const _cx_value* _cx_MEMB(_at)(const _cx_Self* self, intptr_t idx) - { assert(idx < self->_len); return self->data + idx; } + { c_assert(idx < self->_len); return self->data + idx; } STC_INLINE _cx_value* _cx_MEMB(_at_mut)(_cx_Self* self, intptr_t idx) - { assert(idx < self->_len); return self->data + idx; } + { c_assert(idx < self->_len); return self->data + idx; } #if !defined i_no_emplace STC_INLINE _cx_value* _cx_MEMB(_emplace)(_cx_Self* self, _cx_raw raw) diff --git a/include/stc/cvec.h b/include/stc/cvec.h index e1d34365..9b95306e 100644 --- a/include/stc/cvec.h +++ b/include/stc/cvec.h @@ -133,9 +133,9 @@ STC_INLINE _cx_value* _cx_MEMB(_front)(const _cx_Self* self) { return self->da STC_INLINE _cx_value* _cx_MEMB(_back)(const _cx_Self* self) { return self->data + self->_len - 1; } STC_INLINE void _cx_MEMB(_pop)(_cx_Self* self) - { assert(self->_len); _cx_value* p = &self->data[--self->_len]; i_keydrop(p); } + { c_assert(self->_len); _cx_value* p = &self->data[--self->_len]; i_keydrop(p); } STC_INLINE _cx_value _cx_MEMB(_pull)(_cx_Self* self) - { assert(self->_len); return self->data[--self->_len]; } + { c_assert(self->_len); return self->data[--self->_len]; } STC_INLINE _cx_value* _cx_MEMB(_push_back)(_cx_Self* self, i_key value) { return _cx_MEMB(_push)(self, value); } STC_INLINE void _cx_MEMB(_pop_back)(_cx_Self* self) { _cx_MEMB(_pop)(self); } @@ -182,11 +182,11 @@ _cx_MEMB(_erase_range)(_cx_Self* self, _cx_iter i1, _cx_iter i2) { STC_INLINE const _cx_value* _cx_MEMB(_at)(const _cx_Self* self, const intptr_t idx) { - assert(idx < self->_len); return self->data + idx; + c_assert(idx < self->_len); return self->data + idx; } STC_INLINE _cx_value* _cx_MEMB(_at_mut)(_cx_Self* self, const intptr_t idx) { - assert(idx < self->_len); return self->data + idx; + c_assert(idx < self->_len); return self->data + idx; } diff --git a/include/stc/extend.h b/include/stc/extend.h index c0a00ff8..52d59414 100644 --- a/include/stc/extend.h +++ b/include/stc/extend.h @@ -43,8 +43,10 @@ #define _i_val i_val #endif -#ifdef _i_key +#if defined _i_key && defined _i_val c_PASTE(forward_, i_base)(i_type, _i_key, _i_val); +#elif defined _i_key + c_PASTE(forward_, i_base)(i_type, _i_key); #else c_PASTE(forward_, i_base)(i_type, _i_val); #endif diff --git a/misc/benchmarks/various/csort_bench.c b/misc/benchmarks/various/csort_bench.c index d434693f..f6b7f1db 100644 --- a/misc/benchmarks/various/csort_bench.c +++ b/misc/benchmarks/various/csort_bench.c @@ -7,7 +7,7 @@ #endif #define NDEBUG #define i_type Ints -#define i_val int +#define i_key int #define i_more #include #include diff --git a/misc/examples/arc_containers.c b/misc/examples/arc_containers.c index b05bbea6..524758e7 100644 --- a/misc/examples/arc_containers.c +++ b/misc/examples/arc_containers.c @@ -10,18 +10,18 @@ #include #define i_type Arc // (atomic) ref. counted type -#define i_val Map -#define i_valdrop(p) (printf("drop Arc:\n"), Map_drop(p)) +#define i_key Map +#define i_keydrop(p) (printf("drop Arc:\n"), Map_drop(p)) // no need for atomic ref. count in single thread: #define i_opt c_no_atomic #include #define i_type Stack -#define i_valboxed Arc // define i_valboxed for carc/cbox value (not i_val) +#define i_keyboxed Arc // define i_keyboxed for carc/cbox value (not i_key) #include #define i_type List -#define i_valboxed Arc // as above +#define i_keyboxed Arc // as above #include int main() diff --git a/misc/examples/arc_demo.c b/misc/examples/arc_demo.c index 4cda1c8b..547e1737 100644 --- a/misc/examples/arc_demo.c +++ b/misc/examples/arc_demo.c @@ -6,18 +6,18 @@ void int_drop(int* x) { } // carc implements its own clone method using reference counting, -// so 'i_valclone' is not required to be defined (ignored). +// so 'i_keyclone' is not required to be defined (ignored). #define i_type Arc // set type name to be defined (instead of 'carc_int') -#define i_val int -#define i_valdrop int_drop // optional, just to display the elements destroyed +#define i_key int +#define i_keydrop int_drop // optional, just to display the elements destroyed #define i_native_cmp // use int comparison (x < y, x == y). #include // Arc #define i_keyboxed Arc // note: use i_keyboxed instead of i_key for carc/cbox elements #include // csset_Arc (like: std::set>) -#define i_valboxed Arc // note: as above. +#define i_keyboxed Arc // note: as above. #include // cvec_Arc (like: std::vector>) int main() diff --git a/misc/examples/arcvec_erase.c b/misc/examples/arcvec_erase.c index 0b9252d9..f409258b 100644 --- a/misc/examples/arcvec_erase.c +++ b/misc/examples/arcvec_erase.c @@ -3,13 +3,13 @@ void show_drop(int* x) { printf("drop: %d\n", *x); } #define i_type Arc -#define i_val int -#define i_valdrop show_drop +#define i_key int +#define i_keydrop show_drop #define i_native_cmp // enable sort/search for int type #include // Shared pointer to int #define i_type Vec -#define i_valboxed Arc +#define i_keyboxed Arc #include // Vec: cvec diff --git a/misc/examples/astar.c b/misc/examples/astar.c index 1b3876aa..44cdefee 100644 --- a/misc/examples/astar.c +++ b/misc/examples/astar.c @@ -57,11 +57,11 @@ point_key_cmp(const point* a, const point* b) return (i == j) ? 0 : (i < j) ? -1 : 1; } -#define i_val point +#define i_key point #define i_cmp point_cmp_priority #include -#define i_val point +#define i_key point #define i_opt c_no_cmp #include diff --git a/misc/examples/box.c b/misc/examples/box.c index a9131afa..3f55e15d 100644 --- a/misc/examples/box.c +++ b/misc/examples/box.c @@ -29,11 +29,11 @@ void Person_drop(Person* p) { } #define i_type PBox -#define i_valclass Person // "class" binds _cmp, _clone, _drop functions. +#define i_keyclass Person // "class" binds _cmp, _clone, _drop functions. #include #define i_type Persons -#define i_valboxed PBox // "arcbox" informs that PBox is a smart pointer. +#define i_keyboxed PBox // "arcbox" informs that PBox is a smart pointer. #include int main() diff --git a/misc/examples/box2.c b/misc/examples/box2.c index d3762462..5ac706d4 100644 --- a/misc/examples/box2.c +++ b/misc/examples/box2.c @@ -14,15 +14,15 @@ typedef struct { Point bottom_right; } Rectangle; -#define i_val Point +#define i_key Point #include // cbox_Point -#define i_val Rectangle +#define i_key Rectangle #include // cbox_Rectangle // Box in box: #define i_type BoxBoxPoint -#define i_valboxed cbox_Point // NB: use i_valboxed when value is a cbox or carc! +#define i_keyboxed cbox_Point // NB: use i_keyboxed when value is a cbox or carc! #define i_no_cmp #include // BoxBoxPoint diff --git a/misc/examples/cointerleave.c b/misc/examples/cointerleave.c index 61562a5f..c3c5926a 100644 --- a/misc/examples/cointerleave.c +++ b/misc/examples/cointerleave.c @@ -2,7 +2,7 @@ #include #include #define i_type IVec -#define i_val int +#define i_key int #include struct GenValue { diff --git a/misc/examples/complex.c b/misc/examples/complex.c index b5ea847a..405afef3 100644 --- a/misc/examples/complex.c +++ b/misc/examples/complex.c @@ -9,11 +9,11 @@ #include #define i_type FloatStack -#define i_val float +#define i_key float #include #define i_type StackList -#define i_valclass FloatStack // "class" picks up _clone, _drop, _cmp +#define i_keyclass FloatStack // "class" picks up _clone, _drop, _cmp #define i_opt c_no_cmp // exclude FloatStack_cmp(): not defined #include diff --git a/misc/examples/convert.c b/misc/examples/convert.c index 318f09b8..3b9dc3ec 100644 --- a/misc/examples/convert.c +++ b/misc/examples/convert.c @@ -6,10 +6,10 @@ #define i_val_str #include -#define i_val_str +#define i_key_str #include -#define i_val_str +#define i_key_str #include int main() diff --git a/misc/examples/csmap_find.c b/misc/examples/csmap_find.c index 645828a3..b535e9ad 100644 --- a/misc/examples/csmap_find.c +++ b/misc/examples/csmap_find.c @@ -8,7 +8,7 @@ #define i_tag istr #include -#define i_val csmap_istr_raw +#define i_key csmap_istr_raw #define i_tag istr #include diff --git a/misc/examples/csmap_insert.c b/misc/examples/csmap_insert.c index 18a88ec3..df638c22 100644 --- a/misc/examples/csmap_insert.c +++ b/misc/examples/csmap_insert.c @@ -12,7 +12,7 @@ #define i_tag istr // Map of int => cstr #include -#define i_val csmap_ii_raw +#define i_key csmap_ii_raw #define i_opt c_no_cmp #define i_tag ii #include diff --git a/misc/examples/demos.c b/misc/examples/demos.c index b2f50ebf..2e91b20c 100644 --- a/misc/examples/demos.c +++ b/misc/examples/demos.c @@ -28,7 +28,7 @@ void stringdemo1() cstr_drop(&cs); } -#define i_val int64_t +#define i_key int64_t #define i_tag ix #include @@ -52,7 +52,7 @@ void vectordemo1() cvec_ix_drop(&bignums); } -#define i_val_str +#define i_key_str #include void vectordemo2() @@ -72,7 +72,7 @@ void vectordemo2() cvec_str_drop(&names); } -#define i_val int +#define i_key int #define i_tag ix #define i_native_cmp #include diff --git a/misc/examples/forfilter.c b/misc/examples/forfilter.c index 7e3c4c9c..f3c008b3 100644 --- a/misc/examples/forfilter.c +++ b/misc/examples/forfilter.c @@ -7,7 +7,7 @@ #include #define i_type IVec -#define i_val int +#define i_key int #include // filters and transforms: @@ -83,7 +83,7 @@ fn main() { } */ #define i_type SVec -#define i_valclass csview +#define i_keyclass csview #include void demo3(void) diff --git a/misc/examples/forloops.c b/misc/examples/forloops.c index 337cfaa1..99b12871 100644 --- a/misc/examples/forloops.c +++ b/misc/examples/forloops.c @@ -2,7 +2,7 @@ #include #define i_type IVec -#define i_val int +#define i_key int #include #define i_type IMap diff --git a/misc/examples/functor.c b/misc/examples/functor.c index a233a874..ea409a56 100644 --- a/misc/examples/functor.c +++ b/misc/examples/functor.c @@ -6,7 +6,7 @@ #define i_type IPQue #define i_base cpque -#define i_val int +#define i_key int #define i_extend bool(*less)(const int*, const int*); #define i_less(x, y) c_extend()->less(x, y) // Note: i_less: c_extend() accessible for cpque types diff --git a/misc/examples/inits.c b/misc/examples/inits.c index a3a6c4d2..53a49f1f 100644 --- a/misc/examples/inits.c +++ b/misc/examples/inits.c @@ -18,17 +18,17 @@ inline static int ipair_cmp(const ipair_t* a, const ipair_t* b) { } -#define i_val ipair_t +#define i_key ipair_t #define i_cmp ipair_cmp #define i_tag ip #include -#define i_val ipair_t +#define i_key ipair_t #define i_cmp ipair_cmp #define i_tag ip #include -#define i_val float +#define i_key float #define i_tag f #include diff --git a/misc/examples/intrusive.c b/misc/examples/intrusive.c index e3939f4e..1e3f7b83 100644 --- a/misc/examples/intrusive.c +++ b/misc/examples/intrusive.c @@ -3,7 +3,7 @@ #include #define i_type List -#define i_val int +#define i_key int #define i_native_cmp #include diff --git a/misc/examples/list.c b/misc/examples/list.c index 08fe837f..a0045db9 100644 --- a/misc/examples/list.c +++ b/misc/examples/list.c @@ -4,7 +4,7 @@ #include #define i_type DList -#define i_val double +#define i_key double #define i_native_cmp #include diff --git a/misc/examples/list_erase.c b/misc/examples/list_erase.c index 17adf11f..357dd75b 100644 --- a/misc/examples/list_erase.c +++ b/misc/examples/list_erase.c @@ -2,7 +2,7 @@ #include #define i_type IList -#define i_val int +#define i_key int #include int main () diff --git a/misc/examples/list_splice.c b/misc/examples/list_splice.c index e457694d..25c2a42d 100644 --- a/misc/examples/list_splice.c +++ b/misc/examples/list_splice.c @@ -1,6 +1,6 @@ #include -#define i_val int +#define i_key int #define i_tag i #include diff --git a/misc/examples/lower_bound.c b/misc/examples/lower_bound.c index 5b395e45..ee32f49b 100644 --- a/misc/examples/lower_bound.c +++ b/misc/examples/lower_bound.c @@ -1,10 +1,10 @@ #include -#define i_val int +#define i_key int #define i_native_cmp #include -#define i_val int +#define i_key int #include int main() diff --git a/misc/examples/mmap.c b/misc/examples/mmap.c index 63312e04..fd00499c 100644 --- a/misc/examples/mmap.c +++ b/misc/examples/mmap.c @@ -4,7 +4,7 @@ // Multimap entries #define i_implement #include -#define i_val_str +#define i_key_str #include // Map of int => clist_str. diff --git a/misc/examples/multimap.c b/misc/examples/multimap.c index dc4a1ee0..a89b251b 100644 --- a/misc/examples/multimap.c +++ b/misc/examples/multimap.c @@ -40,7 +40,7 @@ OlympicLoc OlympicLoc_clone(OlympicLoc loc); void OlympicLoc_drop(OlympicLoc* self); // Create a clist, can be sorted by year. -#define i_valclass OlympicLoc // binds _cmp, _clone and _drop. +#define i_keyclass OlympicLoc // binds _cmp, _clone and _drop. #define i_tag OL #include diff --git a/misc/examples/music_arc.c b/misc/examples/music_arc.c index 4efc35c8..49008523 100644 --- a/misc/examples/music_arc.c +++ b/misc/examples/music_arc.c @@ -22,13 +22,13 @@ void Song_drop(Song* s) { // Define the shared pointer: #define i_type SongArc -#define i_valclass Song +#define i_keyclass Song #define i_no_hash // no hash fn for Song, fallback hash pointer to Song. #include // ... and a vector of them #define i_type SongVec -#define i_valboxed SongArc // use i_valboxed on carc / cbox (instead of i_val) +#define i_keyboxed SongArc // use i_keyboxed on carc / cbox (instead of i_key) #include void example3() diff --git a/misc/examples/new_list.c b/misc/examples/new_list.c index 5ffdaca2..ee250b2b 100644 --- a/misc/examples/new_list.c +++ b/misc/examples/new_list.c @@ -9,7 +9,7 @@ typedef struct { clist_pnt pntlist; } MyStruct; -#define i_val int +#define i_key int #define i_tag i32 #define i_is_forward #include @@ -20,20 +20,20 @@ int point_cmp(const Point* a, const Point* b) { return c ? c : a->y - b->y; } -#define i_val Point +#define i_key Point #define i_cmp point_cmp #define i_is_forward #define i_tag pnt #include -#define i_val float +#define i_key float #define i_native_cmp // use < and == operators for comparison #include void MyStruct_drop(MyStruct* s); #define i_type MyList -#define i_val MyStruct -#define i_valdrop MyStruct_drop // define drop function +#define i_key MyStruct +#define i_keydrop MyStruct_drop // define drop function #define i_no_clone // must explicitely exclude or define cloning support because of drop. #include diff --git a/misc/examples/new_pque.c b/misc/examples/new_pque.c index dc2ecf12..3df39e0e 100644 --- a/misc/examples/new_pque.c +++ b/misc/examples/new_pque.c @@ -3,7 +3,7 @@ typedef struct Point { int x, y; } Point; #define i_type PointQ -#define i_val Point +#define i_key Point #define i_less(a, b) a->x < b->x || (a->x == b->x && a->y < b->y) #include diff --git a/misc/examples/new_queue.c b/misc/examples/new_queue.c index b784bc18..104871bf 100644 --- a/misc/examples/new_queue.c +++ b/misc/examples/new_queue.c @@ -10,14 +10,14 @@ int point_cmp(const Point* a, const Point* b) { int c = c_default_cmp(&a->x, &b->x); return c ? c : c_default_cmp(&a->y, &b->y); } -#define i_val Point +#define i_key Point #define i_cmp point_cmp #define i_is_forward #define i_tag pnt #include #define i_type IQ -#define i_val int +#define i_key int #include int main() { diff --git a/misc/examples/new_sptr.c b/misc/examples/new_sptr.c index 2eff41a5..7fef5d1f 100644 --- a/misc/examples/new_sptr.c +++ b/misc/examples/new_sptr.c @@ -9,21 +9,21 @@ int Person_cmp(const Person* a, const Person* b); uint64_t Person_hash(const Person* p); #define i_type PersonArc -#define i_valclass Person // "class" assume _clone, _drop, _cmp, _hash is defined. +#define i_keyclass Person // "class" assume _clone, _drop, _cmp, _hash is defined. #include #define i_type IPtr -#define i_val int -#define i_valdrop(x) printf("drop: %d\n", *x) +#define i_key int +#define i_keydrop(x) printf("drop: %d\n", *x) #define i_native_cmp #include #define i_type IPStack -#define i_valboxed IPtr +#define i_keyboxed IPtr #include #define i_type PASet -#define i_valboxed PersonArc +#define i_keyboxed PersonArc #include diff --git a/misc/examples/new_vec.c b/misc/examples/new_vec.c index 6329b185..6d928cfc 100644 --- a/misc/examples/new_vec.c +++ b/misc/examples/new_vec.c @@ -9,14 +9,14 @@ typedef struct MyStruct { cvec_pnt pntvec; } MyStruct; -#define i_val int +#define i_key int #define i_tag i32 #define i_is_forward #include typedef struct Point { int x, y; } Point; -#define i_val Point +#define i_key Point #define i_tag pnt #define i_less(a, b) a->x < b->x || (a->x == b->x && a->y < b->y) #define i_eq(a, b) a->x == b->x && a->y == b->y diff --git a/misc/examples/person_arc.c b/misc/examples/person_arc.c index 3614c02d..c78b541c 100644 --- a/misc/examples/person_arc.c +++ b/misc/examples/person_arc.c @@ -31,12 +31,12 @@ void Person_drop(Person* p) { } #define i_type PSPtr -#define i_valclass Person // ensure Person_drop +#define i_keyclass Person // ensure Person_drop #define i_cmp Person_cmp // specify object cmp, instead of ptr cmp for arc. #include #define i_type Persons -#define i_valboxed PSPtr // binds PSPtr_cmp, PSPtr_drop... +#define i_keyboxed PSPtr // binds PSPtr_cmp, PSPtr_drop... #include diff --git a/misc/examples/printspan.c b/misc/examples/printspan.c index 7564bd88..5084536a 100644 --- a/misc/examples/printspan.c +++ b/misc/examples/printspan.c @@ -3,14 +3,14 @@ #include #define i_implement #include -#define i_val int +#define i_key int #include -#define i_val int +#define i_key int #include -#define i_val_str +#define i_key_str #include -#include +#include using_cspan(intspan, int, 1); void printMe(intspan container) { diff --git a/misc/examples/priority.c b/misc/examples/priority.c index 95dd3183..148e8fc5 100644 --- a/misc/examples/priority.c +++ b/misc/examples/priority.c @@ -3,7 +3,7 @@ #include #include -#define i_val int64_t +#define i_key int64_t #define i_cmp -c_default_cmp // min-heap (increasing values) #define i_tag i #include diff --git a/misc/examples/queue.c b/misc/examples/queue.c index 83c18d09..3154f115 100644 --- a/misc/examples/queue.c +++ b/misc/examples/queue.c @@ -1,7 +1,7 @@ #include #include -#define i_val int +#define i_key int #define i_tag i #include diff --git a/misc/examples/rawptr_elements.c b/misc/examples/rawptr_elements.c index 8dd52aee..9c394d8e 100644 --- a/misc/examples/rawptr_elements.c +++ b/misc/examples/rawptr_elements.c @@ -16,7 +16,7 @@ // Alternatively, using cbox: #define i_type IBox -#define i_val long +#define i_key long #include // unique_ptr alike. // cmap of cstr => IBox diff --git a/misc/examples/read.c b/misc/examples/read.c index 3c1cadf6..c25cd740 100644 --- a/misc/examples/read.c +++ b/misc/examples/read.c @@ -1,7 +1,7 @@ #define i_implement #include #include -#define i_val_str +#define i_key_str #include #include diff --git a/misc/examples/regex_match.c b/misc/examples/regex_match.c index 310e0797..88d3747b 100644 --- a/misc/examples/regex_match.c +++ b/misc/examples/regex_match.c @@ -3,7 +3,7 @@ #define i_implement #include -#define i_val float +#define i_key float #include int main() diff --git a/misc/examples/scheduler.c b/misc/examples/scheduler.c index c1168850..d812ff42 100644 --- a/misc/examples/scheduler.c +++ b/misc/examples/scheduler.c @@ -9,7 +9,7 @@ struct Task { }; #define i_type Scheduler -#define i_val struct Task +#define i_key struct Task #include static bool schedule(Scheduler* sched) diff --git a/misc/examples/shape.c b/misc/examples/shape.c index 1d9fe5c5..bd4bdd5a 100644 --- a/misc/examples/shape.c +++ b/misc/examples/shape.c @@ -76,7 +76,7 @@ struct ShapeAPI Triangle_api = { // ============================================================ #define i_type PointVec -#define i_val Point +#define i_key Point #include typedef struct { @@ -122,8 +122,8 @@ struct ShapeAPI Polygon_api = { // ============================================================ #define i_type Shapes -#define i_val Shape* -#define i_valdrop(x) Shape_delete(*x) +#define i_key Shape* +#define i_keydrop(x) Shape_delete(*x) #define i_no_clone #include diff --git a/misc/examples/stack.c b/misc/examples/stack.c index c817e1ae..96bab24b 100644 --- a/misc/examples/stack.c +++ b/misc/examples/stack.c @@ -3,11 +3,11 @@ #define i_tag i #define i_capacity 100 -#define i_val int +#define i_key int #include #define i_tag c -#define i_val char +#define i_key char #include int main() { diff --git a/misc/tests/cspan_test.c b/misc/tests/cspan_test.c index 6834dce1..aa055ea6 100644 --- a/misc/tests/cspan_test.c +++ b/misc/tests/cspan_test.c @@ -44,7 +44,7 @@ CTEST(cspan, slice) { ASSERT_EQ(45, sum2); } -#define i_val int +#define i_key int #include CTEST(cspan, slice2) { @@ -75,7 +75,7 @@ CTEST(cspan, slice2) { #define i_type Tiles -#define i_val intspan3 +#define i_key intspan3 #include CTEST_FIXTURE(cspan_cube) { -- cgit v1.2.3 From e9121702a5d69624ef1e782e85a8f032e4f4e875 Mon Sep 17 00:00:00 2001 From: tylov Date: Sat, 15 Jul 2023 23:20:16 +0200 Subject: Improved warning, and other enhancements in ccommon.h --- README.md | 2 +- docs/carc_api.md | 2 +- docs/cbox_api.md | 2 +- docs/ccommon_api.md | 10 +++++----- docs/cdeq_api.md | 2 +- docs/clist_api.md | 6 +++--- docs/cmap_api.md | 12 ++++++------ docs/cpque_api.md | 2 +- docs/cqueue_api.md | 2 +- docs/crandom_api.md | 2 +- docs/cregex_api.md | 2 +- docs/cset_api.md | 2 +- docs/csmap_api.md | 8 ++++---- docs/cspan_api.md | 6 +++--- docs/csset_api.md | 2 +- docs/cstack_api.md | 2 +- docs/cstr_api.md | 2 +- docs/csview_api.md | 6 +++--- docs/cvec_api.md | 4 ++-- include/c11/fmt.h | 2 +- include/stc/algo/crange.h | 2 +- include/stc/algo/filter.h | 2 +- include/stc/algo/sort.h | 4 ++-- include/stc/carc.h | 4 ++-- include/stc/cbits.h | 2 +- include/stc/cbox.h | 4 ++-- include/stc/ccommon.h | 6 +++--- include/stc/clist.h | 2 +- include/stc/crand.h | 2 +- include/stc/cvec.h | 2 +- misc/benchmarks/plotbench/cpque_benchmark.cpp | 2 +- misc/benchmarks/various/cspan_bench.c | 2 +- misc/benchmarks/various/rust_cmap.c | 2 +- misc/benchmarks/various/sso_bench.cpp | 2 +- misc/benchmarks/various/string_bench_STC.cpp | 2 +- misc/benchmarks/various/string_bench_STD.cpp | 2 +- misc/examples/arc_containers.c | 2 +- misc/examples/arc_demo.c | 2 +- misc/examples/arcvec_erase.c | 2 +- misc/examples/birthday.c | 2 +- misc/examples/bits2.c | 2 +- misc/examples/books.c | 2 +- misc/examples/box.c | 2 +- misc/examples/cointerleave.c | 2 +- misc/examples/complex.c | 2 +- misc/examples/convert.c | 2 +- misc/examples/csmap_erase.c | 2 +- misc/examples/csmap_find.c | 2 +- misc/examples/csmap_insert.c | 2 +- misc/examples/csset_erase.c | 2 +- misc/examples/cstr_match.c | 2 +- misc/examples/demos.c | 18 +++++++++--------- misc/examples/dining_philosophers.c | 2 +- misc/examples/forloops.c | 2 +- misc/examples/functor.c | 2 +- misc/examples/gauss2.c | 2 +- misc/examples/generator.c | 2 +- misc/examples/intrusive.c | 2 +- misc/examples/list.c | 2 +- misc/examples/list_erase.c | 2 +- misc/examples/list_splice.c | 2 +- misc/examples/lower_bound.c | 2 +- misc/examples/mmap.c | 2 +- misc/examples/multidim.c | 2 +- misc/examples/multimap.c | 2 +- misc/examples/music_arc.c | 4 ++-- misc/examples/new_list.c | 2 +- misc/examples/new_map.c | 2 +- misc/examples/new_pque.c | 2 +- misc/examples/new_queue.c | 2 +- misc/examples/new_smap.c | 2 +- misc/examples/new_vec.c | 2 +- misc/examples/person_arc.c | 2 +- misc/examples/printspan.c | 2 +- misc/examples/priority.c | 2 +- misc/examples/queue.c | 2 +- misc/examples/random.c | 2 +- misc/examples/rawptr_elements.c | 2 +- misc/examples/read.c | 2 +- misc/examples/regex2.c | 2 +- misc/examples/regex_match.c | 2 +- misc/examples/regex_replace.c | 2 +- misc/examples/replace.c | 2 +- misc/examples/scheduler.c | 2 +- misc/examples/sidebyside.cpp | 2 +- misc/examples/sorted_map.c | 2 +- misc/examples/splitstr.c | 2 +- misc/examples/sso_map.c | 2 +- misc/examples/sso_substr.c | 2 +- misc/examples/stack.c | 2 +- misc/examples/sview_split.c | 2 +- misc/examples/triples.c | 2 +- misc/examples/unordered_set.c | 2 +- misc/examples/utf8replace_c.c | 2 +- misc/examples/vikings.c | 2 +- 95 files changed, 128 insertions(+), 128 deletions(-) (limited to 'include/stc/algo/sort.h') diff --git a/README.md b/README.md index 1601204d..b7e06790 100644 --- a/README.md +++ b/README.md @@ -181,7 +181,7 @@ Switching to a different container type, e.g. a sorted set (csset): #include // Use a sorted set instead #include -int main() +int main(void) { Floats nums = {0}; Floats_push(&nums, 30.f); diff --git a/docs/carc_api.md b/docs/carc_api.md index 254f868a..8b7b67a1 100644 --- a/docs/carc_api.md +++ b/docs/carc_api.md @@ -97,7 +97,7 @@ bool carc_X_value_eq(const i_key* x, const i_key* y); #define i_keyboxed Arc // Note: use i_keyboxed for carc or cbox value types #include -int main() +int main(void) { Stack s1 = {0}, s2 = {0}; Map *map; diff --git a/docs/cbox_api.md b/docs/cbox_api.md index 83d59521..b6c76d2f 100644 --- a/docs/cbox_api.md +++ b/docs/cbox_api.md @@ -90,7 +90,7 @@ void int_drop(int* x) { #define i_keyboxed IBox // NB: use i_keyboxed instead of i_key #include // IVec : std::vector> -int main() +int main(void) { IVec vec = c_init(Vec, {2021, 2012, 2022, 2015}); ISet set = {0}; diff --git a/docs/ccommon_api.md b/docs/ccommon_api.md index 6bce56af..e053f743 100644 --- a/docs/ccommon_api.md +++ b/docs/ccommon_api.md @@ -137,7 +137,7 @@ bool isPrime(long long i) { return true; } -int main() { +int main(void) { // Get 10 prime numbers starting from 1000. Skip the first 15 primes, // then select every 25th prime (including the initial). crange R = crange_make(1001, INT64_MAX, 2); // 1001, 1003, ... @@ -214,7 +214,7 @@ There is a [benchmark/test file here](../misc/benchmarks/various/csort_bench.c). #include #include -int main() { +int main(void) { int nums[] = {5, 3, 5, 9, 7, 4, 7, 2, 4, 9, 3, 1, 2, 6, 4}; intarray_sort_n(nums, c_arraylen(nums)); c_forrange (i, c_arraylen(arr)) printf(" %d", arr[i]); @@ -230,7 +230,7 @@ possible and very fast. Note that `i_more` must be defined to retain specified t #include #include -int main() { +int main(void) { MyDeq deq = c_init(MyDeq, {5, 3, 5, 9, 7, 4, 7, 2, 4, 9, 3, 1, 2, 6, 4}); MyDeq_sort_n(&deq, MyDeq_size(&deq)); c_foreach (i, MyDeq, deq) printf(" %d", *i.ref); @@ -348,7 +348,7 @@ int gcd(int a, int b) { // greatest common denominator return a; } -int main() +int main(void) { struct triples t = {.n=INT32_MAX}; int n = 0; @@ -500,7 +500,7 @@ cvec_str readFile(const char* name) return vec; } -int main() +int main(void) { c_with (cvec_str vec = readFile(__FILE__), cvec_str_drop(&vec)) c_foreach (i, cvec_str, vec) diff --git a/docs/cdeq_api.md b/docs/cdeq_api.md index 292b0933..c6de6cd6 100644 --- a/docs/cdeq_api.md +++ b/docs/cdeq_api.md @@ -101,7 +101,7 @@ void cdeq_X_value_drop(cdeq_X_value* pval); #include -int main() { +int main(void) { cdeq_i q = cdeq_i_init(); cdeq_i_push_front(&q, 10); c_foreach (i, cdeq_i, q) diff --git a/docs/clist_api.md b/docs/clist_api.md index 023cca41..3d785789 100644 --- a/docs/clist_api.md +++ b/docs/clist_api.md @@ -122,7 +122,7 @@ Interleave *push_front()* / *push_back()* then *sort()*: #include -int main() { +int main(void) { DList list = c_init(DList, {10., 20., 30., 40., 50., 60., 70., 80., 90.}); c_forrange (i, 1, 10) { @@ -159,7 +159,7 @@ Use of *erase_at()* and *erase_range()*: #include -int main () +int main(void) { clist_i L = c_init(clist_i, {10, 20, 30, 40, 50}); // 10 20 30 40 50 @@ -194,7 +194,7 @@ Splice `[30, 40]` from *L2* into *L1* before `3`: #include -int main() { +int main(void) { clist_i L1 = c_init(clist_i, {1, 2, 3, 4, 5}); clist_i L2 = c_init(clist_i, {10, 20, 30, 40, 50}); diff --git a/docs/cmap_api.md b/docs/cmap_api.md index 8ef322e6..eca350b4 100644 --- a/docs/cmap_api.md +++ b/docs/cmap_api.md @@ -121,7 +121,7 @@ bool c_memcmp_eq(const i_keyraw* a, const i_keyraw* b); // ! #define i_val_str #include -int main() +int main(void) { // Create an unordered_map of three strings (that map to strings) cmap_str umap = c_init(cmap_str, { @@ -165,7 +165,7 @@ This example uses a cmap with cstr as mapped value. #define i_val_str #include -int main() +int main(void) { uint32_t col = 0xcc7744ff; @@ -208,7 +208,7 @@ typedef struct { int x, y, z; } Vec3i; #define i_tag vi #include -int main() +int main(void) { // Define map with defered destruct cmap_vi vecs = {0}; @@ -243,7 +243,7 @@ typedef struct { int x, y, z; } Vec3i; #define i_tag iv #include -int main() +int main(void) { cmap_iv vecs = {0} @@ -304,7 +304,7 @@ static inline void Viking_drop(Viking* vk) { #define i_val int #include -int main() +int main(void) { // Use a HashMap to store the vikings' health points. Vikings vikings = {0}; @@ -380,7 +380,7 @@ static inline RViking Viking_toraw(const Viking* vp) { #define i_val int #include -int main() +int main(void) { Vikings vikings = {0}; diff --git a/docs/cpque_api.md b/docs/cpque_api.md index ca94e367..5b63dfd1 100644 --- a/docs/cpque_api.md +++ b/docs/cpque_api.md @@ -68,7 +68,7 @@ i_key cpque_X_value_clone(i_key value); #define i_tag i #include -int main() +int main(void) { intptr_t N = 10000000; crand_t rng = crand_init(1234); diff --git a/docs/cqueue_api.md b/docs/cqueue_api.md index bce62833..b324e5fc 100644 --- a/docs/cqueue_api.md +++ b/docs/cqueue_api.md @@ -74,7 +74,7 @@ void cqueue_X_value_drop(cqueue_X_value* pval); #include -int main() { +int main(void) { cqueue_i Q = cqueue_i_init(); // push() and pop() a few. diff --git a/docs/crandom_api.md b/docs/crandom_api.md index 74e23a6a..22a4f4dd 100644 --- a/docs/crandom_api.md +++ b/docs/crandom_api.md @@ -76,7 +76,7 @@ double crand_norm(crand_t* rng, crand_norm_t* dist); #define i_tag i #include -int main() +int main(void) { enum {N = 10000000}; const double Mean = -12.0, StdDev = 6.0, Scale = 74; diff --git a/docs/cregex_api.md b/docs/cregex_api.md index f87240f8..52476e09 100644 --- a/docs/cregex_api.md +++ b/docs/cregex_api.md @@ -102,7 +102,7 @@ If an error occurs ```cregex_compile``` returns a negative error code stored in #define i_import // include dependent cstr, utf8 and cregex function definitions. #include -int main() { +int main(void) { const char* input = "start date is 2023-03-01, end date 2025-12-31."; const char* pattern = "\\b(\\d\\d\\d\\d)-(\\d\\d)-(\\d\\d)\\b"; diff --git a/docs/cset_api.md b/docs/cset_api.md index 7bce3136..e894ad4f 100644 --- a/docs/cset_api.md +++ b/docs/cset_api.md @@ -83,7 +83,7 @@ cset_X_value cset_X_value_clone(cset_X_value val); #define i_key_str #include -int main () +int main(void) { Strset first, second={0}, third={0}, fourth={0}, fifth; diff --git a/docs/csmap_api.md b/docs/csmap_api.md index 2fd9f6a5..099d7dfc 100644 --- a/docs/csmap_api.md +++ b/docs/csmap_api.md @@ -108,7 +108,7 @@ void csmap_X_value_drop(csmap_X_value* pval); #define i_val_str // ditto #include -int main() +int main(void) { // Create a sorted map of three strings (maps to string) csmap_str colors = c_init(csmap_str, { @@ -166,7 +166,7 @@ static void print_result(strmap_result result) { print_node(result.ref); } -int main() +int main(void) { strmap m = {0}; @@ -191,7 +191,7 @@ This example uses a csmap with cstr as mapped value. #define i_val_str #include -int main() +int main(void) { uint32_t col = 0xcc7744ff; IDSMap idnames = c_init(IDSMap, { {100, "Red"}, {110, "Blue"} }); @@ -237,7 +237,7 @@ static int Vec3i_cmp(const Vec3i* a, const Vec3i* b) { #include #include -int main() +int main(void) { csmap_vi vmap = {0}; diff --git a/docs/cspan_api.md b/docs/cspan_api.md index 1089e48d..09821450 100644 --- a/docs/cspan_api.md +++ b/docs/cspan_api.md @@ -101,7 +101,7 @@ if __name__ == '__main__': #include using_cspan3(myspan, int); // define myspan, myspan2, myspan3. -int main() { +int main(void) { int arr[] = {1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24}; myspan3 ms3 = cspan_md(arr, 2, 3, 4); // C-order, i.e. row-major. @@ -123,7 +123,7 @@ int main() { #include #include -int main() { +int main(void) { int arr[] = {1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24}; std::mdspan ms3(arr, 2, 3, 4); @@ -147,7 +147,7 @@ Slicing cspan without and with reducing the rank: using_cspan3(Span, int); // Shorthand to define Span, Span2, and Span3 -int main() +int main(void) { // c_init() can create any STC container/span from an initializer list: Span span = c_init(Span, {1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, diff --git a/docs/csset_api.md b/docs/csset_api.md index d086b660..aef3af3c 100644 --- a/docs/csset_api.md +++ b/docs/csset_api.md @@ -83,7 +83,7 @@ csset_X_value csset_X_value_clone(csset_X_value val); #define i_key_str #include -int main () +int main(void) { SSet second={0}, third={0}, fourth={0}, fifth={0}; diff --git a/docs/cstack_api.md b/docs/cstack_api.md index 51889d7f..e799b152 100644 --- a/docs/cstack_api.md +++ b/docs/cstack_api.md @@ -77,7 +77,7 @@ void cstack_X_value_drop(cvec_X_value* pval); #include -int main() { +int main(void) { IStack stk = IStack_init(); for (int i=0; i < 100; ++i) diff --git a/docs/cstr_api.md b/docs/cstr_api.md index c7d19e0c..dae5669f 100644 --- a/docs/cstr_api.md +++ b/docs/cstr_api.md @@ -160,7 +160,7 @@ char* cstrnstrn(const char* str, const char* search, intptr_t slen, intpt #define i_implement #include -int main() { +int main(void) { cstr s0, s1, full_path; c_defer( cstr_drop(&s0), diff --git a/docs/csview_api.md b/docs/csview_api.md index 33df6a64..79a5c07b 100644 --- a/docs/csview_api.md +++ b/docs/csview_api.md @@ -121,7 +121,7 @@ uint64_t csview_hash(const csview* x); #include #include -int main () +int main(void) { cstr str1 = cstr_lit("We think in generalities, but we live in details."); // (quoting Alfred N. Whitehead) @@ -151,7 +151,7 @@ red Apples #define i_import // include dependent cstr, utf8 and cregex function definitions. #include -int main() +int main(void) { cstr s1 = cstr_lit("hell😀 w😀rld"); @@ -198,7 +198,7 @@ cstack_str string_split(csview input, const char* sep) return out; } -int main() +int main(void) { print_split(c_sv("//This is a//double-slash//separated//string"), "//"); print_split(c_sv("This has no matching separator"), "xx"); diff --git a/docs/cvec_api.md b/docs/cvec_api.md index ce85e446..d38ef23f 100644 --- a/docs/cvec_api.md +++ b/docs/cvec_api.md @@ -112,7 +112,7 @@ cvec_X_raw cvec_X_value_drop(cvec_X_value* pval); #include -int main() +int main(void) { // Create a vector containing integers cvec_int vec = {0}; @@ -153,7 +153,7 @@ sorted: 5 7 8 13 16 25 #define i_key_str #include -int main() { +int main(void) { cvec_str names = cvec_str_init(); cvec_str_emplace(&names, "Mary"); diff --git a/include/c11/fmt.h b/include/c11/fmt.h index 45044e33..d2eab8bc 100644 --- a/include/c11/fmt.h +++ b/include/c11/fmt.h @@ -33,7 +33,7 @@ void fmt_close(fmt_stream* ss); #define FMT_SHORTS #include "c11/fmt.h" -int main() { +int main(void) { const double pi = 3.141592653589793; const size_t x = 1234567890; const char* string = "Hello world"; diff --git a/include/stc/algo/crange.h b/include/stc/algo/crange.h index 45ef53a1..03162a2d 100644 --- a/include/stc/algo/crange.h +++ b/include/stc/algo/crange.h @@ -25,7 +25,7 @@ #include #include -int main() +int main(void) { crange r1 = crange_make(80, 90); c_foreach (i, crange, r1) diff --git a/include/stc/algo/filter.h b/include/stc/algo/filter.h index f5de1811..4a227927 100644 --- a/include/stc/algo/filter.h +++ b/include/stc/algo/filter.h @@ -26,7 +26,7 @@ #include #include -int main() +int main(void) { cstack_int stk = c_init(cstack_int, {1, 2, 3, 4, 5, 6, 7, 8, 9}); diff --git a/include/stc/algo/sort.h b/include/stc/algo/sort.h index 01e7d521..06d7395f 100644 --- a/include/stc/algo/sort.h +++ b/include/stc/algo/sort.h @@ -31,7 +31,7 @@ template params: #define i_key int #include -int main() { +int main(void) { int nums[] = {23, 321, 5434, 25, 245, 1, 654, 33, 543, 21}; intarray_sort_n(nums, c_arraylen(nums)); @@ -48,7 +48,7 @@ int main() { #include #include -int main() { +int main(void) { IDeq nums = c_init(IDeq, {5434, 25, 245, 1, 654, 33, 543, 21}); IDeq_push_front(&nums, 23); IDeq_push_front(&nums, 321); diff --git a/include/stc/carc.h b/include/stc/carc.h index b77b7dfb..9ba2ddd1 100644 --- a/include/stc/carc.h +++ b/include/stc/carc.h @@ -46,7 +46,7 @@ void Person_drop(Person* p) { #define i_opt c_no_cmp|c_no_hash // exclude cmp, hash #include -int main() { +int main(void) { ArcPers p = ArcPers_from(Person_make("John", "Smiths")); ArcPers q = ArcPers_clone(p); // share the pointer @@ -225,4 +225,4 @@ STC_INLINE void _cx_MEMB(_assign)(_cx_Self* self, _cx_Self ptr) { #undef _i_atomic_inc #undef _i_atomic_dec_and_test #include "priv/template2.h" -#undef _i_carc \ No newline at end of file +#undef _i_carc diff --git a/include/stc/cbits.h b/include/stc/cbits.h index 66bc6354..3b5785d3 100644 --- a/include/stc/cbits.h +++ b/include/stc/cbits.h @@ -26,7 +26,7 @@ Similar to boost::dynamic_bitset / std::bitset #include #include "cbits.h" -int main() { +int main(void) { cbits bset = cbits_with_size(23, true); cbits_reset(&bset, 9); cbits_resize(&bset, 43, false); diff --git a/include/stc/cbox.h b/include/stc/cbox.h index 86d5a6a6..25d41b92 100644 --- a/include/stc/cbox.h +++ b/include/stc/cbox.h @@ -47,7 +47,7 @@ void Person_drop(Person* p) { #define i_no_cmp // no cmp/hash is defined #include -int main() { +int main(void) { c_auto (PBox, p, q) { p = PBox_from(Person_from("John Smiths", "josmiths@gmail.com")); @@ -205,4 +205,4 @@ STC_INLINE void _cx_MEMB(_assign)(_cx_Self* self, _cx_Self* moved) { { return c_default_hash(&self->get); } #endif #include "priv/template2.h" -#undef _i_cbox \ No newline at end of file +#undef _i_cbox diff --git a/include/stc/ccommon.h b/include/stc/ccommon.h index 45c3a360..1f9ea80d 100644 --- a/include/stc/ccommon.h +++ b/include/stc/ccommon.h @@ -85,7 +85,7 @@ typedef long long _llong; #define c_assert(expr) assert(expr) #endif #define c_container_of(p, C, m) ((C*)((char*)(1 ? (p) : &((C*)0)->m) - offsetof(C, m))) -#define c_const_cast(T, p) ((T)(p) + 0*sizeof((T)0 == (p))) +#define c_const_cast(T, p) ((T)(1 ? (p) : (T)0)) #define c_swap(T, xp, yp) do { T *_xp = xp, *_yp = yp, \ _tv = *_xp; *_xp = *_yp; *_yp = _tv; } while (0) #define c_sizeof (intptr_t)sizeof @@ -96,8 +96,8 @@ typedef long long _llong; #define c_memmove(d, s, ilen) memmove(d, s, c_i2u(ilen)) #define c_memset(d, val, ilen) memset(d, val, c_i2u(ilen)) #define c_memcmp(a, b, ilen) memcmp(a, b, c_i2u(ilen)) -#define c_u2i(u) ((intptr_t)((u) + 0*sizeof((u) == 1U))) -#define c_i2u(i) ((size_t)(i) + 0*sizeof((i) == 1)) +#define c_u2i(u) ((intptr_t)(1 ? (u) : (size_t)1)) +#define c_i2u(i) ((size_t)(1 ? (i) : (intptr_t)1)) #define c_LTu(a, b) ((size_t)(a) < (size_t)(b)) // x and y are i_keyraw* type, defaults to i_key*: diff --git a/include/stc/clist.h b/include/stc/clist.h index 9cc1bb39..d7cf30b9 100644 --- a/include/stc/clist.h +++ b/include/stc/clist.h @@ -32,7 +32,7 @@ #define i_tag ix #include - int main() + int main(void) { c_auto (clist_ix, list) { diff --git a/include/stc/crand.h b/include/stc/crand.h index 89b681cd..0a6aa9e0 100644 --- a/include/stc/crand.h +++ b/include/stc/crand.h @@ -29,7 +29,7 @@ // crand: Pseudo-random number generator #include "stc/crand.h" -int main() { +int main(void) { uint64_t seed = 123456789; crand_t rng = crand_init(seed); crand_unif_t dist1 = crand_unif_init(1, 6); diff --git a/include/stc/cvec.h b/include/stc/cvec.h index 9b95306e..d08e382f 100644 --- a/include/stc/cvec.h +++ b/include/stc/cvec.h @@ -44,7 +44,7 @@ struct MyStruct { #define i_tag i32 #include -int main() { +int main(void) { cvec_i32 vec = {0}; cvec_i32_push(&vec, 123); cvec_i32_drop(&vec); diff --git a/misc/benchmarks/plotbench/cpque_benchmark.cpp b/misc/benchmarks/plotbench/cpque_benchmark.cpp index 2d4c7a28..6c62ae3e 100644 --- a/misc/benchmarks/plotbench/cpque_benchmark.cpp +++ b/misc/benchmarks/plotbench/cpque_benchmark.cpp @@ -58,7 +58,7 @@ void stc_test() } -int main() +int main(void) { puts("STD P.QUEUE:"); std_test(); diff --git a/misc/benchmarks/various/cspan_bench.c b/misc/benchmarks/various/cspan_bench.c index 392c9d3f..e3997ff0 100644 --- a/misc/benchmarks/various/cspan_bench.c +++ b/misc/benchmarks/various/cspan_bench.c @@ -114,7 +114,7 @@ static void MDRanges_loop_over_joined(intptr_t state) printf("joined: %.1f ms, %f\n", 1000.0f * t / CLOCKS_PER_SEC, sum); } -int main() +int main(void) { for (int i = 0; i < nx * ny * nz; ++i) Vin[i] = i + 1.23; diff --git a/misc/benchmarks/various/rust_cmap.c b/misc/benchmarks/various/rust_cmap.c index abdb42b0..97047e0b 100644 --- a/misc/benchmarks/various/rust_cmap.c +++ b/misc/benchmarks/various/rust_cmap.c @@ -22,7 +22,7 @@ uint64_t romu_trio(uint64_t s[3]) { return xp; } -int main() +int main(void) { cmap_u64 m = {0}; diff --git a/misc/benchmarks/various/sso_bench.cpp b/misc/benchmarks/various/sso_bench.cpp index 6d3d107a..244c1291 100644 --- a/misc/benchmarks/various/sso_bench.cpp +++ b/misc/benchmarks/various/sso_bench.cpp @@ -112,7 +112,7 @@ int benchmark_lookup(C& container, const int n, const int strsize) { } #include -int main() { +int main(void) { uint64_t seed = time(NULL); // 4321; int sum, n; diff --git a/misc/benchmarks/various/string_bench_STC.cpp b/misc/benchmarks/various/string_bench_STC.cpp index 319b0b19..a5dfd901 100644 --- a/misc/benchmarks/various/string_bench_STC.cpp +++ b/misc/benchmarks/various/string_bench_STC.cpp @@ -184,7 +184,7 @@ void benchmark( //const size_t MAX_LOOP = 1000000; const size_t MAX_LOOP = 2000; -int main() +int main(void) { c_auto (cvec_str, vec_string) c_auto (cvec_sv, vec_stringview) diff --git a/misc/benchmarks/various/string_bench_STD.cpp b/misc/benchmarks/various/string_bench_STD.cpp index 07934948..153ac02f 100644 --- a/misc/benchmarks/various/string_bench_STD.cpp +++ b/misc/benchmarks/various/string_bench_STD.cpp @@ -194,7 +194,7 @@ void benchmark( //const size_t MAX_LOOP = 1000000; const size_t MAX_LOOP = 2000; -int main() +int main(void) { std::vector vec_shortstr; std::vector vec_shortstrview; diff --git a/misc/examples/arc_containers.c b/misc/examples/arc_containers.c index 524758e7..2fb04c56 100644 --- a/misc/examples/arc_containers.c +++ b/misc/examples/arc_containers.c @@ -24,7 +24,7 @@ #define i_keyboxed Arc // as above #include -int main() +int main(void) { Stack stack = {0}; List list = {0}; diff --git a/misc/examples/arc_demo.c b/misc/examples/arc_demo.c index 547e1737..87d64e67 100644 --- a/misc/examples/arc_demo.c +++ b/misc/examples/arc_demo.c @@ -20,7 +20,7 @@ void int_drop(int* x) { #define i_keyboxed Arc // note: as above. #include // cvec_Arc (like: std::vector>) -int main() +int main(void) { const int years[] = {2021, 2012, 2022, 2015}; diff --git a/misc/examples/arcvec_erase.c b/misc/examples/arcvec_erase.c index f409258b..addef8b7 100644 --- a/misc/examples/arcvec_erase.c +++ b/misc/examples/arcvec_erase.c @@ -13,7 +13,7 @@ void show_drop(int* x) { printf("drop: %d\n", *x); } #include // Vec: cvec -int main() +int main(void) { Vec vec = c_init(Vec, {2012, 1990, 2012, 2019, 2015}); diff --git a/misc/examples/birthday.c b/misc/examples/birthday.c index 2820c42f..4742cb45 100644 --- a/misc/examples/birthday.c +++ b/misc/examples/birthday.c @@ -60,7 +60,7 @@ void test_distribution(void) cmap_x_drop(&map); } -int main() +int main(void) { seed = (uint64_t)time(NULL); test_distribution(); diff --git a/misc/examples/bits2.c b/misc/examples/bits2.c index 913bd185..de2f16f4 100644 --- a/misc/examples/bits2.c +++ b/misc/examples/bits2.c @@ -5,7 +5,7 @@ #define i_capacity 80 // enable fixed bitset on the stack #include -int main() +int main(void) { Bits s1 = Bits_from("1110100110111"); diff --git a/misc/examples/books.c b/misc/examples/books.c index 7f0660b8..1fd57f27 100644 --- a/misc/examples/books.c +++ b/misc/examples/books.c @@ -7,7 +7,7 @@ // Type inference lets us omit an explicit type signature (which // would be `HashMap` in this example). -int main() +int main(void) { cmap_str book_reviews = {0}; diff --git a/misc/examples/box.c b/misc/examples/box.c index 3f55e15d..94d126c0 100644 --- a/misc/examples/box.c +++ b/misc/examples/box.c @@ -36,7 +36,7 @@ void Person_drop(Person* p) { #define i_keyboxed PBox // "arcbox" informs that PBox is a smart pointer. #include -int main() +int main(void) { Persons vec = {0}; PBox p = PBox_from(Person_make("Laura", "Palmer")); diff --git a/misc/examples/cointerleave.c b/misc/examples/cointerleave.c index c3c5926a..599ceaab 100644 --- a/misc/examples/cointerleave.c +++ b/misc/examples/cointerleave.c @@ -56,7 +56,7 @@ void Use(void) c_drop(IVec, &a, &b); } -int main() +int main(void) { Use(); } diff --git a/misc/examples/complex.c b/misc/examples/complex.c index 405afef3..4eb1574b 100644 --- a/misc/examples/complex.c +++ b/misc/examples/complex.c @@ -28,7 +28,7 @@ #include -int main() +int main(void) { MapMap mmap = {0}; diff --git a/misc/examples/convert.c b/misc/examples/convert.c index 3f2f60f6..fa64560e 100644 --- a/misc/examples/convert.c +++ b/misc/examples/convert.c @@ -11,7 +11,7 @@ #define i_key_str #include -int main() +int main(void) { cmap_str map, mclone; cvec_str keys = {0}, values = {0}; diff --git a/misc/examples/csmap_erase.c b/misc/examples/csmap_erase.c index 9433d370..8d4eeae3 100644 --- a/misc/examples/csmap_erase.c +++ b/misc/examples/csmap_erase.c @@ -16,7 +16,7 @@ void printmap(mymap m) printf("\nsize() == %" c_ZI "\n\n", mymap_size(&m)); } -int main() +int main(void) { mymap m1 = {0}; diff --git a/misc/examples/csmap_find.c b/misc/examples/csmap_find.c index b535e9ad..c392338d 100644 --- a/misc/examples/csmap_find.c +++ b/misc/examples/csmap_find.c @@ -40,7 +40,7 @@ void findit(csmap_istr c, csmap_istr_key val) } } -int main() +int main(void) { csmap_istr m1 = c_init(csmap_istr, {{40, "Zr"}, {45, "Rh"}}); cvec_istr v = {0}; diff --git a/misc/examples/csmap_insert.c b/misc/examples/csmap_insert.c index df638c22..c9f02891 100644 --- a/misc/examples/csmap_insert.c +++ b/misc/examples/csmap_insert.c @@ -29,7 +29,7 @@ void print_istr(csmap_istr map) { puts(""); } -int main() +int main(void) { // insert single values csmap_ii m1 = {0}; diff --git a/misc/examples/csset_erase.c b/misc/examples/csset_erase.c index 649bb1e3..9c7f5e1a 100644 --- a/misc/examples/csset_erase.c +++ b/misc/examples/csset_erase.c @@ -3,7 +3,7 @@ #define i_key int #include -int main() +int main(void) { csset_int set = c_init(csset_int, {30, 20, 80, 40, 60, 90, 10, 70, 50}); diff --git a/misc/examples/cstr_match.c b/misc/examples/cstr_match.c index 10a843cf..be03e981 100644 --- a/misc/examples/cstr_match.c +++ b/misc/examples/cstr_match.c @@ -3,7 +3,7 @@ #include #include -int main() +int main(void) { cstr ss = cstr_lit("The quick brown fox jumps over the lazy dog.JPG"); diff --git a/misc/examples/demos.c b/misc/examples/demos.c index 2e91b20c..ecc89f2e 100644 --- a/misc/examples/demos.c +++ b/misc/examples/demos.c @@ -1,7 +1,7 @@ #define i_implement #include -void stringdemo1() +void stringdemo1(void) { cstr cs = cstr_lit("one-nine-three-seven-five"); printf("%s.\n", cstr_str(&cs)); @@ -32,7 +32,7 @@ void stringdemo1() #define i_tag ix #include -void vectordemo1() +void vectordemo1(void) { cvec_ix bignums = cvec_ix_with_capacity(100); cvec_ix_reserve(&bignums, 100); @@ -55,7 +55,7 @@ void vectordemo1() #define i_key_str #include -void vectordemo2() +void vectordemo2(void) { cvec_str names = {0}; cvec_str_emplace_back(&names, "Mary"); @@ -77,7 +77,7 @@ void vectordemo2() #define i_native_cmp #include -void listdemo1() +void listdemo1(void) { clist_ix nums = {0}, nums2 = {0}; for (int i = 0; i < 10; ++i) @@ -109,7 +109,7 @@ void listdemo1() #define i_tag i #include -void setdemo1() +void setdemo1(void) { cset_i nums = {0}; cset_i_insert(&nums, 8); @@ -125,7 +125,7 @@ void setdemo1() #define i_tag ii #include -void mapdemo1() +void mapdemo1(void) { cmap_ii nums = {0}; cmap_ii_insert(&nums, 8, 64); @@ -139,7 +139,7 @@ void mapdemo1() #define i_tag si #include -void mapdemo2() +void mapdemo2(void) { cmap_si nums = {0}; cmap_si_emplace_or_assign(&nums, "Hello", 64); @@ -161,7 +161,7 @@ void mapdemo2() #define i_val_str #include -void mapdemo3() +void mapdemo3(void) { cmap_str table = {0}; cmap_str_emplace(&table, "Map", "test"); @@ -181,7 +181,7 @@ void mapdemo3() cmap_str_drop(&table); // frees key and value cstrs, and hash table. } -int main() +int main(void) { printf("\nSTRINGDEMO1\n"); stringdemo1(); printf("\nVECTORDEMO1\n"); vectordemo1(); diff --git a/misc/examples/dining_philosophers.c b/misc/examples/dining_philosophers.c index 61fe67fb..a5063a42 100644 --- a/misc/examples/dining_philosophers.c +++ b/misc/examples/dining_philosophers.c @@ -86,7 +86,7 @@ int dining(struct Dining* d) return 0; } -int main() +int main(void) { struct Dining dine; cco_reset(&dine); diff --git a/misc/examples/forloops.c b/misc/examples/forloops.c index 99b12871..47cced8f 100644 --- a/misc/examples/forloops.c +++ b/misc/examples/forloops.c @@ -11,7 +11,7 @@ #include -int main() +int main(void) { puts("c_forrange:"); c_forrange (30) printf(" xx"); diff --git a/misc/examples/functor.c b/misc/examples/functor.c index ea409a56..e3bde1dd 100644 --- a/misc/examples/functor.c +++ b/misc/examples/functor.c @@ -30,7 +30,7 @@ static bool int_less(const int* x, const int* y) { return *x < *y; } static bool int_greater(const int* x, const int* y) { return *x > *y; } static bool int_lambda(const int* x, const int* y) { return (*x ^ 1) < (*y ^ 1); } -int main() +int main(void) { const int data[] = {1,8,5,6,3,4,0,9,7,2}, n = c_arraylen(data); printf("data: \t"); diff --git a/misc/examples/gauss2.c b/misc/examples/gauss2.c index 67586181..1ab8ade5 100644 --- a/misc/examples/gauss2.c +++ b/misc/examples/gauss2.c @@ -10,7 +10,7 @@ #define i_val int #include -int main() +int main(void) { enum {N = 5000000}; uint64_t seed = (uint64_t)time(NULL); diff --git a/misc/examples/generator.c b/misc/examples/generator.c index 3ff7a645..a15f9ba5 100644 --- a/misc/examples/generator.c +++ b/misc/examples/generator.c @@ -42,7 +42,7 @@ Triple_iter Triple_begin(Triple* g) { } -int main() +int main(void) { puts("Pythagorean triples with c < 100:"); Triple triple = {.size=30}; // max number of triples diff --git a/misc/examples/intrusive.c b/misc/examples/intrusive.c index 1e3f7b83..4fca654b 100644 --- a/misc/examples/intrusive.c +++ b/misc/examples/intrusive.c @@ -14,7 +14,7 @@ void printList(List list) { puts(""); } -int main() { +int main(void) { List list = {0}; c_forlist (i, int, {6, 9, 3, 1, 7, 4, 5, 2, 8}) List_push_back_node(&list, c_new(List_node, {0, *i.ref})); diff --git a/misc/examples/list.c b/misc/examples/list.c index a0045db9..fa33305a 100644 --- a/misc/examples/list.c +++ b/misc/examples/list.c @@ -8,7 +8,7 @@ #define i_native_cmp #include -int main() { +int main(void) { const int n = 3000000; DList list = {0}; diff --git a/misc/examples/list_erase.c b/misc/examples/list_erase.c index 357dd75b..211c5a5d 100644 --- a/misc/examples/list_erase.c +++ b/misc/examples/list_erase.c @@ -5,7 +5,7 @@ #define i_key int #include -int main () +int main(void) { IList L = c_init(IList, {10, 20, 30, 40, 50}); diff --git a/misc/examples/list_splice.c b/misc/examples/list_splice.c index 25c2a42d..f1fd6e1f 100644 --- a/misc/examples/list_splice.c +++ b/misc/examples/list_splice.c @@ -13,7 +13,7 @@ void print_ilist(const char* s, clist_i list) puts(""); } -int main () +int main(void) { clist_i list1 = c_init(clist_i, {1, 2, 3, 4, 5}); clist_i list2 = c_init(clist_i, {10, 20, 30, 40, 50}); diff --git a/misc/examples/lower_bound.c b/misc/examples/lower_bound.c index ee32f49b..e5d816e9 100644 --- a/misc/examples/lower_bound.c +++ b/misc/examples/lower_bound.c @@ -7,7 +7,7 @@ #define i_key int #include -int main() +int main(void) { // TEST SORTED VECTOR { diff --git a/misc/examples/mmap.c b/misc/examples/mmap.c index fd00499c..04a605a7 100644 --- a/misc/examples/mmap.c +++ b/misc/examples/mmap.c @@ -30,7 +30,7 @@ void insert(Multimap* mmap, int key, const char* str) clist_str_emplace_back(list, str); } -int main() +int main(void) { Multimap mmap = {0}; diff --git a/misc/examples/multidim.c b/misc/examples/multidim.c index 45b97378..798a1126 100644 --- a/misc/examples/multidim.c +++ b/misc/examples/multidim.c @@ -6,7 +6,7 @@ using_cspan3(ispan, int); -int main() +int main(void) { cstack_int v = c_init(cstack_int, {1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24}); diff --git a/misc/examples/multimap.c b/misc/examples/multimap.c index a89b251b..1068a5dc 100644 --- a/misc/examples/multimap.c +++ b/misc/examples/multimap.c @@ -66,7 +66,7 @@ void OlympicLoc_drop(OlympicLoc* self) { } -int main() +int main(void) { // Define the multimap with destructor defered to when block is completed. csmap_OL multimap = {0}; diff --git a/misc/examples/music_arc.c b/misc/examples/music_arc.c index 49008523..16111b0b 100644 --- a/misc/examples/music_arc.c +++ b/misc/examples/music_arc.c @@ -31,7 +31,7 @@ void Song_drop(Song* s) { #define i_keyboxed SongArc // use i_keyboxed on carc / cbox (instead of i_key) #include -void example3() +void example3(void) { SongVec vec1 = c_init(SongVec, { Song_make("Bob Dylan", "The Times They Are A Changing"), @@ -61,7 +61,7 @@ void example3() c_drop(SongVec, &vec1, &vec2); } -int main() +int main(void) { example3(); } diff --git a/misc/examples/new_list.c b/misc/examples/new_list.c index ee250b2b..9676e7b4 100644 --- a/misc/examples/new_list.c +++ b/misc/examples/new_list.c @@ -43,7 +43,7 @@ void MyStruct_drop(MyStruct* s) { } -int main() +int main(void) { MyStruct my = {0}; clist_i32_push_back(&my.intlist, 123); diff --git a/misc/examples/new_map.c b/misc/examples/new_map.c index 277bcbc2..de990040 100644 --- a/misc/examples/new_map.c +++ b/misc/examples/new_map.c @@ -41,7 +41,7 @@ int point_cmp(const Point* a, const Point* b) { #include -int main() +int main(void) { cmap_pnt pmap = c_init(cmap_pnt, {{{42, 14}, 1}, {{32, 94}, 2}, {{62, 81}, 3}}); diff --git a/misc/examples/new_pque.c b/misc/examples/new_pque.c index 3df39e0e..16823bb6 100644 --- a/misc/examples/new_pque.c +++ b/misc/examples/new_pque.c @@ -8,7 +8,7 @@ typedef struct Point { int x, y; } Point; #include -int main() +int main(void) { PointQ pque = c_init(PointQ, {{23, 80}, {12, 32}, {54, 74}, {12, 62}}); // print diff --git a/misc/examples/new_queue.c b/misc/examples/new_queue.c index 104871bf..f3592df6 100644 --- a/misc/examples/new_queue.c +++ b/misc/examples/new_queue.c @@ -20,7 +20,7 @@ int point_cmp(const Point* a, const Point* b) { #define i_key int #include -int main() { +int main(void) { int n = 50000000; crand_t rng = crand_init((uint64_t)time(NULL)); crand_unif_t dist = crand_unif_init(0, n); diff --git a/misc/examples/new_smap.c b/misc/examples/new_smap.c index 77c4cdce..ee946c9a 100644 --- a/misc/examples/new_smap.c +++ b/misc/examples/new_smap.c @@ -36,7 +36,7 @@ int point_cmp(const Point* a, const Point* b) { #include -int main() +int main(void) { PMap pmap = c_init(PMap, { {{42, 14}, 1}, diff --git a/misc/examples/new_vec.c b/misc/examples/new_vec.c index 6d928cfc..88efd55a 100644 --- a/misc/examples/new_vec.c +++ b/misc/examples/new_vec.c @@ -23,7 +23,7 @@ typedef struct Point { int x, y; } Point; #define i_is_forward #include -int main() +int main(void) { MyStruct my = {0}; diff --git a/misc/examples/person_arc.c b/misc/examples/person_arc.c index 3a759610..38c883a7 100644 --- a/misc/examples/person_arc.c +++ b/misc/examples/person_arc.c @@ -39,7 +39,7 @@ void Person_drop(Person* p) { #include -int main() +int main(void) { PSPtr p = PSPtr_from(Person_make("Laura", "Palmer")); PSPtr q = PSPtr_from(Person_clone(*p.get)); // deep copy diff --git a/misc/examples/printspan.c b/misc/examples/printspan.c index 5084536a..cd3c5f4f 100644 --- a/misc/examples/printspan.c +++ b/misc/examples/printspan.c @@ -20,7 +20,7 @@ void printMe(intspan container) { puts(""); } -int main() +int main(void) { intspan sp1 = cspan_init(intspan, {1, 2}); printMe( sp1 ); diff --git a/misc/examples/priority.c b/misc/examples/priority.c index 148e8fc5..bf2e188a 100644 --- a/misc/examples/priority.c +++ b/misc/examples/priority.c @@ -8,7 +8,7 @@ #define i_tag i #include -int main() { +int main(void) { intptr_t N = 10000000; crand_t rng = crand_init((uint64_t)time(NULL)); crand_unif_t dist = crand_unif_init(0, N * 10); diff --git a/misc/examples/queue.c b/misc/examples/queue.c index 3154f115..56b5beb9 100644 --- a/misc/examples/queue.c +++ b/misc/examples/queue.c @@ -5,7 +5,7 @@ #define i_tag i #include -int main() { +int main(void) { int n = 100000000; crand_unif_t dist; crand_t rng = crand_init(1234); diff --git a/misc/examples/random.c b/misc/examples/random.c index e783fe55..b7c0f277 100644 --- a/misc/examples/random.c +++ b/misc/examples/random.c @@ -2,7 +2,7 @@ #include #include -int main() +int main(void) { const int N = 1000000000; const uint64_t seed = (uint64_t)time(NULL), range = 1000000; diff --git a/misc/examples/rawptr_elements.c b/misc/examples/rawptr_elements.c index 9c394d8e..694ce12e 100644 --- a/misc/examples/rawptr_elements.c +++ b/misc/examples/rawptr_elements.c @@ -25,7 +25,7 @@ #define i_valboxed IBox // i_valboxed: use properties from IBox automatically #include -int main() +int main(void) { // These have the same behaviour, except IBox has a get member: SIPtrMap map1 = {0}; diff --git a/misc/examples/read.c b/misc/examples/read.c index c25cd740..b12f7409 100644 --- a/misc/examples/read.c +++ b/misc/examples/read.c @@ -15,7 +15,7 @@ cvec_str read_file(const char* name) return vec; } -int main() +int main(void) { int n = 0; c_with (cvec_str vec = read_file(__FILE__), cvec_str_drop(&vec)) diff --git a/misc/examples/regex2.c b/misc/examples/regex2.c index 734190cb..a798b1a1 100644 --- a/misc/examples/regex2.c +++ b/misc/examples/regex2.c @@ -1,7 +1,7 @@ #define i_import #include -int main() +int main(void) { struct { const char *pattern, *input; } s[] = { {"(\\d\\d\\d\\d)[-_](1[0-2]|0[1-9])[-_](3[01]|[12][0-9]|0[1-9])", diff --git a/misc/examples/regex_match.c b/misc/examples/regex_match.c index 88d3747b..11426d2d 100644 --- a/misc/examples/regex_match.c +++ b/misc/examples/regex_match.c @@ -6,7 +6,7 @@ #define i_key float #include -int main() +int main(void) { // Lets find the first sequence of digits in a string const char *str = "Hello numeric world, there are 24 hours in a day, 3600 seconds in an hour." diff --git a/misc/examples/regex_replace.c b/misc/examples/regex_replace.c index 76664b1b..f1ea2711 100644 --- a/misc/examples/regex_replace.c +++ b/misc/examples/regex_replace.c @@ -12,7 +12,7 @@ bool add_10_years(int i, csview match, cstr* out) { return false; } -int main() +int main(void) { const char* pattern = "\\b(\\d\\d\\d\\d)-(1[0-2]|0[1-9])-(3[01]|[12][0-9]|0[1-9])\\b"; const char* input = "start date: 2015-12-31, end date: 2022-02-28"; diff --git a/misc/examples/replace.c b/misc/examples/replace.c index 9ac26c07..59a56bf7 100644 --- a/misc/examples/replace.c +++ b/misc/examples/replace.c @@ -1,7 +1,7 @@ #define i_implement #include -int main () +int main(void) { const char *base = "this is a test string."; const char *s2 = "n example"; diff --git a/misc/examples/scheduler.c b/misc/examples/scheduler.c index d812ff42..38defd0f 100644 --- a/misc/examples/scheduler.c +++ b/misc/examples/scheduler.c @@ -68,7 +68,7 @@ void Use(void) Scheduler_drop(&scheduler); } -int main() +int main(void) { Use(); } diff --git a/misc/examples/sidebyside.cpp b/misc/examples/sidebyside.cpp index a7c1008c..9414b691 100644 --- a/misc/examples/sidebyside.cpp +++ b/misc/examples/sidebyside.cpp @@ -13,7 +13,7 @@ #define i_val int #include -int main() { +int main(void) { { std::map hist; hist.emplace(12, 100).first->second += 1; diff --git a/misc/examples/sorted_map.c b/misc/examples/sorted_map.c index ff727632..89381554 100644 --- a/misc/examples/sorted_map.c +++ b/misc/examples/sorted_map.c @@ -5,7 +5,7 @@ #define i_val int #include -int main() +int main(void) { // empty map containers diff --git a/misc/examples/splitstr.c b/misc/examples/splitstr.c index 32b5f17f..ef7ed174 100644 --- a/misc/examples/splitstr.c +++ b/misc/examples/splitstr.c @@ -4,7 +4,7 @@ #define i_implement #include -int main() +int main(void) { puts("Split with c_fortoken (csview):"); diff --git a/misc/examples/sso_map.c b/misc/examples/sso_map.c index b78dcb2e..4f84b651 100644 --- a/misc/examples/sso_map.c +++ b/misc/examples/sso_map.c @@ -4,7 +4,7 @@ #define i_val_str #include -int main() +int main(void) { cmap_str m = {0}; cmap_str_emplace(&m, "Test short", "This is a short string"); diff --git a/misc/examples/sso_substr.c b/misc/examples/sso_substr.c index 9b062eed..687658df 100644 --- a/misc/examples/sso_substr.c +++ b/misc/examples/sso_substr.c @@ -3,7 +3,7 @@ #define i_implement #include -int main () +int main(void) { cstr str = cstr_lit("We think in generalities, but we live in details."); csview sv1 = cstr_substr_ex(&str, 3, 5); // "think" diff --git a/misc/examples/stack.c b/misc/examples/stack.c index 96bab24b..6297fb6f 100644 --- a/misc/examples/stack.c +++ b/misc/examples/stack.c @@ -10,7 +10,7 @@ #define i_key char #include -int main() { +int main(void) { cstack_i stack = {0}; cstack_c chars = {0}; diff --git a/misc/examples/sview_split.c b/misc/examples/sview_split.c index 782e4096..ac275da0 100644 --- a/misc/examples/sview_split.c +++ b/misc/examples/sview_split.c @@ -3,7 +3,7 @@ #define i_implement #include -int main() +int main(void) { // No memory allocations or string length calculations! const csview date = c_sv("2021/03/12"); diff --git a/misc/examples/triples.c b/misc/examples/triples.c index a8ca6b47..9f2fcc1e 100644 --- a/misc/examples/triples.c +++ b/misc/examples/triples.c @@ -52,7 +52,7 @@ int triples_coro(struct triples* t) { return 0; } -int main() +int main(void) { puts("Vanilla triples:"); triples_vanilla(5); diff --git a/misc/examples/unordered_set.c b/misc/examples/unordered_set.c index 14d69ce5..dd899d78 100644 --- a/misc/examples/unordered_set.c +++ b/misc/examples/unordered_set.c @@ -5,7 +5,7 @@ #define i_key_str #include -int main() +int main(void) { // declaring set for storing string data-type cset_str stringSet = {0}; diff --git a/misc/examples/utf8replace_c.c b/misc/examples/utf8replace_c.c index 17352fee..1d54486f 100644 --- a/misc/examples/utf8replace_c.c +++ b/misc/examples/utf8replace_c.c @@ -1,7 +1,7 @@ #define i_implement #include -int main() +int main(void) { cstr hello = cstr_lit("hell😀 w😀rld"); printf("%s\n", cstr_str(&hello)); diff --git a/misc/examples/vikings.c b/misc/examples/vikings.c index d9024052..d6125854 100644 --- a/misc/examples/vikings.c +++ b/misc/examples/vikings.c @@ -41,7 +41,7 @@ static inline RViking Viking_toraw(const Viking* vp) { #define i_val int // mapped type #include -int main() +int main(void) { Vikings vikings = {0}; Vikings_emplace(&vikings, c_LITERAL(RViking){"Einar", "Norway"}, 20); -- cgit v1.2.3 From dd87a488eeeffa41a06757dda2220da21337a35e Mon Sep 17 00:00:00 2001 From: tylov Date: Sun, 23 Jul 2023 23:51:02 +0200 Subject: - algo/sort.h: Use plural form of i_key (or i_val) to define default name for sort, like: s_sort_n(data, n). - Updated some examples. --- include/stc/algo/sort.h | 2 +- misc/examples/coroutines/cotasks2.c | 35 ++++++++++------------ misc/examples/coroutines/triples.c | 51 +++++++++++++++++---------------- misc/examples/smartpointers/music_arc.c | 12 ++++---- 4 files changed, 49 insertions(+), 51 deletions(-) (limited to 'include/stc/algo/sort.h') diff --git a/include/stc/algo/sort.h b/include/stc/algo/sort.h index 06d7395f..86c9b9f1 100644 --- a/include/stc/algo/sort.h +++ b/include/stc/algo/sort.h @@ -70,7 +70,7 @@ int main(void) { #ifndef i_tag #define i_tag i_key #endif - #define i_type c_PASTE(i_tag, array) + #define i_type c_PASTE(i_tag, s) typedef i_key i_type; #endif #ifndef i_at diff --git a/misc/examples/coroutines/cotasks2.c b/misc/examples/coroutines/cotasks2.c index 24a9f23f..4fdf98d9 100644 --- a/misc/examples/coroutines/cotasks2.c +++ b/misc/examples/coroutines/cotasks2.c @@ -42,18 +42,20 @@ int produce_items(struct produce_items* p, cco_runtime* rt) { cco_routine (p) { p->str = cstr_null; + p->next.cco_func = next_value; while (true) { - // await for next CCO_YIELD in next_value() + // await for next CCO_YIELD (or CCO_DONE) in next_value cco_task_await(&p->next, rt, CCO_YIELD); cstr_printf(&p->str, "item %d", p->next.val); print_time(); printf("produced %s\n", cstr_str(&p->str)); cco_yield(); } + cco_cleanup: - cstr_drop(&p->str); - puts("done produce"); + cstr_drop(&p->str); + puts("done produce"); } return 0; } @@ -68,6 +70,8 @@ cco_task_struct (consume_items, int consume_items(struct consume_items* c, cco_runtime* rt) { cco_routine (c) { + c->produce.cco_func = produce_items; + for (c->i = 1; c->i <= c->n; ++c->i) { printf("consume #%d\n", c->i); @@ -75,10 +79,11 @@ int consume_items(struct consume_items* c, cco_runtime* rt) print_time(); printf("consumed %s\n", cstr_str(&c->produce.str)); } + cco_cleanup: - cco_stop(&c->produce); - cco_task_resume(&c->produce, rt); - puts("done consume"); + cco_stop(&c->produce); + cco_task_resume(&c->produce, rt); + puts("done consume"); } return 0; } @@ -86,18 +91,8 @@ int consume_items(struct consume_items* c, cco_runtime* rt) int main(void) { struct consume_items consume = { - .n=5, - .cco_func=consume_items, - .produce={.cco_func=produce_items, .next={.cco_func=next_value}}, + .cco_func = consume_items, + .n = 5, }; - int count = 0; - - cco_task_blocking(&consume) - { - ++count; - //cco_sleep(0.001); - //if (consume.i == 3) - // cco_stop(&consume); - } - printf("count: %d\n", count); -} \ No newline at end of file + cco_task_blocking(&consume); +} diff --git a/misc/examples/coroutines/triples.c b/misc/examples/coroutines/triples.c index fe1ca7c3..9fd771ce 100644 --- a/misc/examples/coroutines/triples.c +++ b/misc/examples/coroutines/triples.c @@ -3,22 +3,14 @@ #include #include -int gcd(int a, int b) { - while (b) { - int t = a % b; - a = b; - b = t; - } - return a; -} - -void triples_vanilla(int n) { - for (int c = 5, i = 0; n; ++c) { +void triples_vanilla(int max_c) { + for (int c = 5, i = 0;; ++c) { for (int a = 1; a < c; ++a) { for (int b = a + 1; b < c; ++b) { - if ((int64_t)a*a + (int64_t)b*b == (int64_t)c*c && gcd(a, b) == 1) { + if ((int64_t)a*a + (int64_t)b*b == (int64_t)c*c) { + if (c > max_c) + goto done; printf("%d: {%d, %d, %d}\n", ++i, a, b, c); - if (--n == 0) goto done; } } } @@ -27,19 +19,21 @@ void triples_vanilla(int n) { } struct triples { - int size, count; + int max_c; int a, b, c; int cco_state; }; int triples_coro(struct triples* t) { cco_routine(t) { - t->count = 0; - for (t->c = 5; t->size; ++t->c) { + for (t->c = 5;; ++t->c) { for (t->a = 1; t->a < t->c; ++t->a) { for (t->b = t->a + 1; t->b < t->c; ++t->b) { - if ((int64_t)t->a*t->a + (int64_t)t->b*t->b == (int64_t)t->c*t->c) { - if (t->count++ == t->size) + if ((int64_t)t->a * t->a + + (int64_t)t->b * t->b == + (int64_t)t->c * t->c) + { + if (t->c > t->max_c) cco_return; cco_yield(); } @@ -52,20 +46,29 @@ int triples_coro(struct triples* t) { return 0; } +int gcd(int a, int b) { + while (b) { + int t = a % b; + a = b; + b = t; + } + return a; +} + int main(void) { puts("Vanilla triples:"); - triples_vanilla(5); + triples_vanilla(20); - puts("\nCoroutine triples:"); - struct triples t = {.size=INT32_MAX}; + puts("\nCoroutine triples with GCD = 1:"); + struct triples t = {.max_c = 100}; int n = 0; - while (triples_coro(&t)) { + cco_call_blocking(triples_coro(&t)) { if (gcd(t.a, t.b) > 1) continue; - if (t.c < 100) - printf("%d: {%d, %d, %d}\n", ++n, t.a, t.b, t.c); + if (++n <= 20) + printf("%d: {%d, %d, %d}\n", n, t.a, t.b, t.c); else cco_stop(&t); } diff --git a/misc/examples/smartpointers/music_arc.c b/misc/examples/smartpointers/music_arc.c index 16111b0b..13d368c3 100644 --- a/misc/examples/smartpointers/music_arc.c +++ b/misc/examples/smartpointers/music_arc.c @@ -12,7 +12,7 @@ typedef struct int Song_cmp(const Song* x, const Song* y) { return cstr_cmp(&x->title, &y->title); } -Song Song_make(const char* artist, const char* title) +Song Song_init(const char* artist, const char* title) { return c_LITERAL(Song){cstr_from(artist), cstr_from(title)}; } void Song_drop(Song* s) { @@ -34,9 +34,9 @@ void Song_drop(Song* s) { void example3(void) { SongVec vec1 = c_init(SongVec, { - Song_make("Bob Dylan", "The Times They Are A Changing"), - Song_make("Aretha Franklin", "Bridge Over Troubled Water"), - Song_make("Thalia", "Entre El Mar y Una Estrella") + Song_init("Bob Dylan", "The Times They Are A Changing"), + Song_init("Aretha Franklin", "Bridge Over Troubled Water"), + Song_init("Thalia", "Entre El Mar y Una Estrella") }); SongVec vec2 = {0}; @@ -47,8 +47,8 @@ void example3(void) // Add a few more to vec2. We can use emplace when creating new entries // Emplace calls SongArc_from() on the argument to create the Arc: - SongVec_emplace(&vec2, Song_make("Michael Jackson", "Billie Jean")); - SongVec_emplace(&vec2, Song_make("Rihanna", "Stay")); + SongVec_emplace(&vec2, Song_init("Michael Jackson", "Billie Jean")); + SongVec_emplace(&vec2, Song_init("Rihanna", "Stay")); // We now have two vectors with some shared, some unique entries. c_forlist (i, SongVec, {vec1, vec2}) { -- cgit v1.2.3