initial commit

vendor/mpc.h

@@ -0,0 +1,391 @@
+/*
+** mpc - Micro Parser Combinator library for C
+**
+** https://github.com/orangeduck/mpc
+**
+** Daniel Holden - contact@daniel-holden.com
+** Licensed under BSD3
+*/
+
+#ifndef mpc_h
+#define mpc_h
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <stdarg.h>
+#include <string.h>
+#include <math.h>
+#include <errno.h>
+#include <ctype.h>
+
+/*
+** State Type
+*/
+
+typedef struct {
+  long pos;
+  long row;
+  long col;
+  int term;
+} mpc_state_t;
+
+/*
+** Error Type
+*/
+
+typedef struct {
+  mpc_state_t state;
+  int expected_num;
+  char *filename;
+  char *failure;
+  char **expected;
+  char received;
+} mpc_err_t;
+
+void mpc_err_delete(mpc_err_t *e);
+char *mpc_err_string(mpc_err_t *e);
+void mpc_err_print(mpc_err_t *e);
+void mpc_err_print_to(mpc_err_t *e, FILE *f);
+
+/*
+** Parsing
+*/
+
+typedef void mpc_val_t;
+
+typedef union {
+  mpc_err_t *error;
+  mpc_val_t *output;
+} mpc_result_t;
+
+struct mpc_parser_t;
+typedef struct mpc_parser_t mpc_parser_t;
+
+int mpc_parse(const char *filename, const char *string, mpc_parser_t *p, mpc_result_t *r);
+int mpc_nparse(const char *filename, const char *string, size_t length, mpc_parser_t *p, mpc_result_t *r);
+int mpc_parse_file(const char *filename, FILE *file, mpc_parser_t *p, mpc_result_t *r);
+int mpc_parse_pipe(const char *filename, FILE *pipe, mpc_parser_t *p, mpc_result_t *r);
+int mpc_parse_contents(const char *filename, mpc_parser_t *p, mpc_result_t *r);
+
+/*
+** Function Types
+*/
+
+typedef void(*mpc_dtor_t)(mpc_val_t*);
+typedef mpc_val_t*(*mpc_ctor_t)(void);
+
+typedef mpc_val_t*(*mpc_apply_t)(mpc_val_t*);
+typedef mpc_val_t*(*mpc_apply_to_t)(mpc_val_t*,void*);
+typedef mpc_val_t*(*mpc_fold_t)(int,mpc_val_t**);
+
+typedef int(*mpc_check_t)(mpc_val_t**);
+typedef int(*mpc_check_with_t)(mpc_val_t**,void*);
+
+/*
+** Building a Parser
+*/
+
+mpc_parser_t *mpc_new(const char *name);
+mpc_parser_t *mpc_copy(mpc_parser_t *a);
+mpc_parser_t *mpc_define(mpc_parser_t *p, mpc_parser_t *a);
+mpc_parser_t *mpc_undefine(mpc_parser_t *p);
+
+void mpc_delete(mpc_parser_t *p);
+void mpc_cleanup(int n, ...);
+
+/*
+** Basic Parsers
+*/
+
+mpc_parser_t *mpc_any(void);
+mpc_parser_t *mpc_char(char c);
+mpc_parser_t *mpc_range(char s, char e);
+mpc_parser_t *mpc_oneof(const char *s);
+mpc_parser_t *mpc_noneof(const char *s);
+mpc_parser_t *mpc_satisfy(int(*f)(char));
+mpc_parser_t *mpc_string(const char *s);
+
+/*
+** Other Parsers
+*/
+
+mpc_parser_t *mpc_pass(void);
+mpc_parser_t *mpc_fail(const char *m);
+mpc_parser_t *mpc_failf(const char *fmt, ...);
+mpc_parser_t *mpc_lift(mpc_ctor_t f);
+mpc_parser_t *mpc_lift_val(mpc_val_t *x);
+mpc_parser_t *mpc_anchor(int(*f)(char,char));
+mpc_parser_t *mpc_state(void);
+
+/*
+** Combinator Parsers
+*/
+
+mpc_parser_t *mpc_expect(mpc_parser_t *a, const char *e);
+mpc_parser_t *mpc_expectf(mpc_parser_t *a, const char *fmt, ...);
+mpc_parser_t *mpc_apply(mpc_parser_t *a, mpc_apply_t f);
+mpc_parser_t *mpc_apply_to(mpc_parser_t *a, mpc_apply_to_t f, void *x);
+mpc_parser_t *mpc_check(mpc_parser_t *a, mpc_dtor_t da, mpc_check_t f, const char *e);
+mpc_parser_t *mpc_check_with(mpc_parser_t *a, mpc_dtor_t da, mpc_check_with_t f, void *x, const char *e);
+mpc_parser_t *mpc_checkf(mpc_parser_t *a, mpc_dtor_t da, mpc_check_t f, const char *fmt, ...);
+mpc_parser_t *mpc_check_withf(mpc_parser_t *a, mpc_dtor_t da, mpc_check_with_t f, void *x, const char *fmt, ...);
+
+mpc_parser_t *mpc_not(mpc_parser_t *a, mpc_dtor_t da);
+mpc_parser_t *mpc_not_lift(mpc_parser_t *a, mpc_dtor_t da, mpc_ctor_t lf);
+mpc_parser_t *mpc_maybe(mpc_parser_t *a);
+mpc_parser_t *mpc_maybe_lift(mpc_parser_t *a, mpc_ctor_t lf);
+
+mpc_parser_t *mpc_many(mpc_fold_t f, mpc_parser_t *a);
+mpc_parser_t *mpc_many1(mpc_fold_t f, mpc_parser_t *a);
+mpc_parser_t *mpc_count(int n, mpc_fold_t f, mpc_parser_t *a, mpc_dtor_t da);
+
+mpc_parser_t *mpc_or(int n, ...);
+mpc_parser_t *mpc_and(int n, mpc_fold_t f, ...);
+
+mpc_parser_t *mpc_predictive(mpc_parser_t *a);
+
+/*
+** Common Parsers
+*/
+
+mpc_parser_t *mpc_eoi(void);
+mpc_parser_t *mpc_soi(void);
+
+mpc_parser_t *mpc_boundary(void);
+mpc_parser_t *mpc_boundary_newline(void);
+
+mpc_parser_t *mpc_whitespace(void);
+mpc_parser_t *mpc_whitespaces(void);
+mpc_parser_t *mpc_blank(void);
+
+mpc_parser_t *mpc_newline(void);
+mpc_parser_t *mpc_tab(void);
+mpc_parser_t *mpc_escape(void);
+
+mpc_parser_t *mpc_digit(void);
+mpc_parser_t *mpc_hexdigit(void);
+mpc_parser_t *mpc_octdigit(void);
+mpc_parser_t *mpc_digits(void);
+mpc_parser_t *mpc_hexdigits(void);
+mpc_parser_t *mpc_octdigits(void);
+
+mpc_parser_t *mpc_lower(void);
+mpc_parser_t *mpc_upper(void);
+mpc_parser_t *mpc_alpha(void);
+mpc_parser_t *mpc_underscore(void);
+mpc_parser_t *mpc_alphanum(void);
+
+mpc_parser_t *mpc_int(void);
+mpc_parser_t *mpc_hex(void);
+mpc_parser_t *mpc_oct(void);
+mpc_parser_t *mpc_number(void);
+
+mpc_parser_t *mpc_real(void);
+mpc_parser_t *mpc_float(void);
+
+mpc_parser_t *mpc_char_lit(void);
+mpc_parser_t *mpc_string_lit(void);
+mpc_parser_t *mpc_regex_lit(void);
+
+mpc_parser_t *mpc_ident(void);
+
+/*
+** Useful Parsers
+*/
+
+mpc_parser_t *mpc_startwith(mpc_parser_t *a);
+mpc_parser_t *mpc_endwith(mpc_parser_t *a, mpc_dtor_t da);
+mpc_parser_t *mpc_whole(mpc_parser_t *a, mpc_dtor_t da);
+
+mpc_parser_t *mpc_stripl(mpc_parser_t *a);
+mpc_parser_t *mpc_stripr(mpc_parser_t *a);
+mpc_parser_t *mpc_strip(mpc_parser_t *a);
+mpc_parser_t *mpc_tok(mpc_parser_t *a);
+mpc_parser_t *mpc_sym(const char *s);
+mpc_parser_t *mpc_total(mpc_parser_t *a, mpc_dtor_t da);
+
+mpc_parser_t *mpc_between(mpc_parser_t *a, mpc_dtor_t ad, const char *o, const char *c);
+mpc_parser_t *mpc_parens(mpc_parser_t *a, mpc_dtor_t ad);
+mpc_parser_t *mpc_braces(mpc_parser_t *a, mpc_dtor_t ad);
+mpc_parser_t *mpc_brackets(mpc_parser_t *a, mpc_dtor_t ad);
+mpc_parser_t *mpc_squares(mpc_parser_t *a, mpc_dtor_t ad);
+
+mpc_parser_t *mpc_tok_between(mpc_parser_t *a, mpc_dtor_t ad, const char *o, const char *c);
+mpc_parser_t *mpc_tok_parens(mpc_parser_t *a, mpc_dtor_t ad);
+mpc_parser_t *mpc_tok_braces(mpc_parser_t *a, mpc_dtor_t ad);
+mpc_parser_t *mpc_tok_brackets(mpc_parser_t *a, mpc_dtor_t ad);
+mpc_parser_t *mpc_tok_squares(mpc_parser_t *a, mpc_dtor_t ad);
+
+mpc_parser_t *mpc_sepby1(mpc_fold_t f, mpc_parser_t *sep, mpc_parser_t *a);
+
+/*
+** Common Function Parameters
+*/
+
+void mpcf_dtor_null(mpc_val_t *x);
+
+mpc_val_t *mpcf_ctor_null(void);
+mpc_val_t *mpcf_ctor_str(void);
+
+mpc_val_t *mpcf_free(mpc_val_t *x);
+mpc_val_t *mpcf_int(mpc_val_t *x);
+mpc_val_t *mpcf_hex(mpc_val_t *x);
+mpc_val_t *mpcf_oct(mpc_val_t *x);
+mpc_val_t *mpcf_float(mpc_val_t *x);
+mpc_val_t *mpcf_strtriml(mpc_val_t *x);
+mpc_val_t *mpcf_strtrimr(mpc_val_t *x);
+mpc_val_t *mpcf_strtrim(mpc_val_t *x);
+
+mpc_val_t *mpcf_escape(mpc_val_t *x);
+mpc_val_t *mpcf_escape_regex(mpc_val_t *x);
+mpc_val_t *mpcf_escape_string_raw(mpc_val_t *x);
+mpc_val_t *mpcf_escape_char_raw(mpc_val_t *x);
+
+mpc_val_t *mpcf_unescape(mpc_val_t *x);
+mpc_val_t *mpcf_unescape_regex(mpc_val_t *x);
+mpc_val_t *mpcf_unescape_string_raw(mpc_val_t *x);
+mpc_val_t *mpcf_unescape_char_raw(mpc_val_t *x);
+
+mpc_val_t *mpcf_null(int n, mpc_val_t** xs);
+mpc_val_t *mpcf_fst(int n, mpc_val_t** xs);
+mpc_val_t *mpcf_snd(int n, mpc_val_t** xs);
+mpc_val_t *mpcf_trd(int n, mpc_val_t** xs);
+
+mpc_val_t *mpcf_fst_free(int n, mpc_val_t** xs);
+mpc_val_t *mpcf_snd_free(int n, mpc_val_t** xs);
+mpc_val_t *mpcf_trd_free(int n, mpc_val_t** xs);
+mpc_val_t *mpcf_all_free(int n, mpc_val_t** xs);
+
+mpc_val_t *mpcf_freefold(int n, mpc_val_t** xs);
+mpc_val_t *mpcf_strfold(int n, mpc_val_t** xs);
+
+/*
+** Regular Expression Parsers
+*/
+
+enum {
+  MPC_RE_DEFAULT   = 0,
+  MPC_RE_M         = 1,
+  MPC_RE_S         = 2,
+  MPC_RE_MULTILINE = 1,
+  MPC_RE_DOTALL    = 2
+};
+
+mpc_parser_t *mpc_re(const char *re);
+mpc_parser_t *mpc_re_mode(const char *re, int mode);
+
+/*
+** AST
+*/
+
+typedef struct mpc_ast_t {
+  char *tag;
+  char *contents;
+  mpc_state_t state;
+  int children_num;
+  struct mpc_ast_t** children;
+} mpc_ast_t;
+
+mpc_ast_t *mpc_ast_new(const char *tag, const char *contents);
+mpc_ast_t *mpc_ast_build(int n, const char *tag, ...);
+mpc_ast_t *mpc_ast_add_root(mpc_ast_t *a);
+mpc_ast_t *mpc_ast_add_child(mpc_ast_t *r, mpc_ast_t *a);
+mpc_ast_t *mpc_ast_add_tag(mpc_ast_t *a, const char *t);
+mpc_ast_t *mpc_ast_add_root_tag(mpc_ast_t *a, const char *t);
+mpc_ast_t *mpc_ast_tag(mpc_ast_t *a, const char *t);
+mpc_ast_t *mpc_ast_state(mpc_ast_t *a, mpc_state_t s);
+
+void mpc_ast_delete(mpc_ast_t *a);
+void mpc_ast_print(mpc_ast_t *a);
+void mpc_ast_print_to(mpc_ast_t *a, FILE *fp);
+
+int mpc_ast_get_index(mpc_ast_t *ast, const char *tag);
+int mpc_ast_get_index_lb(mpc_ast_t *ast, const char *tag, int lb);
+mpc_ast_t *mpc_ast_get_child(mpc_ast_t *ast, const char *tag);
+mpc_ast_t *mpc_ast_get_child_lb(mpc_ast_t *ast, const char *tag, int lb);
+
+typedef enum {
+  mpc_ast_trav_order_pre,
+  mpc_ast_trav_order_post
+} mpc_ast_trav_order_t;
+
+typedef struct mpc_ast_trav_t {
+  mpc_ast_t             *curr_node;
+  struct mpc_ast_trav_t *parent;
+  int                    curr_child;
+  mpc_ast_trav_order_t   order;
+} mpc_ast_trav_t;
+
+mpc_ast_trav_t *mpc_ast_traverse_start(mpc_ast_t *ast,
+                                       mpc_ast_trav_order_t order);
+
+mpc_ast_t *mpc_ast_traverse_next(mpc_ast_trav_t **trav);
+
+void mpc_ast_traverse_free(mpc_ast_trav_t **trav);
+
+/*
+** Warning: This function currently doesn't test for equality of the `state` member!
+*/
+int mpc_ast_eq(mpc_ast_t *a, mpc_ast_t *b);
+
+mpc_val_t *mpcf_fold_ast(int n, mpc_val_t **as);
+mpc_val_t *mpcf_str_ast(mpc_val_t *c);
+mpc_val_t *mpcf_state_ast(int n, mpc_val_t **xs);
+
+mpc_parser_t *mpca_tag(mpc_parser_t *a, const char *t);
+mpc_parser_t *mpca_add_tag(mpc_parser_t *a, const char *t);
+mpc_parser_t *mpca_root(mpc_parser_t *a);
+mpc_parser_t *mpca_state(mpc_parser_t *a);
+mpc_parser_t *mpca_total(mpc_parser_t *a);
+
+mpc_parser_t *mpca_not(mpc_parser_t *a);
+mpc_parser_t *mpca_maybe(mpc_parser_t *a);
+
+mpc_parser_t *mpca_many(mpc_parser_t *a);
+mpc_parser_t *mpca_many1(mpc_parser_t *a);
+mpc_parser_t *mpca_count(int n, mpc_parser_t *a);
+
+mpc_parser_t *mpca_or(int n, ...);
+mpc_parser_t *mpca_and(int n, ...);
+
+enum {
+  MPCA_LANG_DEFAULT              = 0,
+  MPCA_LANG_PREDICTIVE           = 1,
+  MPCA_LANG_WHITESPACE_SENSITIVE = 2
+};
+
+mpc_parser_t *mpca_grammar(int flags, const char *grammar, ...);
+
+mpc_err_t *mpca_lang(int flags, const char *language, ...);
+mpc_err_t *mpca_lang_file(int flags, FILE *f, ...);
+mpc_err_t *mpca_lang_pipe(int flags, FILE *f, ...);
+mpc_err_t *mpca_lang_contents(int flags, const char *filename, ...);
+
+/*
+** Misc
+*/
+
+
+void mpc_print(mpc_parser_t *p);
+void mpc_optimise(mpc_parser_t *p);
+void mpc_stats(mpc_parser_t *p);
+
+int mpc_test_pass(mpc_parser_t *p, const char *s, const void *d,
+  int(*tester)(const void*, const void*),
+  mpc_dtor_t destructor,
+  void(*printer)(const void*));
+
+int mpc_test_fail(mpc_parser_t *p, const char *s, const void *d,
+  int(*tester)(const void*, const void*),
+  mpc_dtor_t destructor,
+  void(*printer)(const void*));
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif

vendor/yar.c

@@ -0,0 +1,2 @@
+#define YAR_IMPLEMENTATION
+#include "yar.h"

vendor/yar.h

@@ -0,0 +1,229 @@
+/* yar - dynamic arrays in C - public domain Nicholas Rixson 2025
+ *
+ * https://github.com/segcore/yar
+ *
+ * Licence: see end of file
+
+ Sample usage:
+    #define YAR_IMPLEMENTATION
+    #include "yar.h"
+
+    int main() {
+        // struct { double *items; size_t count; size_t capacity; } numbers = {0};
+        yar(double) numbers = {0};
+        *yar_append(&numbers) = 3.14159;
+        *yar_append(&numbers) = 2.71828;
+        *yar_append(&numbers) = 1.61803;
+
+        for(size_t i = 0; i < numbers.count; i++) {
+            printf("%f\n", numbers.items[i]);
+        }
+
+        yar_free(&numbers);
+    }
+ */
+#ifndef YAR_H
+#define YAR_H
+
+#include <stddef.h> // size_t
+#include <string.h> // strlen
+
+/*
+ * yar(type) - Declare a new basic dynamic array
+ *
+ * yar_append(array) - Add a new item at the end of the array, and return a pointer to it
+ *
+ * yar_reserve(array, extra) - Reserve space for `extra` count of items
+ *
+ * yar_append_many(array, data, num) - Append a copy of existing data
+ *
+ * yar_append_cstr(array, data) - Append a C string (nul-terminated char array)
+ *
+ * yar_insert(array, index, num) - Insert items somewhere within the array. Moves items to higher indexes as required. Returns &array[index]
+ *
+ * yar_remove(array, index, num) - Remove items from somewhere within the array. Moves items to lower indexes as required.
+ *
+ * yar_reset(array) - Reset the count of elements to 0, to re-use the memory. Does not free the memory.
+ *
+ * yar_init(array) - Set items, count, and capacity to 0. Can usually be avoided with <declaration> = {0};
+ *
+ * yar_free(array) - Free items memory, and set the items, count, and capacity to 0.
+ */
+
+#define yar(type)   struct { type *items; size_t count; size_t capacity; }
+#define yar_append(array)   ((_yar_append((void**)&(array)->items, &(array)->count, &(array)->capacity, sizeof((array)->items[0])) ? \
+                              &(array)->items[(array)->count - 1] : NULL))
+#define yar_reserve(array, extra)       ((_yar_reserve((void**)&(array)->items, &(array)->count, &(array)->capacity, sizeof((array)->items[0]), (extra)) ? \
+                                          &(array)->items[(array)->count] : NULL))
+#define yar_append_many(array, data, num)   ((_yar_append_many((void**)&(array)->items, &(array)->count, &(array)->capacity, sizeof((array)->items[0]), 1 ? (data) : ((array)->items), (num)) ))
+#define yar_append_cstr(array, data)        yar_append_many(array, data, strlen(data))
+#define yar_insert(array, index, num)       ((_yar_insert((void**)&(array)->items, &(array)->count, &(array)->capacity, sizeof((array)->items[0]), index, num) ))
+#define yar_remove(array, index, num)       ((_yar_remove((void**)&(array)->items, &(array)->count, sizeof((array)->items[0]), index, num) ))
+#define yar_reset(array)    (((array)->count = 0))
+#define yar_init(array)     ((array)->items = NULL, (array)->count = 0, (array)->capacity = 0)
+#define yar_free(array)     ((_yar_free((array)->items)), (array)->items = NULL, (array)->count = 0, (array)->capacity = 0)
+
+#ifndef YARAPI
+    #define YARAPI // nothing; overridable if needed.
+#endif
+
+#ifdef __cplusplus
+    extern "C" {
+#endif
+
+// Implementation functions
+YARAPI void* _yar_append(void** items_pointer, size_t* count, size_t* capacity, size_t item_size);
+YARAPI void* _yar_append_many(void** items_pointer, size_t* count, size_t* capacity, size_t item_size, void* data, size_t extra);
+YARAPI void* _yar_reserve(void** items_pointer, size_t* count, size_t* capacity, size_t item_size, size_t extra);
+YARAPI void* _yar_insert(void** items_pointer, size_t* count, size_t* capacity, size_t item_size, size_t index, size_t extra);
+YARAPI void* _yar_remove(void** items_pointer, size_t* count, size_t item_size, size_t index, size_t remove);
+YARAPI void* _yar_realloc(void* p, size_t new_size);
+YARAPI void _yar_free(void* p);
+
+#ifdef __cplusplus
+    }
+#endif
+
+#endif // YAR_H
+
+#if defined(YAR_IMPLEMENTATION)
+
+#ifndef YAR_MIN_CAP
+  #define YAR_MIN_CAP 16
+#endif
+
+#ifndef YAR_REALLOC
+  #define YAR_REALLOC realloc
+#endif
+
+#ifndef YAR_FREE
+  #define YAR_FREE free
+#endif
+
+#include <string.h> // mem* functions
+YARAPI void* _yar_append(void** items_pointer, size_t* count, size_t* capacity, size_t item_size)
+{
+    void* result = _yar_reserve(items_pointer, count, capacity, item_size, 1);
+    if (result != NULL) *count += 1;
+    return result;
+}
+
+YARAPI void* _yar_append_many(void** items_pointer, size_t* count, size_t* capacity, size_t item_size, void* data, size_t extra)
+{
+    void* result = _yar_reserve(items_pointer, count, capacity, item_size, extra);
+    if (result != NULL) {
+        memcpy(result, data, item_size * extra);
+        *count += extra;
+    }
+    return result;
+}
+
+YARAPI void* _yar_reserve(void** items_pointer, size_t* count, size_t* capacity, size_t item_size, size_t extra)
+{
+    char* items = *items_pointer;
+    size_t newcount = *count + extra;
+    if (newcount > *capacity) {
+        size_t newcap = (*capacity < YAR_MIN_CAP) ? YAR_MIN_CAP : *capacity * 8 / 5;
+        if (newcap < newcount) newcap = newcount;
+        void* next = _yar_realloc(items, newcap * item_size);
+        if (next == NULL) return NULL;
+        items = next;
+        *items_pointer = next;
+        *capacity = newcap;
+    }
+    void* result = items + (*count * item_size);
+    if (extra && result) memset(result, 0, item_size * extra);
+    return result;
+}
+
+YARAPI void* _yar_insert(void** items_pointer, size_t* count, size_t* capacity, size_t item_size, size_t index, size_t extra)
+{
+    void* next = _yar_reserve(items_pointer, count, capacity, item_size, extra);
+    if(next == NULL) return NULL;
+
+    char* items = *items_pointer;
+    if (index < *count)
+    {
+        memmove(&items[item_size * (index + extra)], &items[item_size * index], (*count - index) * item_size);
+        memset(&items[item_size * index], 0, extra * item_size);
+    }
+    *count += extra;
+    return items + index * item_size;
+}
+
+YARAPI void* _yar_remove(void** items_pointer, size_t* count, size_t item_size, size_t index, size_t remove)
+{
+    if(remove >= *count) {
+        *count = 0;
+        return *items_pointer;
+    }
+    if (index >= *count) {
+        return *items_pointer;
+    }
+    char* items = *items_pointer;
+    memmove(&items[item_size * index], &items[item_size * (index + remove)], item_size * (*count - (index + remove)));
+    *count -= remove;
+    return items + item_size * index;
+}
+
+YARAPI void* _yar_realloc(void* p, size_t new_size)
+{
+    // Declaration, so we can call it if the definition is overridden
+    extern void* YAR_REALLOC(void *ptr, size_t size);
+    return YAR_REALLOC(p, new_size);
+}
+
+YARAPI void _yar_free(void* p)
+{
+    extern void YAR_FREE(void *ptr);
+    YAR_FREE(p);
+}
+
+#endif // YAR_IMPLEMENTATION
+/*
+------------------------------------------------------------------------------
+This software is available under 2 licenses -- choose whichever you prefer.
+------------------------------------------------------------------------------
+ALTERNATIVE A - MIT License
+
+Copyright (c) 2025 Nicholas Rixson
+
+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.
+------------------------------------------------------------------------------
+ALTERNATIVE B - Public Domain (www.unlicense.org)
+This is free and unencumbered software released into the public domain.
+Anyone is free to copy, modify, publish, use, compile, sell, or distribute this
+software, either in source code form or as a compiled binary, for any purpose,
+commercial or non-commercial, and by any means.
+
+In jurisdictions that recognize copyright laws, the author or authors of this
+software dedicate any and all copyright interest in the software to the public
+domain. We make this dedication for the benefit of the public at large and to
+the detriment of our heirs and successors. We intend this dedication to be an
+overt act of relinquishment in perpetuity of all present and future rights to
+this software under copyright law.
+
+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 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.
+------------------------------------------------------------------------------
+*/