gb/gb.h

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/* gb.h - v0.03 - Ginger Bill's C Helper Library - public domain
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- no warranty implied; use at your own risk
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This is a single header file with a bunch of useful stuff
to replace the C/C++ standard library
===========================================================================
YOU MUST
#define GB_IMPLEMENTATION
in EXACTLY _one_ C or C++ file that includes this header, BEFORE the
include like this:
#define GB_IMPLEMENTATION
#include "gb.h"
All other files should just #include "gb.h" without #define
===========================================================================
Conventions used:
gbTypesAreLikeThis (None core types)
gb_functions_and_variables_like_this
Prefer // Comments
Never use _t suffix for types (I think they are stupid...)
Version History:
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0.03 - Completely change procedure naming convention
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0.02a - Bug fixes
0.02 - Change naming convention and gbArray(Type)
0.01 - Initial Version
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LICENSE
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This software is dual-licensed to the public domain and under the following
license: you are granted a perpetual, irrevocable license to copy, modify,
publish, and distribute this file as you see fit.
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WARNING
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- This library is _slightly_ experimental and features may not work as expected.
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- This also means that many functions are not documented.
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CREDITS
Written by Ginger Bill
*/
#ifndef GB_INCLUDE_GB_H
#define GB_INCLUDE_GB_H
#if defined(__cplusplus)
extern "C" {
#endif
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#ifndef GB_EXTERN
#if defined(__cplusplus)
#define GB_EXTERN extern "C"
#else
#define GB_EXTERN extern
#endif
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#endif
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#ifndef GB_DLL_EXPORT
#define GB_DLL_EXPORT __declspec(dllexport)
#endif
#ifndef GB_DLL_IMPORT
#define GB_DLL_IMPORT __declspec(dllimport)
#endif
// NOTE(bill): Redefine for DLL, etc.
#ifndef GB_DEF
#ifdef GB_STATIC
#define GB_DEF static
#else
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#define GB_DEF extern
#endif
#endif
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#if defined(_WIN32) || defined(_WIN64)
#if defined(_WIN64)
#ifndef GB_ARCH_64_BIT
#define GB_ARCH_64_BIT 1
#endif
#else
#ifndef GB_ARCH_32_BIT
#define GB_ARCH_32_BIT 1
#endif
#endif
#endif
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// TODO(bill): Check if this works on clang
#if defined(__GNUC__)
#if defined(__x86_64__) || defined(__ppc64__)
#ifndef GB_ARCH_64_BIT
#define GB_ARCH_64_BIT 1
#endif
#else
#ifndef GB_ARCH_32_BIT
#define GB_ARCH_32_BIT 1
#endif
#endif
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#endif
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#ifndef GB_EDIAN_ORDER
#define GB_EDIAN_ORDER
#define GB_IS_BIG_EDIAN (!*(u8*)&(u16){1})
#define GB_IS_LITTLE_EDIAN (!GB_IS_BIG_EDIAN)
#endif
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#if defined(_WIN32) || defined(_WIN64)
#ifndef GB_SYSTEM_WINDOWS
#define GB_SYSTEM_WINDOWS 1
#endif
#elif defined(__APPLE__) && defined(__MACH__)
#ifndef GB_SYSTEM_OSX
#define GB_SYSTEM_OSX 1
#endif
#elif defined(__unix__)
#ifndef GB_SYSTEM_UNIX
#define GB_SYSTEM_UNIX 1
#endif
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#if defined(__linux__)
#ifndef GB_SYSTEM_LINUX
#define GB_SYSTEM_LINUX 1
#endif
#elif defined(__FreeBSD__) || defined(__FreeBSD_kernel__)
#ifndef GB_SYSTEM_FREEBSD
#define GB_SYSTEM_FREEBSD 1
#endif
#else
#error This UNIX operating system is not supported
#endif
#else
#error This operating system is not supported
#endif
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#ifndef GB_STATIC_ASSERT
#define GB_STATIC_ASSERT3(cond, msg) typedef char static_assertion_##msg[(!!(cond))*2-1]
// NOTE(bill): Token pasting madness!!
#define GB_STATIC_ASSERT2(cond, line) GB_STATIC_ASSERT3(cond, static_assertion_at_line_##line)
#define GB_STATIC_ASSERT1(cond, line) GB_STATIC_ASSERT2(cond, line)
#define GB_STATIC_ASSERT(cond) GB_STATIC_ASSERT1(cond, __LINE__)
#endif
////////////////////////////////////////////////////////////////
//
// Headers
//
//
#if defined(_WIN32) && !defined(__MINGW32__)
#ifndef _CRT_SECURE_NO_WARNINGS
#define _CRT_SECURE_NO_WARNINGS
#endif
#endif
#include <stdarg.h>
#include <stddef.h>
#include <stdio.h> // TODO(bill): Remove and replace with OS Specific stuff
#include <string.h> // NOTE(bill): For memcpy, memmove, memcmp, etc.
#if defined(GB_SYSTEM_WINDOWS)
#define NOMINMAX 1
#define WIN32_LEAN_AND_MEAN 1
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#define WIN32_MEAN_AND_LEAN 1
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#define VC_EXTRALEAN 1
#include <windows.h>
#else
#error Add OS Specific headers
#endif
#if !defined(GB_NO_STDLIB)
#include <stdlib.h>
#endif
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#ifndef gb_malloc
#define gb_malloc(sz) malloc(sz)
#endif
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#ifndef gb_mfree
#define gb_mfree(ptr) free(ptr)
#endif
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////////////////////////////////////////////////////////////////
//
// Base Types
//
//
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#if defined(_MSC_VER)
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typedef unsigned __int8 u8;
typedef signed __int8 i8;
typedef unsigned __int16 u16;
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typedef signed __int16 i16;
typedef unsigned __int32 u32;
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typedef signed __int32 i32;
typedef unsigned __int64 u64;
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typedef signed __int64 i64;
#else
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#include <stdint.h>
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typedef uint8_t u8;
typedef int8_t i8;
typedef uint16_t u16;
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typedef int16_t i16;
typedef uint32_t u32;
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typedef int32_t i32;
typedef uint64_t u64;
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typedef int64_t i64;
#endif
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GB_STATIC_ASSERT(sizeof(u8) == sizeof(i8));
GB_STATIC_ASSERT(sizeof(u16) == sizeof(i16));
GB_STATIC_ASSERT(sizeof(u32) == sizeof(i32));
GB_STATIC_ASSERT(sizeof(u64) == sizeof(i64));
GB_STATIC_ASSERT(sizeof(u8) == 1);
GB_STATIC_ASSERT(sizeof(u16) == 2);
GB_STATIC_ASSERT(sizeof(u32) == 4);
GB_STATIC_ASSERT(sizeof(u64) == 8);
typedef size_t usize;
typedef ptrdiff_t isize;
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GB_STATIC_ASSERT(sizeof(usize) == sizeof(isize));
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typedef uintptr_t uintptr;
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typedef intptr_t intptr;
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typedef float f32;
typedef double f64;
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GB_STATIC_ASSERT(sizeof(f32) == 4);
GB_STATIC_ASSERT(sizeof(f64) == 8);
typedef u16 char16;
typedef u32 char32;
// NOTE(bill): I think C99 and C++ `bool` is stupid for numerous reasons but there are too many
// to write in this small comment.
typedef i8 b8;
typedef i16 b16;
typedef i32 b32;
// NOTE(bill): Get true and false
#if !defined(__cplusplus)
#if defined(_MSC_VER) && _MSC_VER <= 1800
#ifndef false
#define false 0
#endif
#ifndef true
#define true 1
#endif
#else
#include <stdbool.h>
#endif
#endif
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#ifndef U8_MIN
#define U8_MIN 0u
#define U8_MAX 0xffu
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#define I8_MIN (-0x7f - 1)
#define I8_MAX 0x7f
#define U16_MIN 0u
#define U16_MAX 0xffffu
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#define I16_MIN (-0x7fff - 1)
#define I16_MAX 0x7fff
#define U32_MIN 0u
#define U32_MAX 0xffffffffu
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#define I32_MIN (-0x7fffffff - 1)
#define I32_MAX 0x7fffffff
#define U64_MIN 0ull
#define U64_MAX 0xffffffffffffffffull
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#define I64_MIN (-0x7fffffffffffffffll - 1)
#define I64_MAX 0x7fffffffffffffffll
#if defined(GB_ARCH_32_BIT)
#define USIZE_MIX U32_MIN
#define USIZE_MAX U32_MAX
#define ISIZE_MIX S32_MIN
#define ISIZE_MAX S32_MAX
#elif defined(GB_ARCH_64_BIT)
#define USIZE_MIX U64_MIN
#define USIZE_MAX U64_MAX
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#define ISIZE_MIX I64_MIN
#define ISIZE_MAX I64_MAX
#else
#error Unknown architecture size
#endif
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#define F32_MIN 1.17549435e-38f
#define F32_MAX 3.40282347e+38f
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#define F64_MIN 2.2250738585072014e-308
#define F64_MAX 1.7976931348623157e+308
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#endif
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#ifndef NULL
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#if defined(__cplusplus)
#if __cplusplus >= 201103L
#define NULL nullptr
#else
#define NULL 0
#endif
#else
#define NULL ((void *)0)
#endif
#endif
#if !defined(__cplusplus) && defined(_MSC_VER) && _MSC_VER <= 1800
#define inline __inline
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#endif
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#if !defined(gb_inline)
#if defined(_MSC_VER)
#define gb_restrict __restrict
#else
#define gb_restrict restrict
#endif
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#endif
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// TODO(bill): Should force inline be a separate keyword and gb_inline be inline?
#if !defined(gb_inline)
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#if defined(_MSC_VER)
#define gb_inline __forceinline
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#else
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#define gb_inline __attribute__ ((__always_inline__))
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#endif
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#endif
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#if !defined(gb_no_inline)
#if defined(_MSC_VER)
#define gb_no_inline __declspec(noinline)
#else
#define gb_no_inline __attribute__ ((noinline))
#endif
#endif
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// NOTE(bill): Easy to grep
// NOTE(bill): Not needed in macros
#ifndef cast
#define cast(Type) (Type)
#endif
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// NOTE(bill): Because a signed sizeof is more useful
#ifndef gb_size_of
#define gb_size_of(x) (isize)(sizeof(x))
#endif
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#ifndef gb_count_of
#define gb_count_of(x) ((gb_size_of(x)/gb_size_of(0[x])) / ((isize)(!(gb_size_of(x) % gb_size_of(0[x])))))
#endif
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#ifndef gb_offset_of
#define gb_offset_of(Type, element) ((isize)&(((Type *)0)->element))
#endif
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#if defined(__cplusplus)
#ifndef gb_align_of
#if __cplusplus >= 201103L
#define gb_align_of(Type) (isize)alignof(Type)
#else
extern "C++" {
// NOTE(bill): Fucking Templates!
template <typename T> struct gbAlignment_Trick { char c; T member; };
#define gb_align_of(Type) gb_offset_of(gbAlignment_Trick<Type>, member)
}
#endif
#endif
#else
#ifndef gb_align_of
#define gb_align_of(Type) gb_offset_of(struct { char c; Type member; }, member)
#endif
#endif
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// NOTE(bill): I do which I had a type_of that was portable
#ifndef gb_swap
#define gb_swap(Type, a, b) do { Type tmp = (a); (a) = (b); (b) = tmp; } while (0)
#endif
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// NOTE(bill): Because static means 3/4 different things in C/C++. Great design (!)
#ifndef gb_global
#define gb_global static // Global variables
#define gb_internal static // Internal linkage
#define gb_local_persist static // Local Persisting variables
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#endif
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#ifndef gb_unused
#define gb_unused(x) ((void)(gb_size_of(x)))
#endif
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////////////////////////////////////////////////////////////////
//
// Defer statement
// Akin to D's SCOPE_EXIT or
// similar to Go's defer but scope-based
//
// NOTE: C++11 (and above) only!
//
#if defined(__cplusplus)
extern "C++" {
namespace gb {
// NOTE(bill): Stupid fucking templates
template <typename T> struct RemoveReference { typedef T Type; };
template <typename T> struct RemoveReference<T &> { typedef T Type; };
template <typename T> struct RemoveReference<T &&> { typedef T Type; };
// NOTE(bill): "Move" semantics - invented because the C++ committee are idiots (as a collective not as indiviuals (well a least some aren't))
template <typename T> inline T &&forward(typename RemoveReference<T>::Type &t) { return static_cast<T &&>(t); }
template <typename T> inline T &&forward(typename RemoveReference<T>::Type &&t) { return static_cast<T &&>(t); }
template <typename T> inline T &&move(T &&t) { return static<typename RemoveReference<T>::Type &&>(t); }
template <typename F>
struct privDefer {
F f;
privDefer(F &&f) : f(forward<F>(f)) {}
~privDefer() { f(); }
};
template <typename F> privDefer<F> priv_defer_func(F &&f) { return privDefer<F>(forward<F>(f)); }
#ifndef defer
#define GB_DEFER_1(x, y) x##y
#define GB_DEFER_2(x, y) GB_DEFER_1(x, y)
#define GB_DEFER_3(x) GB_DEFER_2(x, __COUNTER__)
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#define defer(code) auto GB_DEFER_3(_defer_) = gb::priv_defer_func([&](){code;})
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#endif
} // namespace gb
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}
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// Example
#if 0
gbMutex m;
gb_mutex_init(&m);
{
gb_mutex_lock(&m);
defer (gb_mutex_unlock(&m));
...
}
#endif
#endif
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////////////////////////////////
//
// Macro Fun!
//
//
#ifndef GB_JOIN_MACROS
#define GB_JOIN_MACROS
#define GB_JOIN2_IND(a, b) a##b
#define GB_JOIN3_IND(a, b, c) a##b##c
#define GB_JOIN2(a, b) GB_JOIN2_IND(a, b)
#define GB_JOIN3(a, b, c) GB_JOIN3_IND(a, b, c)
#endif
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#ifndef GB_BIT
#define GB_BIT(x) (1<<x)
#endif
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#ifndef gb_min
#define gb_min(a, b) ((a) < (b) ? (a) : (b))
#endif
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#ifndef gb_max
#define gb_max(a, b) ((a) > (b) ? (a) : (b))
#endif
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#ifndef gb_clamp
#define gb_clamp(x, lower, upper) gb_min(gb_max((x), (lower)), (upper))
#endif
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#ifndef gb_clamp01
#define gb_clamp01(x) gb_clamp((x), 0, 1)
#endif
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#define gb_is_between(x, lower, upper) (((x) >= (lower)) && ((x) <= (upper)))
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////////////////////////////////
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//
// Debug
//
//
#ifndef GB_DEBUG_TRAP
#if defined(_MSC_VER)
#define GB_DEBUG_TRAP() __debugbreak()
#else
#define GB_DEBUG_TRAP() __builtin_trap()
#endif
#endif
// TODO(bill): This relies upon variadic macros which are not supported in MSVC 2003 and below, check for it if needed
#ifndef GB_ASSERT_MSG
#define GB_ASSERT_MSG(cond, msg, ...) do { \
if (!(cond)) { \
gb_assert_handler(#cond, __FILE__, cast(i64)__LINE__, msg, ##__VA_ARGS__); \
GB_DEBUG_TRAP(); \
} \
} while (0)
#endif
#ifndef GB_ASSERT
#define GB_ASSERT(cond) GB_ASSERT_MSG(cond, NULL)
#endif
#ifndef GB_ASSERT_NOT_NULL
#define GB_ASSERT_NOT_NULL(ptr) GB_ASSERT_MSG((ptr) != NULL, #ptr " must not be NULL")
#endif
// NOTE(bill): Things that shouldn't happen
#ifndef GB_PANIC
#define GB_PANIC(msg, ...) GB_ASSERT_MSG(0, msg, ##__VA_ARGS__)
#endif
GB_DEF void gb_assert_handler(char const *condition, char const *file, i64 line, char const *msg, ...);
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////////////////////////////////
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//
// Printing
//
//
// Some compilers support applying printf-style warnings to user functions.
#if defined(__clang__) || defined(__GNUC__)
#define GB_PRINTF_ARGS(FMT) __attribute__((format(printf, FMT, (FMT+1))))
#else
#define GB_PRINTF_ARGS(FMT)
#endif
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// TODO(bill): Should I completely rename these functions as they are a little weird to begin with?
GB_DEF i32 gb_printf(char const *fmt, ...) GB_PRINTF_ARGS(1);
GB_DEF i32 gb_printf_va(char const *fmt, va_list va);
GB_DEF i32 gb_fprintf(FILE *f, char const *fmt, ...) GB_PRINTF_ARGS(2);
GB_DEF i32 gb_fprintf_va(FILE *f, char const *fmt, va_list va);
GB_DEF char *gb_sprintf(char const *fmt, ...) GB_PRINTF_ARGS(1); // NOTE(bill): A locally persisting buffer is used internally
GB_DEF char *gb_sprintf_va(char const *fmt, va_list va); // NOTE(bill): A locally persisting buffer is used internally
GB_DEF i32 gb_snprintf(char *str, isize n, char const *fmt, ...) GB_PRINTF_ARGS(3);
GB_DEF i32 gb_snprintf_va(char *str, isize n, char const *fmt, va_list va);
GB_DEF i32 gb_println(char const *str);
GB_DEF i32 gb_fprintln(FILE *f, char const *str);
////////////////////////////////////////////////////////////////
//
// Memory
//
//
#ifndef gb_align_to
#define gb_align_to(value, alignment) (((value) + ((alignment)-1)) & ~((alignment) - 1))
#endif
#ifndef gb_is_power_of_two
#define gb_is_power_of_two(x) ((x) != 0) && !((x) & ((x)-1))
#endif
GB_DEF void *gb_align_forward(void *ptr, isize alignment);
GB_DEF void *gb_pointer_add(void *ptr, isize bytes);
GB_DEF void *gb_pointer_sub(void *ptr, isize bytes);
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GB_DEF void gb_zero_size(void *ptr, isize size);
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#ifndef gb_zero_struct
#define gb_zero_struct(t) gb_zero_size((t), gb_size_of(*(t))) // NOTE(bill): Pass pointer of struct
#define gb_zero_array(a, count) gb_zero_size((a), gb_size_of((a)[0])*count)
#endif
GB_DEF void *gb_memcopy(void *dest, void const *source, isize size);
GB_DEF void *gb_memmove(void *dest, void const *source, isize size);
GB_DEF void *gb_memset(void *data, u8 byte_value, isize size);
// NOTE(bill): Very similar to doing `*cast(T *)(&u)`
#ifndef GB_BIT_CAST
#define GB_BIT_CAST(dest, source) do { \
GB_STATIC_ASSERT(gb_size_of(*(dest)) <= gb_size_of(source)); \
gb_memcopy((dest), &(source), gb_size_of(*dest)); \
} while (0)
#endif
#ifndef gb_kilobytes
#define gb_kilobytes(x) ( (x) * (i64)(1024))
#define gb_megabytes(x) (gb_kilobytes(x) * (i64)(1024))
#define gb_gigabytes(x) (gb_megabytes(x) * (i64)(1024))
#define gb_terabytes(x) (gb_gigabytes(x) * (i64)(1024))
#endif
// Atomics
typedef struct gbAtomic32 { i32 volatile value; } gbAtomic32;
typedef struct gbAtomic64 { i64 volatile value; } gbAtomic64;
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GB_DEF i32 gb_load_atomic32(gbAtomic32 const volatile *a);
GB_DEF void gb_store_atomic32(gbAtomic32 volatile *a, i32 value);
GB_DEF i32 gb_compare_exchange_strong_atomic32(gbAtomic32 volatile *a, i32 expected, i32 desired);
GB_DEF i32 gb_exchanged_atomic32(gbAtomic32 volatile *a, i32 desired);
GB_DEF i32 gb_fetch_add_atomic32(gbAtomic32 volatile *a, i32 operand);
GB_DEF i32 gb_fetch_and_atomic32(gbAtomic32 volatile *a, i32 operand);
GB_DEF i32 gb_fetch_or_atomic32(gbAtomic32 volatile *a, i32 operand);
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GB_DEF i64 gb_load_atomic64(gbAtomic64 const volatile *a);
GB_DEF void gb_store_atomic64(gbAtomic64 volatile *a, i64 value);
GB_DEF i64 gb_compare_exchange_strong_atomic64(gbAtomic64 volatile *a, i64 expected, i64 desired);
GB_DEF i64 gb_exchanged_atomic64(gbAtomic64 volatile *a, i64 desired);
GB_DEF i64 gb_fetch_add_atomic64(gbAtomic64 volatile *a, i64 operand);
GB_DEF i64 gb_fetch_and_atomic64(gbAtomic64 volatile *a, i64 operand);
GB_DEF i64 gb_fetch_or_atomic64(gbAtomic64 volatile *a, i64 operand);
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typedef struct gbMutex {
#if defined(GB_SYSTEM_WINDOWS)
HANDLE win32_handle;
#else
pthread_mutex_t posix_handle;
#endif
} gbMutex;
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GB_DEF void gb_init_mutex(gbMutex *m);
GB_DEF void gb_destroy_mutex(gbMutex *m);
GB_DEF void gb_lock_mutex(gbMutex *m);
GB_DEF b32 gb_try_lock_mutex(gbMutex *m);
GB_DEF void gb_unlock_mutex(gbMutex *m);
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// NOTE(bill): If you wanted a Scoped Mutex in C++, why not use the defer() construct?
// No need for a silly wrapper class
#if 0
gbMutex m = {0};
gb_mutex_init(&m);
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{
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gb_mutex_lock(&m);
defer (gb_mutex_unlock(&m));
// Do whatever
}
#endif
typedef struct gbSemaphore {
#if defined(GB_SYSTEM_WINDOWS)
HANDLE win32_handle;
#else
gbMutex mutex;
pthread_cond_t cond;
i32 count;
#endif
} gbSemaphore;
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GB_DEF void gb_init_semaphore(gbSemaphore *s);
GB_DEF void gb_destroy_semaphore(gbSemaphore *s);
GB_DEF void gb_post_semaphore(gbSemaphore *s, i32 count);
GB_DEF void gb_wait_semaphore(gbSemaphore *s);
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#define GB_THREAD_PROC(name) void name(void *data)
;typedef GB_THREAD_PROC(gbThreadProc);
typedef struct gbThread {
#if defined(GB_SYSTEM_WINDOWS)
HANDLE win32_handle;
#else
pthread_t posix_handle;
#endif
gbThreadProc *proc;
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void *data;
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gbSemaphore semaphore;
isize stack_size;
b32 is_running;
} gbThread;
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GB_DEF void gb_init_thread(gbThread *t);
GB_DEF void gb_destory_thread(gbThread *t);
GB_DEF void gb_start_thread(gbThread *t, gbThreadProc *proc, void *data);
GB_DEF void gb_start_thread_with_stack(gbThread *t, gbThreadProc *proc, void *data, isize stack_size);
GB_DEF void gb_join_thread(gbThread *t);
GB_DEF b32 gb_is_thread_running(gbThread const *t);
GB_DEF u32 gb_current_thread_id(void);
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////////////////////////////////////////////////////////////////
//
// Virtual Memory
//
//
#if 0
typedef enum gbVmAllocationFlag {
GB_VM_COMMIT = GB_BIT(1),
GB_VM_RESERVE = GB_BIT(2),
GB_VM_RESET = GB_BIT(3),
GB_VM_RESET_UNDO = GB_BIT(4),
} gbVmAllocationFlag;
typedef enum gbVmProtectionFlag {
GB_VM_PAGE_NO_ACCESS = GB_BIT(1),
GB_VM_PAGE_GUARD = GB_BIT(2),
GB_VM_PAGE_NO_CACHE = GB_BIT(3),
GB_VM_PAGE_WRITE_COMBINE = GB_BIT(4),
} gbVmProtectionFlag;
typedef enum gbVmFreeType {
GB_VM_RELEASE = GB_BIT(1),
GB_VM_DECOMMIT = GB_BIT(2),
} gbVmFreeType;
typedef struct gbVirtualMemory {
void *memory;
isize size;
u32 allocation_flags;
u32 protection_flags;
} gbVirtualMemory;
GB_DEF gbVirtualMemory gb_vm_alloc(void *base_address, isize size, u32 allocation_flags, u32 protection_flags);
GB_DEF void gb_vm_free(gbVirtualMemory *vm);
#endif
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////////////////////////////////////////////////////////////////
//
// Custom Allocation
//
//
typedef enum gbAllocationType {
GB_ALLOCATION_ALLOC,
GB_ALLOCATION_FREE,
GB_ALLOCATION_FREE_ALL,
GB_ALLOCATION_RESIZE,
} gbAllocationType;
// NOTE(bill): This is useful so you can define an allocator of the same type and parameters
#define GB_ALLOCATOR_PROC(name) \
void *name(void *allocator_data, gbAllocationType type, \
isize size, isize alignment, \
void *old_memory, isize old_size, \
u64 options)
;typedef GB_ALLOCATOR_PROC(gbAllocatorProc);
typedef struct gbAllocator {
gbAllocatorProc *proc;
void *data;
} gbAllocator;
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#ifndef GB_DEFAULT_MEMORY_ALIGNMENT
#define GB_DEFAULT_MEMORY_ALIGNMENT 4
#endif
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GB_DEF void *gb_alloc_align(gbAllocator a, isize size, isize alignment);
GB_DEF void *gb_alloc(gbAllocator a, isize size);
GB_DEF void gb_free(gbAllocator a, void *ptr);
GB_DEF void gb_free_all(gbAllocator a);
GB_DEF void *gb_resize(gbAllocator a, void *ptr, isize old_size, isize new_size);
GB_DEF void *gb_resize_align(gbAllocator a, void *ptr, isize old_size, isize new_size, isize alignment);
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GB_DEF void *gb_alloc_copy(gbAllocator a, void const *src, isize size);
GB_DEF void *gb_alloc_copy_align(gbAllocator a, void const *src, isize size, isize alignment);
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GB_DEF char *gb_alloc_cstring(gbAllocator a, char const *str);
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// NOTE(bill): These are very useful and the type case has saved me from numerous bugs
#ifndef gb_alloc_struct
#define gb_alloc_struct(allocator, Type) (Type *)gb_alloc_align(allocator, gb_size_of(Type))
#define gb_alloc_array(allocator, Type, count) (Type *)gb_alloc(allocator, gb_size_of(Type) * (count))
#endif
GB_DEF gbAllocator gb_heap_allocator(void);
GB_DEF GB_ALLOCATOR_PROC(gb_heap_allocator_proc);
typedef struct gbArena {
gbAllocator backing;
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void *physical_start;
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isize total_size;
isize total_allocated;
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u32 temp_count;
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} gbArena;
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GB_DEF void gb_init_arena_from_memory(gbArena *arena, void *start, isize size);
GB_DEF void gb_init_arena_from_allocator(gbArena *arena, gbAllocator backing, isize size);
GB_DEF void gb_init_subarena(gbArena *arena, gbArena *parent_arena, isize size);
GB_DEF void gb_free_arena(gbArena *arena);
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GB_DEF isize gb_arena_alignment_of(gbArena *arena, isize alignment);
GB_DEF isize gb_arena_size_remaining(gbArena *arena, isize alignment);
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GB_DEF void gb_check_arena(gbArena *arena);
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GB_DEF gbAllocator gb_arena_allocator(gbArena *arena);
GB_DEF GB_ALLOCATOR_PROC(gb_arena_allocator_proc);
typedef struct gbTempArenaMemory {
gbArena *arena;
isize original_count;
} gbTempArenaMemory;
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GB_DEF gbTempArenaMemory gb_begin_temp_arena_memory(gbArena *arena);
GB_DEF void gb_end_temp_arena_memory(gbTempArenaMemory tmp_mem);
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typedef struct gbPool {
gbAllocator backing;
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void *physical_start;
void *free_list;
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isize block_size;
isize block_align;
isize total_size;
} gbPool;
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GB_DEF void gb_init_pool(gbPool *pool, gbAllocator backing, isize num_blocks, isize block_size);
GB_DEF void gb_init_pool_align(gbPool *pool, gbAllocator backing, isize num_blocks, isize block_size, isize block_align);
GB_DEF void gb_free_pool(gbPool *pool);
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GB_DEF gbAllocator gb_pool_allocator(gbPool *pool);
GB_DEF GB_ALLOCATOR_PROC(gb_pool_allocator_proc);
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////////////////////////////////////////////////////////////////
//
// Sort & Search
//
//
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#define GB_COMPARE_PROC(name) int name(void const *a, void const *b)
typedef GB_COMPARE_PROC(gbCompareProc);
GB_DEF void gb_qsort(void *base, isize count, isize size, gbCompareProc compare_proc);
// NOTE(bill): Returns index
GB_DEF isize gb_binary_search(void const *base, isize count, isize size, void const *key, gbCompareProc compare_proc);
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////////////////////////////////////////////////////////////////
//
// Char Functions
//
//
GB_DEF char gb_char_to_lower(char c);
GB_DEF char gb_char_to_upper(char c);
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GB_DEF b32 gb_is_char_space(char c);
GB_DEF b32 gb_is_char_digit(char c);
GB_DEF b32 gb_is_char_hex_digit(char c);
GB_DEF b32 gb_is_char_alpha(char c);
GB_DEF b32 gb_is_char_alphanumeric(char c);
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//
GB_DEF void gb_to_lower(char *str);
GB_DEF void gb_to_upper(char *str);
GB_DEF isize gb_strlen(char const *str);
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GB_DEF isize gb_strnlen(char const *str, isize max_len);
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GB_DEF i32 gb_strcmp(char const *s1, char const *s2);
GB_DEF char * gb_strncpy(char *dest, char const *source, isize len);
GB_DEF i32 gb_strncmp(char const *s1, char const *s2, isize len);
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GB_DEF isize gb_utf8_strlen(char const *str);
GB_DEF isize gb_utf8_strnlen(char const *str, isize max_len);
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GB_DEF char const *gb_first_occurence_of_char(char const *s1, char c);
GB_DEF char const *gb_last_occurence_of_char(char const *s1, char c);
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GB_DEF void gb_cstr_concat(char *dest, isize dest_len,
char const *src_a, isize src_a_len,
char const *src_b, isize src_b_len);
////////////////////////////////////////////////////////////////
//
// Windows UTF-8 Handling
//
//
// Windows doesn't handle 8 bit filenames well ('cause Micro$hit)
GB_DEF char16 *gb_utf8_to_utf16(char16 *buffer, char *str, isize len);
GB_DEF char * gb_utf16_to_utf8(char *buffer, char16 *str, isize len);
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// NOTE(bill): Returns size of codepoint in bytes
GB_DEF isize gb_utf8_decode(char const *str, char32 *codepoint);
GB_DEF isize gb_utf8_decode_len(char const *str, isize str_len, char32 *codepoint);
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////////////////////////////////////////////////////////////////
//
// gbString - C Read-Only-Compatible
//
//
// Pascal like strings in C
typedef char *gbString;
// This is stored at the beginning of the string
// NOTE(bill): If you only need a small string, just use a standard c string or change the size
typedef struct gbStringHeader {
gbAllocator allocator;
isize length;
isize capacity;
} gbStringHeader;
#define GB_STRING_HEADER(str) (cast(gbStringHeader *)(str) - 1)
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GB_DEF gbString gb_make_string(gbAllocator a, char const *str);
GB_DEF gbString gb_make_string_length(gbAllocator a, void const *str, isize num_bytes);
GB_DEF void gb_free_string(gbString str);
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GB_DEF gbString gb_duplicate_string(gbAllocator a, gbString const str);
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GB_DEF isize gb_string_length(gbString const str);
GB_DEF isize gb_string_capacity(gbString const str);
GB_DEF isize gb_string_available_space(gbString const str);
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GB_DEF void gb_clear_string(gbString str);
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GB_DEF gbString gb_append_string(gbString str, gbString const other);
GB_DEF gbString gb_append_string_length(gbString str, void const *other, isize num_bytes);
GB_DEF gbString gb_append_cstring(gbString str, char const *other);
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GB_DEF gbString gb_set_string(gbString str, char const *cstr);
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GB_DEF gbString gb_make_space_for_string(gbString str, isize add_len);
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GB_DEF isize gb_string_allocation_size(gbString const str);
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GB_DEF b32 gb_are_strings_equal(gbString const lhs, gbString const rhs);
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GB_DEF gbString gb_trim_string(gbString str, char const *cut_set);
GB_DEF gbString gb_trim_space_string(gbString str); /* Whitespace ` \t\r\n\v\f` */
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//////////////////////////////////////////////////////////////////
//
// Fixed Capacity Buffer (POD Types)
//
//
#ifndef GB_BUFFER_TYPE
#define GB_BUFFER_TYPE
#endif
#define gbBuffer(Type) struct { isize count, capacity; Type *data; }
typedef gbBuffer(u8) gbByteBuffer;
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#define gb_init_buffer(x, allocator, cap) do { \
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void **data = cast(void **)&((x)->data); \
gb_zero_struct(x); \
(x)->capacity = (cap); \
*data = gb_alloc((allocator), (cap)*gb_size_of((x)->data[0])); \
} while (0)
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#define gb_free_buffer(x, allocator) do { gb_free(allocator, (x)->data); } while (0)
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#define gb_append_buffer(x, item) do { (x)->data[(x)->count++] = item; } while (0)
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#define gb_appendv_buffer(x, items, item_count) do { \
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GB_ASSERT(gb_size_of((items)[0]) == gb_size_of((x)->data[0])); \
GB_ASSERT((x)->count+item_count <= (x)->capacity); \
gb_memcopy((x)->data[a->count], (items), gb_size_of((x)->data[0])*(item_count)); \
(x)->count += (item_count); \
} while (0)
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#define gb_pop_buffer(x) do { GB_ASSERT((x)->count > 0); (x)->count--; } while (0)
#define gb_clear_buffer(x) do { (x)->count = 0; } while (0)
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//////////////////////////////////////////////////////////////////
//
// Dynamic Array (POD Types)
//
//
// NOTE(bill): I know this is a macro hell but C is an old (and shit) language with no proper arrays
// Also why the fuck not?! It fucking works! And it has custom allocation, which is already better than C++!
// NOTE(bill): Typedef every array or you get anonymous structures everywhere!
// e.g. typedef gbArray(int) gb_Int_Array;
#ifndef GB_ARRAY_TYPE
#define GB_ARRAY_TYPE
#define gbArray(Type) struct { gbAllocator allocator; isize count, capacity; Type *data; }
typedef gbArray(void) gbVoidArray; // NOTE(bill): Useful for generic stuff
// Available Procedures for gbArray(Type)
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// gb_init_array
// gb_free_array
// gb_set_array_capacity
// gb_grow_array
// gb_append_array
// gb_appendv_array
// gb_pop_array
// gb_clear_array
// gb_resize_array
// gb_reserve_array
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//
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#define gb_init_array(x, allocator_) do { gb_zero_struct(x); (x)->allocator = allocator_; } while (0)
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#define gb_free_array(x) do { \
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if ((x)->allocator.proc) { \
gbAllocator a = (x)->allocator; \
gb_free(a, (x)->data); \
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gb_init_array((x), a); \
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} \
} while (0)
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#define gb_set_array_capacity(array, capacity) gb__set_array_capacity((array), (capacity), gb_size_of((array)->data[0]))
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// NOTE(bill): Do not use the thing below directly, use the macro
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GB_DEF void gb__set_array_capacity(void *array, isize capacity, isize element_size);
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#ifndef GB_ARRAY_GROW_FORMULA
#define GB_ARRAY_GROW_FORMULA(x) (2*(x) + 8)
#endif
// TODO(bill): Decide on a decent growing formula for gbArray
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#define gb_grow_array(x, min_capacity) do { \
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isize capacity = GB_ARRAY_GROW_FORMULA((x)->capacity); \
if (capacity < (min_capacity)) \
capacity = (min_capacity); \
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gb_set_array_capacity(x, capacity); \
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} while (0)
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#define gb_append_array(x, item) do { \
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if ((x)->capacity < (x)->count+1) \
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gb_grow_array(x, 0); \
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(x)->data[(x)->count++] = (item); \
} while (0)
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#define gb_appendv_array(x, items, item_count) do { \
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GB_ASSERT(gb_size_of((items)[0]) == gb_size_of((x)->data[0])); \
if ((x)->capacity < (x)->count+(item_count)) \
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gb_grow_array(x, (x)->count+(item_count)); \
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gb_memcopy((x)->data[(x)->count], (items), gb_size_of((x)->data[0])*(item_count)); \
(x)->count += (item_count); \
} while (0)
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#define gb_pop_array(x) do { GB_ASSERT((x)->count > 0); (x)->count--; } while (0)
#define gb_clear_array(x) do { (x)->count = 0; } while (0)
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#define gb_resize_array(x, count) do { \
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if ((x)->capacity < (count)) \
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gb_grow_array(x, count); \
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(x)->count = (count); \
} while (0)
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#define gb_reserve_array(x, new_capacity) do { \
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if ((x)->capacity < (new_capacity)) \
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gb_set_array_capacity(x, new_capacity); \
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} while (0)
#endif /* GB_ARRAY_TYPE */
////////////////////////////////////////////////////////////////
//
// File Handling
//
//
typedef u64 gbFileTime;
typedef enum gbFileType {
GB_FILE_TYPE_READ = 1,
GB_FILE_TYPE_WRITE = 2,
} gbFileType;
typedef struct gbFile {
void *handle; // File to fread/fwrite
char *path;
i64 size;
b32 is_open;
gbFileType type;
gbFileTime last_write_time;
} gbFile;
typedef struct gbFileContents {
void *data;
isize size;
} gbFileContents;
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GB_DEF b32 gb_create_file(gbFile *file, char const *filepath, ...); // TODO(bill): Give file permissions
GB_DEF b32 gb_open_file(gbFile *file, char const *filepath, ...);
GB_DEF b32 gb_close_file(gbFile *file);
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GB_DEF b32 gb_file_read_at(gbFile *file, void *buffer, isize size, i64 offset);
GB_DEF b32 gb_file_write_at(gbFile *file, void const *buffer, isize size, i64 offset);
GB_DEF i64 gb_file_size(gbFile *file);
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GB_DEF b32 gb_has_file_changed(gbFile *file);
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GB_DEF gbFileTime gb_file_last_write_time(char const *filepath, ...);
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GB_DEF b32 gb_copy_file(char const *existing_filename, char const *new_filename, b32 fail_if_exists);
GB_DEF b32 gb_move_file(char const *existing_filename, char const *new_filename);
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GB_DEF gbFileContents gb_read_entire_file_contents(gbAllocator a, b32 zero_terminate, char const *filepath, ...);
#ifndef GB_PATH_SEPARATOR
#if defined(GB_SYSTEM_WINDOWS)
#define GB_PATH_SEPARATOR '\\'
#else
#define GB_PATH_SEPARATOR '/'
#endif
#endif
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GB_DEF b32 gb_is_path_absolute(char const *path);
GB_DEF b32 gb_is_path_relative(char const *path);
GB_DEF b32 gb_is_path_root(char const *path);
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GB_DEF char const *gb_path_base_name(char const *path);
GB_DEF char const *gb_path_extension(char const *path);
GB_DEF void gb_exit(u32 code);
////////////////////////////////////////////////////////////////
//
// DLL Handling
//
//
typedef void *gbDllHandle;
typedef void (*gbDllProc)(void);
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GB_DEF gbDllHandle gb_load_dll(char const *filepath, ...);
GB_DEF void gb_unload_dll(gbDllHandle dll);
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GB_DEF gbDllProc gb_dll_proc_address(gbDllHandle dll, char const *proc_name);
////////////////////////////////////////////////////////////////
//
// Time
//
//
typedef struct gbDate {
i32 year;
i32 month; // 1 - Janurary, ... 12 - December
i32 day; // 1 - 31
i32 day_of_week; // 0 - Sunday, ... 6 - Saturday
i32 hour; // 0 - 23
i32 minute; // 0 - 59
i32 second; // 0 - 60 (leap seconds)
i32 milliseconds; // 0 - 999
} gbDate;
GB_DEF u64 gb_rdtsc(void);
GB_DEF f64 gb_time_now(void);
GB_DEF void gb_get_system_date(gbDate *date);
GB_DEF void gb_get_local_date(gbDate *date);
////////////////////////////////////////////////////////////////
//
// Colour Type
// It's quite useful
//
typedef union gbColour {
u32 rgba; // NOTE(bill): 0xaabbggrr
struct { u8 r, g, b, a; };
u8 e[4];
} gbColour;
GB_STATIC_ASSERT(gb_size_of(gbColour) == gb_size_of(u32));
gb_inline gbColour
gb_colour(f32 r, f32 g, f32 b, f32 a)
{
gbColour result;
result.r = cast(u8)(gb_clamp01(r) * 255.0f);
result.g = cast(u8)(gb_clamp01(g) * 255.0f);
result.b = cast(u8)(gb_clamp01(b) * 255.0f);
result.a = cast(u8)(gb_clamp01(a) * 255.0f);
return result;
}
gb_global gbColour const GB_COLOUR_WHITE = {0xffffffff};
gb_global gbColour const GB_COLOUR_GREY = {0xff808080};
gb_global gbColour const GB_COLOUR_BLACK = {0xff000000};
gb_global gbColour const GB_COLOUR_RED = {0xff0000ff};
gb_global gbColour const GB_COLOUR_ORANGE = {0xff0099ff};
gb_global gbColour const GB_COLOUR_YELLOW = {0xff00ffff};
gb_global gbColour const GB_COLOUR_GREEN = {0xff00ff00};
gb_global gbColour const GB_COLOUR_CYAN = {0xffffff00};
gb_global gbColour const GB_COLOUR_BLUE = {0xffff0000};
gb_global gbColour const GB_COLOUR_VIOLET = {0xffff007f};
gb_global gbColour const GB_COLOUR_MAGENTA = {0xffff00ff};
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////////////////////////////////////////////////////////////////
//
// Window Management
//
//
#if 0
#ifndef GB_MAX_WINDOW_TITLE_LENGTH
#define GB_MAX_WINDOW_TITLE_LENGTH 256
#endif
typedef struct gbPlatformData {
void *native_display_type;
void *native_window_handle;
void *context;
void *back_buffer;
void *back_buffer_depth_stencil;
} gbPlatformData;
typedef struct gbWindow {
gbPlatformData platform_data;
i32 x, y;
i32 width, height;
char title[GB_MAX_WINDOW_TITLE_LENGTH];
b32 fullscreen;
b32 active;
} gbWindow;
#endif
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#if defined(__cplusplus)
}
#endif
#endif /* GB_INCLUDE_GB_H */
////////////////////////////////////////////////////////////////
//
//
//
//
//
//
//
//
//
//
//
//
//
//
//
//
//
//
//
//
//
//
// Implementation
//
//
//
//
//
//
//
//
//
//
//
//
//
//
//
//
//
//
//
//
//
//
////////////////////////////////////////////////////////////////
#if defined(GB_IMPLEMENTATION) && !defined(GB_IMPLEMENTATION_DONE)
#define GB_IMPLEMENTATION_DONE
#if defined(__cplusplus)
extern "C" {
#endif
i32
gb_printf(char const *fmt, ...)
{
i32 res;
va_list va;
va_start(va, fmt);
res = gb_fprintf_va(stdout, fmt, va);
va_end(va);
return res;
}
i32
gb_fprintf(FILE *f, char const *fmt, ...)
{
i32 res;
va_list va;
va_start(va, fmt);
res = gb_fprintf_va(stdout, fmt, va);
va_end(va);
return res;
}
char *
gb_sprintf(char const *fmt, ...)
{
va_list va;
char *str;
va_start(va, fmt);
str = gb_sprintf_va(fmt, va);
va_end(va);
return str;
}
i32
gb_snprintf(char *str, isize n, char const *fmt, ...)
{
i32 res;
va_list va;
va_start(va, fmt);
res = gb_snprintf_va(str, n, fmt, va);
va_end(va);
return res;
}
gb_inline i32 gb_printf_va(char const *fmt, va_list va) { return gb_fprintf_va(stdout, fmt, va); }
gb_inline i32 gb_fprintf_va(FILE *f, char const *fmt, va_list va) { return vfprintf(f, fmt, va); }
gb_inline char *
gb_sprintf_va(char const *fmt, va_list va)
{
gb_local_persist char buffer[1024];
gb_snprintf_va(buffer, gb_size_of(buffer), fmt, va);
return buffer;
}
gb_inline i32
gb_snprintf_va(char *str, isize n, char const *fmt, va_list va)
{
i32 res;
#if defined(_WIN32)
res = _vsnprintf(str, n, fmt, va);
#else
res = vsnprintf(str, n, fmt, va)
#endif
if (n) str[n-1] = 0;
// NOTE(bill): Unix returns length output would require, Windows returns negative when truncated.
return (res >= n || res < 0) ? -1 : res;
}
gb_inline i32 gb_println(char const *str) { return gb_fprintln(stdout, str); }
gb_inline i32
gb_fprintln(FILE *f, char const *str)
{
i32 res;
res = gb_fprintf(f, str);
gb_fprintf(f, "\n");
res++;
return res;
}
void
gb_assert_handler(char const *condition, char const *file, i64 line, char const *msg, ...)
{
gb_fprintf(stderr, "%s:%lld: Assert Failure: ", file, cast(long long)line);
if (condition)
gb_fprintf(stderr, "`%s` ", condition);
if (msg) {
va_list va;
va_start(va, msg);
gb_fprintf(stderr, msg, va);
va_end(va);
}
gb_fprintf(stderr, "\n");
}
gb_inline void *
gb_align_forward(void *ptr, isize align)
{
uintptr p;
isize modulo;
GB_ASSERT(gb_is_power_of_two(align));
p = cast(uintptr)ptr;
modulo = p % align;
if (modulo) p += (align - modulo);
return cast(void *)p;
}
gb_inline void *gb_pointer_add(void *ptr, isize bytes) { return cast(void *)(cast(u8 *)ptr + bytes); }
gb_inline void *gb_pointer_sub(void *ptr, isize bytes) { return cast(void *)(cast(u8 *)ptr - bytes); }
gb_inline void gb_zero_size(void *ptr, isize size) { gb_memset(ptr, 0, size); }
gb_inline void *gb_memcopy(void *dest, void const *source, isize size) { return memcpy(dest, source, size); }
gb_inline void *gb_memmove(void *dest, void const *source, isize size) { return memmove(dest, source, size); }
gb_inline void *gb_memset(void *data, u8 byte_value, isize size) { return memset(data, byte_value, size); }
gb_inline void *gb_alloc_align(gbAllocator a, isize size, isize alignment) { return a.proc(a.data, GB_ALLOCATION_ALLOC, size, alignment, NULL, 0, 0); }
gb_inline void *gb_alloc(gbAllocator a, isize size) { return gb_alloc_align(a, size, GB_DEFAULT_MEMORY_ALIGNMENT); }
gb_inline void gb_free(gbAllocator a, void *ptr) { a.proc(a.data, GB_ALLOCATION_FREE, 0, 0, ptr, 0, 0); }
gb_inline void gb_free_all(gbAllocator a) { a.proc(a.data, GB_ALLOCATION_FREE_ALL, 0, 0, NULL, 0, 0); }
gb_inline void *gb_resize(gbAllocator a, void *ptr, isize old_size, isize new_size) { return gb_resize_align(a, ptr, old_size, new_size, GB_DEFAULT_MEMORY_ALIGNMENT); }
gb_inline void *gb_resize_align(gbAllocator a, void *ptr, isize old_size, isize new_size, isize alignment) { return a.proc(a.data, GB_ALLOCATION_RESIZE, new_size, alignment, ptr, old_size, 0); };
gb_inline void *gb_alloc_copy(gbAllocator a, void const *src, isize size) { return gb_memcopy(gb_alloc(a, size), src, size); }
gb_inline void *gb_alloc_copy_align(gbAllocator a, void const *src, isize size, isize alignment) { return gb_memcopy(gb_alloc_align(a, size, alignment), src, size); }
gb_inline char *
gb_alloc_cstring(gbAllocator a, char const *str)
{
char *result;
isize len = gb_strlen(str);
result = cast(char *)gb_alloc_copy(a, str, len+1);
result[len] = '\0';
return result;
}
////////////////////////////////////////////////////////////////
//
// Concurrency
//
#if defined(_MSC_VER)
gb_inline i32
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gb_load_atomic32(gbAtomic32 const volatile *a)
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{
return a->value;
}
gb_inline void
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gb_store_atomic32(gbAtomic32 volatile *a, i32 value)
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{
a->value = value;
}
gb_inline i32
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gb_compare_exchange_strong_atomic32(gbAtomic32 volatile *a, i32 expected, i32 desired)
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{
return _InterlockedCompareExchange(cast(long volatile *)a, desired, expected);
}
gb_inline i32
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gb_exchanged_atomic32(gbAtomic32 volatile *a, i32 desired)
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{
return _InterlockedExchange(cast(long volatile *)a, desired);
}
gb_inline i32
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gb_fetch_add_atomic32(gbAtomic32 volatile *a, i32 operand)
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{
return _InterlockedExchangeAdd(cast(long volatile *)a, operand);
}
gb_inline i32
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gb_fetch_and_atomic32(gbAtomic32 volatile *a, i32 operand)
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{
return _InterlockedAnd(cast(long volatile *)a, operand);
}
gb_inline i32
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gb_fetch_or_atomic32(gbAtomic32 volatile *a, i32 operand)
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{
return _InterlockedOr(cast(long volatile *)a, operand);
}
gb_inline i64
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gb_load_atomic64(gbAtomic64 const volatile *a)
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{
#if defined(GB_ARCH_64_BIT)
return a->value;
#else
// NOTE(bill): The most compatible way to get an atomic 64-bit load on x86 is with cmpxchg8b
i64 result;
__asm {
mov esi, a;
mov ebx, eax;
mov ecx, edx;
lock cmpxchg8b [esi];
mov dword ptr result, eax;
mov dword ptr result[4], edx;
}
return result;
#endif
}
gb_inline void
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gb_store_atomic64(gbAtomic64 volatile *a, i64 value)
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{
#if defined(GB_ARCH_64_BIT)
a->value = value;
#else
// NOTE(bill): The most compatible way to get an atomic 64-bit store on x86 is with cmpxchg8b
__asm {
mov esi, a;
mov ebx, dword ptr value;
mov ecx, dword ptr value[4];
retry:
cmpxchg8b [esi];
jne retry;
}
#endif
}
gb_inline i64
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gb_compare_exchange_strong_atomic64(gbAtomic64 volatile *a, i64 expected, i64 desired)
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{
return _InterlockedCompareExchange64(cast(i64 volatile *)a, desired, expected);
}
gb_inline i64
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gb_exchanged_atomic64(gbAtomic64 volatile *a, i64 desired)
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{
#if defined(GB_ARCH_64_BIT)
return _InterlockedExchange64(cast(i64 volatile *)a, desired);
#else
i64 expected = a->value;
for (;;) {
i64 original = _InterlockedCompareExchange64(cast(i64 volatile *)a, desired, expected);
if (original == expected)
return original;
expected = original;
}
#endif
}
gb_inline i64
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gb_fetch_add_atomic64(gbAtomic64 volatile *a, i64 operand)
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{
#if defined(GB_ARCH_64_BIT)
return _InterlockedExchangeAdd64(cast(i64 volatile *)a, operand);
#else
i64 expected = a->value;
for (;;) {
i64 original = _InterlockedExchange64(cast(i64 volatile *)a, expected + operand, expected);
if (original == expected)
return original;
expected = original;
}
#endif
}
gb_inline i64
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gb_fetch_and_atomic64(gbAtomic64 volatile *a, i64 operand)
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{
#if defined(GB_ARCH_64_BIT)
return _InterlockedAnd64(cast(i64 volatile *)a, operand);
#else
i64 expected = a->value;
for (;;) {
i64 original = _InterlockedCompareExchange64(cast(i64 volatile *)a, expected & operand, expected);
if (original == expected)
return original;
expected = original;
}
#endif
}
gb_inline i64
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gb_fetch_or_atomic64(gbAtomic64 volatile *a, i64 operand)
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{
#if defined(GB_ARCH_64_BIT)
return _InterlockedAnd64(cast(i64 volatile *)a, operand);
#else
i64 expected = object->nonatomic;
for (;;) {
i64 original = _InterlockedCompareExchange64(cast(i64 volatile *)a, expected | operand, expected);
if (original == expected)
return original;
expected = original;
}
#endif
}
#else
#error Implement atomics for this platform
#endif
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gb_inline void gb_init_mutex(gbMutex *m) { m->win32_handle = CreateMutex(0, false, 0); }
gb_inline void gb_destroy_mutex(gbMutex *m) { CloseHandle(m->win32_handle); }
gb_inline void gb_lock_mutex(gbMutex *m) { WaitForSingleObject(m->win32_handle, INFINITE); }
gb_inline b32 gb_try_lock_mutex(gbMutex *m) { return WaitForSingleObject(m->win32_handle, 0) == WAIT_OBJECT_0; }
gb_inline void gb_unlock_mutex(gbMutex *m) { ReleaseMutex(m->win32_handle); }
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gb_inline void
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gb_init_semaphore(gbSemaphore *s)
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{
s->win32_handle = CreateSemaphore(NULL, 0, I32_MAX, NULL);
GB_ASSERT_MSG(s->win32_handle != NULL, "CreateSemaphore: GetLastError = %d", GetLastError());
}
gb_inline void
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gb_destroy_semaphore(gbSemaphore *s)
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{
BOOL err = CloseHandle(s->win32_handle);
GB_ASSERT_MSG(err != 0, "CloseHandle: GetLastError = %d", GetLastError());
}
gb_inline void
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gb_post_semaphore(gbSemaphore *s, i32 count)
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{
BOOL err = ReleaseSemaphore(s->win32_handle, count, NULL);
GB_ASSERT_MSG(err != 0, "ReleaseSemaphore: GetLastError = %d", GetLastError());
}
gb_inline void
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gb_wait_semaphore(gbSemaphore *s)
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{
DWORD result = WaitForSingleObject(s->win32_handle, INFINITE);
GB_ASSERT_MSG(result == WAIT_OBJECT_0, "WaitForSingleObject: GetLastError = %d", GetLastError());
}
void
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gb_init_thread(gbThread *t)
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{
gb_zero_struct(t);
t->win32_handle = INVALID_HANDLE_VALUE;
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gb_init_semaphore(&t->semaphore);
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}
void
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gb_destory_thread(gbThread *t)
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{
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if (t->is_running) gb_join_thread(t);
gb_destroy_semaphore(&t->semaphore);
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}
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gb_inline void
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gb__run_thread(gbThread *t)
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{
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gb_post_semaphore(&t->semaphore, 1);
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t->proc(t->data);
}
#if defined(GB_SYSTEM_WINDOWS)
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gb_inline DWORD WINAPI gb__thread_proc(void *arg) { gb__run_thread(cast(gbThread *)arg); return 0; }
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#else
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gb_inline void *gb__thread_proc(void *arg) { gb__run_thread(cast(gbThread *)arg); return NULL; }
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#endif
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gb_inline void gb_start_thread(gbThread *t, gbThreadProc *proc, void *data) { gb_start_thread_with_stack(t, proc, data, 0); }
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gb_inline void
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gb_start_thread_with_stack(gbThread *t, gbThreadProc *proc, void *data, isize stack_size)
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{
GB_ASSERT(!t->is_running);
GB_ASSERT(proc != NULL);
t->proc = proc;
t->data = data;
t->stack_size = stack_size;
t->win32_handle = CreateThread(NULL, stack_size, gb__thread_proc, t, 0, NULL);
GB_ASSERT_MSG(t->win32_handle != NULL, "CreateThread: GetLastError = %d", GetLastError());
t->is_running = true;
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gb_wait_semaphore(&t->semaphore);
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}
gb_inline void
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gb_join_thread(gbThread *t)
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{
if (!t->is_running) return;
WaitForSingleObject(t->win32_handle, INFINITE);
CloseHandle(t->win32_handle);
t->win32_handle = INVALID_HANDLE_VALUE;
t->is_running = false;
}
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gb_inline b32 gb_is_thread_running(gbThread const *t) { return t->is_running != 0; }
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gb_inline u32
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gb_current_thread_id(void)
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{
u32 thread_id;
#if defined(GB_SYSTEM_WINDOWS)
thread_id = GetCurrentThreadId();
#elif defined(GB_SYSTEM_OSX) && defined(GB_ARCH_64_BIT)
asm("mov %%gs:0x00,%0" : "=r"(thread_id));
#elif defined(GB_ARCH_32_BIT)
asm("mov %%gs:0x08,%0" : "=r"(thread_id));
#elif defined(GB_ARCH_64_BIT)
asm("mov %%gs:0x10,%0" : "=r"(thread_id));
#else
#error Unsupported architecture for thread::current_id()
#endif
return thread_id;
}
gb_inline gbAllocator
gb_heap_allocator(void)
{
gbAllocator a;
a.proc = gb_heap_allocator_proc;
a.data = NULL;
return a;
}
GB_ALLOCATOR_PROC(gb_heap_allocator_proc)
{
switch (type) {
case GB_ALLOCATION_ALLOC: {
void *ptr;
isize actual_size = size + alignment;
ptr = gb_align_forward(gb_malloc(actual_size), alignment);
return ptr;
} break;
case GB_ALLOCATION_FREE: {
gb_mfree(old_memory);
} break;
case GB_ALLOCATION_FREE_ALL:
break;
case GB_ALLOCATION_RESIZE: {
// TODO(bill): Check if ptr is on top of stack and just extend
gbAllocator a = gb_heap_allocator();
if (!old_memory) return gb_alloc_align(a, size, alignment);
if (size < old_size)
size = old_size;
if (old_size == size) {
return old_memory;
} else {
void *new_memory = gb_alloc_align(a, size, alignment);
if (!new_memory) return NULL;
gb_memmove(new_memory, old_memory, gb_min(size, old_size));
gb_free(a, old_memory);
return new_memory;
}
} break;
}
return NULL; // NOTE(bill): Default return value
}
gb_inline void
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gb_init_arena_from_memory(gbArena *arena, void *start, isize size)
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{
arena->backing.proc = NULL;
arena->backing.data = NULL;
arena->physical_start = start;
arena->total_size = size;
arena->total_allocated = 0;
arena->temp_count = 0;
}
gb_inline void
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gb_init_arena_from_allocator(gbArena *arena, gbAllocator backing, isize size)
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{
arena->backing = backing;
arena->physical_start = gb_alloc(backing, size); // NOTE(bill): Uses default alignment
arena->total_size = size;
arena->total_allocated = 0;
arena->temp_count = 0;
}
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gb_inline void gb_init_subarena(gbArena *arena, gbArena *parent_arena, isize size) { gb_init_arena_from_allocator(arena, gb_arena_allocator(parent_arena), size); }
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gb_inline void
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gb_free_arena(gbArena *arena)
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{
if (arena->backing.proc) {
gb_free(arena->backing, arena->physical_start);
arena->physical_start = NULL;
}
}
gb_inline isize
gb_arena_alignment_of(gbArena *arena, isize alignment)
{
isize alignment_offset, result_pointer, mask;
GB_ASSERT(gb_is_power_of_two(alignment));
alignment_offset = 0;
result_pointer = cast(isize)arena->physical_start + arena->total_allocated;
mask = alignment - 1;
if (result_pointer & mask)
alignment_offset = alignment - (result_pointer & mask);
return alignment_offset;
}
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gb_inline isize
gb_arena_size_remaining(gbArena *arena, isize alignment)
{
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isize result = arena->total_size - (arena->total_allocated + gb_arena_alignment_of(arena, alignment));
return result;
}
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gb_inline void gb_check_arena(gbArena *arena) { GB_ASSERT(arena->temp_count == 0); }
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gb_inline gbAllocator
gb_arena_allocator(gbArena *arena)
{
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gbAllocator allocator;
allocator.proc = gb_arena_allocator_proc;
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allocator.data = arena;
return allocator;
}
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GB_ALLOCATOR_PROC(gb_arena_allocator_proc)
{
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gbArena *arena = cast(gbArena *)allocator_data;
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gb_unused(options);
gb_unused(old_size);
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switch (type) {
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case GB_ALLOCATION_ALLOC: {
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void *ptr;
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isize actual_size = size + alignment;
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// NOTE(bill): Out of memory
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if (arena->total_allocated + actual_size > cast(isize)arena->total_size)
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return NULL;
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ptr = gb_align_forward(gb_pointer_add(arena->physical_start, arena->total_allocated), alignment);
arena->total_allocated += actual_size;
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return ptr;
} break;
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case GB_ALLOCATION_FREE:
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// NOTE(bill): Free all at once
// NOTE(bill): Use Temp_Arena_Memory if you want to free a block
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// TODO(bill): Free it if it's on top of the stack
break;
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case GB_ALLOCATION_FREE_ALL:
arena->total_allocated = 0;
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break;
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case GB_ALLOCATION_RESIZE: {
// TODO(bill): Check if ptr is on top of stack and just extend
gbAllocator a = gb_arena_allocator(arena);
if (!old_memory) return gb_alloc_align(a, size, alignment);
if (size < old_size)
size = old_size;
if (old_size == size) {
return old_memory;
} else {
void *new_memory = gb_alloc_align(a, size, alignment);
if (!new_memory) return NULL;
gb_memmove(new_memory, old_memory, gb_min(size, old_size));
gb_free(a, old_memory);
return new_memory;
}
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} break;
}
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return NULL; // NOTE(bill): Default return value
}
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gb_inline gbTempArenaMemory
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gb_begin_temp_arena_memory(gbArena *arena)
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{
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gbTempArenaMemory tmp;
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tmp.arena = arena;
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tmp.original_count = arena->total_allocated;
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arena->temp_count++;
return tmp;
}
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gb_inline void
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gb_end_temp_arena_memory(gbTempArenaMemory tmp)
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{
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GB_ASSERT(tmp.arena->total_allocated >= tmp.original_count);
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GB_ASSERT(tmp.arena->temp_count > 0);
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tmp.arena->total_allocated = tmp.original_count;
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tmp.arena->temp_count--;
}
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gb_inline void
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gb_init_pool(gbPool *pool, gbAllocator backing, isize num_blocks, isize block_size)
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{
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gb_init_pool_align(pool, backing, num_blocks, block_size, GB_DEFAULT_MEMORY_ALIGNMENT);
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}
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void
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gb_init_pool_align(gbPool *pool, gbAllocator backing, isize num_blocks, isize block_size, isize block_align)
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{
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isize actual_block_size, pool_size, block_index;
void *data, *curr;
uintptr *end;
gb_zero_struct(pool);
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pool->backing = backing;
pool->block_size = block_size;
pool->block_align = block_align;
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actual_block_size = block_size + block_align;
pool_size = num_blocks * actual_block_size;
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data = gb_alloc_align(backing, pool_size, block_align);
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// NOTE(bill): Init intrusive freelist
curr = data;
for (block_index = 0; block_index < num_blocks-1; block_index++) {
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uintptr *next = cast(uintptr *)curr;
*next = cast(uintptr)curr + actual_block_size;
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curr = gb_pointer_add(curr, actual_block_size);
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}
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end = cast(uintptr *)curr;
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*end = cast(uintptr)NULL;
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pool->physical_start = data;
pool->free_list = data;
}
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gb_inline void
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gb_free_pool(gbPool *pool)
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{
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if (pool->backing.proc) {
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gb_free(pool->backing, pool->physical_start);
}
}
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gb_inline gbAllocator
gb_pool_allocator(gbPool *pool)
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{
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gbAllocator allocator;
allocator.proc = gb_pool_allocator_proc;
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allocator.data = pool;
return allocator;
}
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GB_ALLOCATOR_PROC(gb_pool_allocator_proc)
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{
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gbPool *pool = cast(gbPool *)allocator_data;
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gb_unused(options);
gb_unused(old_size);
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switch (type) {
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case GB_ALLOCATION_ALLOC: {
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uintptr next_free;
void *ptr;
GB_ASSERT(size == pool->block_size);
GB_ASSERT(alignment == pool->block_align);
GB_ASSERT(pool->free_list != NULL);
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next_free = *cast(uintptr *)pool->free_list;
ptr = pool->free_list;
pool->free_list = cast(void *)next_free;
pool->total_size += pool->block_size;
return ptr;
} break;
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case GB_ALLOCATION_FREE: {
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uintptr *next;
if (old_memory == NULL) return NULL;
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next = cast(uintptr *)old_memory;
*next = cast(uintptr)pool->free_list;
pool->free_list = old_memory;
pool->total_size -= pool->block_size;
} break;
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case GB_ALLOCATION_FREE_ALL:
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// TODO(bill):
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break;
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case GB_ALLOCATION_RESIZE:
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// NOTE(bill): Cannot resize
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break;
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}
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return NULL;
}
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gb_inline void
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gb_qsort(void *base, isize count, isize size, gbCompareProc compare_proc)
{
qsort(base, count, size, compare_proc);
}
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gb_inline isize
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gb_binary_search(void const *base, isize count, isize size, void const *key, gbCompareProc compare_proc)
{
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isize start = 0;
isize end = count;
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while (start < end) {
isize mid = start + (end-start)/2;
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isize result = compare_proc(key, cast(u8 *)base + mid*size);
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if (result < 0)
end = mid;
else if (result > 0)
start = mid+1;
else
return mid;
}
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return -1;
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}
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////////////////////////////////////////////////////////////////
//
// Char things
//
//
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gb_inline char
gb_char_to_lower(char c)
{
if (c >= 'A' && c <= 'Z')
return 'a' + (c - 'A');
return c;
}
gb_inline char
gb_char_to_upper(char c)
{
if (c >= 'a' && c <= 'z')
return 'A' + (c - 'a');
return c;
}
gb_inline b32
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gb_is_char_space(char c)
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{
if (c == ' ' ||
c == '\t' ||
c == '\n' ||
c == '\r' ||
c == '\f' ||
c == '\v')
return true;
return false;
}
gb_inline b32
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gb_is_char_digit(char c)
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{
if (c >= '0' && c <= '9')
return true;
return false;
}
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gb_inline b32
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gb_is_char_hex_digit(char c)
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{
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if (gb_is_char_digit(c) ||
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(c >= 'a' && c <= 'f') ||
(c >= 'A' && c <= 'F'))
return true;
return false;
}
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gb_inline b32
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gb_is_char_alpha(char c)
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{
if ((c >= 'A' && c <= 'Z') ||
(c >= 'a' && c <= 'z'))
return true;
return false;
}
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gb_inline b32
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gb_is_char_alphanumeric(char c)
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{
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return gb_is_char_alpha(c) || gb_is_char_digit(c);
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}
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gb_inline void
gb_to_lower(char *str)
{
if (!str) return;
while (*str) {
*str = gb_char_to_lower(*str);
str++;
}
}
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gb_inline void
gb_to_upper(char *str)
{
if (!str) return;
while (*str) {
*str = gb_char_to_upper(*str);
str++;
}
}
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gb_inline isize
gb_strlen(char const *str)
{
isize result = 0;
if (str) {
char const *end = str;
while (*end) end++;
result = end - str;
}
return result;
}
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gb_inline isize
gb_strnlen(char const *str, isize max_len)
{
isize result = 0;
if (str) {
char const *end = str;
while (*end && result < max_len) end++;
result = end - str;
}
return result;
}
gb_inline isize
gb_utf8_strlen(char const *str)
{
isize result = 0;
for (; *str; str++) {
if ((*str & 0xc0) != 0x80)
result++;
}
return result;
}
gb_inline isize
gb_utf8_strnlen(char const *str, isize max_len)
{
isize result = 0;
for (; *str && result < max_len; str++) {
if ((*str & 0xc0) != 0x80)
result++;
}
return result;
}
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gb_inline i32
gb_strcmp(char const *s1, char const *s2)
{
while (*s1 && (*s1 == *s2)) {
s1++, s2++;
}
return *(u8 *)s1 - *(u8 *)s2;
}
gb_inline char *
gb_strncpy(char *dest, char const *source, isize len)
{
GB_ASSERT_NOT_NULL(dest);
if (source) {
char *str = dest;
while (len > 0 && *source) {
*str++ = *source++;
len--;
}
while (len > 0) {
*str++ = '\0';
len--;
}
}
return dest;
}
gb_inline i32
gb_strncmp(char const *s1, char const *s2, isize len)
{
for(; len > 0; s1++, s2++, len--) {
if (*s1 != *s2)
return ((cast(uintptr)s1 < cast(uintptr)s2) ? -1 : +1);
else if (*s1 == '\0')
return 0;
}
return 0;
}
gb_inline char const *
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gb_first_occurence_of_char(char const *s, char c)
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{
char ch = c;
for (; *s != ch; s++) {
if (*s == '\0')
return 0;
}
return s;
}
gb_inline char const *
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gb_last_occurence_of_char(char const *s, char c)
2015-12-17 07:26:24 -05:00
{
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char const *result = NULL;
do {
if (*s == c)
result = s;
} while (*s++);
return result;
}
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gb_inline void
gb_cstr_concat(char *dest, isize dest_len,
char const *src_a, isize src_a_len,
char const *src_b, isize src_b_len)
{
GB_ASSERT(dest_len >= src_a_len+src_b_len+1);
if (dest) {
gb_memcopy(dest, src_a, src_a_len);
gb_memcopy(dest+src_a_len, src_b, src_b_len);
dest[src_a_len+src_b_len] = '\0';
}
}
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gb_inline void gb__set_string_length(gbString str, isize len) { GB_STRING_HEADER(str)->length = len; }
gb_inline void gb__set_string_capacity(gbString str, isize cap) { GB_STRING_HEADER(str)->capacity = cap; }
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gb_inline gbString
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gb_make_string(gbAllocator a, char const *str)
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{
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isize len = str ? gb_strlen(str) : 0;
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return gb_make_string_length(a, str, len);
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}
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gbString
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gb_make_string_length(gbAllocator a, void const *init_str, isize num_bytes)
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{
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isize header_size = gb_size_of(gbStringHeader);
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void *ptr = gb_alloc(a, header_size + num_bytes + 1);
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gbString str;
gbStringHeader *header;
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if (!init_str) gb_zero_size(ptr, header_size + num_bytes + 1);
if (ptr == NULL) return NULL;
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str = cast(char *)ptr + header_size;
header = GB_STRING_HEADER(str);
header->allocator = a;
header->length = num_bytes;
header->capacity = num_bytes;
if (num_bytes && init_str)
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gb_memcopy(str, init_str, num_bytes);
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str[num_bytes] = '\0';
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return str;
}
2016-03-03 06:37:48 -05:00
gb_inline void
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gb_free_string(gbString str)
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{
if (str) {
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gbStringHeader *header = GB_STRING_HEADER(str);
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gb_free(header->allocator, header);
}
}
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gb_inline gbString gb_string_duplicate(gbAllocator a, gbString const str) { return gb_make_string_length(a, str, gb_string_length(str)); }
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gb_inline isize gb_string_length(gbString const str) { return GB_STRING_HEADER(str)->length; }
gb_inline isize gb_string_capacity(gbString const str) { return GB_STRING_HEADER(str)->capacity; }
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gb_inline isize
gb_string_available_space(gbString const str)
2015-12-17 17:56:29 -05:00
{
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gbStringHeader *h = GB_STRING_HEADER(str);
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if (h->capacity > h->length)
return h->capacity - h->length;
return 0;
}
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gb_inline void gb_clear_string(gbString str) { gb__set_string_length(str, 0); str[0] = '\0'; }
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gb_inline gbString gb_append_string(gbString str, gbString const other) { return gb_append_string_length(str, other, gb_string_length(other)); }
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gbString
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gb_append_string_length(gbString str, void const *other, isize other_len)
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{
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isize curr_len = gb_string_length(str);
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str = gb_make_space_for_string(str, other_len);
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if (str == NULL)
return NULL;
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gb_memcopy(str + curr_len, other, other_len);
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str[curr_len + other_len] = '\0';
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gb__set_string_length(str, curr_len + other_len);
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return str;
}
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gb_inline gbString
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gb_append_cstring(gbString str, char const *other)
{
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return gb_append_string_length(str, other, cast(isize)strlen(other));
}
2016-04-23 18:07:15 -04:00
gbString
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gb_set_string(gbString str, char const *cstr)
{
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isize len = gb_strlen(cstr);
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if (gb_string_capacity(str) < len) {
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str = gb_make_space_for_string(str, len - gb_string_length(str));
if (str == NULL)
return NULL;
}
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gb_memcopy(str, cstr, len);
str[len] = '\0';
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gb__set_string_length(str, len);
return str;
}
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gbString
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gb_make_space_for_string(gbString str, isize add_len)
{
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isize available = gb_string_available_space(str);
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// Return if there is enough space left
if (available >= add_len) {
return str;
} else {
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isize new_len = gb_string_length(str) + add_len;
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void *ptr = GB_STRING_HEADER(str);
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isize old_size = gb_size_of(gbStringHeader) + gb_string_length(str) + 1;
isize new_size = gb_size_of(gbStringHeader) + new_len + 1;
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void *new_ptr = gb_resize(GB_STRING_HEADER(str)->allocator, ptr, old_size, new_size);
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if (new_ptr == NULL) return NULL;
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str = cast(char *)(GB_STRING_HEADER(new_ptr) + 1);
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gb__set_string_capacity(str, new_len);
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return str;
}
}
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gb_inline isize
gb_string_allocation_size(gbString const str)
{
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isize cap = gb_string_capacity(str);
return gb_size_of(gbStringHeader) + cap;
}
2016-03-03 06:37:48 -05:00
gb_inline b32
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gb_are_strings_equal(gbString const lhs, gbString const rhs)
{
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isize lhs_len, rhs_len, i;
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lhs_len = gb_string_length(lhs);
rhs_len = gb_string_length(rhs);
if (lhs_len != rhs_len)
return false;
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for (i = 0; i < lhs_len; i++) {
if (lhs[i] != rhs[i])
return false;
}
return true;
}
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gbString
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gb_trim_string(gbString str, char const *cut_set)
{
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char *start, *end, *start_pos, *end_pos;
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isize len;
start_pos = start = str;
end_pos = end = str + gb_string_length(str) - 1;
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while (start_pos <= end && gb_first_occurence_of_char(cut_set, *start_pos))
start_pos++;
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while (end_pos > start_pos && gb_first_occurence_of_char(cut_set, *end_pos))
end_pos--;
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len = cast(isize)((start_pos > end_pos) ? 0 : ((end_pos - start_pos)+1));
if (str != start_pos)
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gb_memmove(str, start_pos, len);
str[len] = '\0';
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gb__set_string_length(str, len);
return str;
}
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gb_inline gbString gb_trim_space_string(gbString str) { return gb_trim_string(str, " \t\r\n\v\f"); }
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////////////////////////////////////////////////////////////////
//
// Windows UTF-8 Handling
//
//
char16 *
gb_utf8_to_utf16(char16 *buffer, char *s, isize len)
{
u8 *str = cast(u8 *)s;
char32 c;
isize i = 0;
len--;
while (*str) {
if (i >= len)
return NULL;
if (!(*str & 0x80)) {
buffer[i++] = *str++;
} else if ((*str & 0xe0) == 0xc0) {
if (*str < 0xc2)
return NULL;
c = (*str++ & 0x1f) << 6;
if ((*str & 0xc0) != 0x80)
return NULL;
buffer[i++] = c + (*str++ & 0x3f);
} else if ((*str & 0xf0) == 0xe0) {
if (*str == 0xe0 &&
(str[1] < 0xa0 || str[1] > 0xbf))
return NULL;
if (*str == 0xed && str[1] > 0x9f) // str[1] < 0x80 is checked below
return NULL;
c = (*str++ & 0x0f) << 12;
if ((*str & 0xc0) != 0x80)
return NULL;
c += (*str++ & 0x3f) << 6;
if ((*str & 0xc0) != 0x80)
return NULL;
buffer[i++] = c + (*str++ & 0x3f);
} else if ((*str & 0xf8) == 0xf0) {
if (*str > 0xf4)
return NULL;
if (*str == 0xf0 && (str[1] < 0x90 || str[1] > 0xbf))
return NULL;
if (*str == 0xf4 && str[1] > 0x8f) // str[1] < 0x80 is checked below
return NULL;
c = (*str++ & 0x07) << 18;
if ((*str & 0xc0) != 0x80)
return NULL;
c += (*str++ & 0x3f) << 12;
if ((*str & 0xc0) != 0x80)
return NULL;
c += (*str++ & 0x3f) << 6;
if ((*str & 0xc0) != 0x80)
return NULL;
c += (*str++ & 0x3f);
// UTF-8 encodings of values used in surrogate pairs are invalid
if ((c & 0xfffff800) == 0xd800)
return NULL;
if (c >= 0x10000) {
c -= 0x10000;
if (i+2 > len)
return NULL;
buffer[i++] = 0xd800 | (0x3ff & (c>>10));
buffer[i++] = 0xdc00 | (0x3ff & (c ));
}
} else {
return NULL;
}
}
buffer[i] = 0;
return buffer;
}
char *
gb_utf16_to_utf8(char *buffer, char16 *str, isize len)
{
isize i = 0;
len--;
while (*str) {
if (*str < 0x80) {
if (i+1 > len)
return NULL;
buffer[i++] = (char) *str++;
} else if (*str < 0x800) {
if (i+2 > len)
return NULL;
buffer[i++] = 0xc0 + (*str >> 6);
buffer[i++] = 0x80 + (*str & 0x3f);
str += 1;
} else if (*str >= 0xd800 && *str < 0xdc00) {
char32 c;
if (i+4 > len)
return NULL;
c = ((str[0] - 0xd800) << 10) + ((str[1]) - 0xdc00) + 0x10000;
buffer[i++] = 0xf0 + (c >> 18);
buffer[i++] = 0x80 + ((c >> 12) & 0x3f);
buffer[i++] = 0x80 + ((c >> 6) & 0x3f);
buffer[i++] = 0x80 + ((c ) & 0x3f);
str += 2;
} else if (*str >= 0xdc00 && *str < 0xe000) {
return NULL;
} else {
if (i+3 > len)
return NULL;
buffer[i++] = 0xe0 + (*str >> 12);
buffer[i++] = 0x80 + ((*str >> 6) & 0x3f);
buffer[i++] = 0x80 + ((*str ) & 0x3f);
str += 1;
}
}
buffer[i] = 0;
return buffer;
}
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#define GB_UTF_SIZE 4
#define GB_UTF_INVALID 0xfffd
gb_global u8 const gb_utfbyte[GB_UTF_SIZE+1] = {0x80, 0, 0xc0, 0xe0, 0xf0};
gb_global u8 const gb_utfmask[GB_UTF_SIZE+1] = {0xc0, 0x80, 0xe0, 0xf0, 0xf8};
gb_global char32 const gb_utfmin[GB_UTF_SIZE+1] = {0, 0, 0x80, 0x800, 0x10000};
gb_global char32 const gb_utfmax[GB_UTF_SIZE+1] = {0x10ffff, 0x7f, 0x7ff, 0xffff, 0x10ffff};
gb_internal isize
gb__utf_validate(char32 *c, isize i)
{
GB_ASSERT_NOT_NULL(c);
if (!c) return 0;
if (!gb_is_between(*c, gb_utfmin[i], gb_utfmax[i]) ||
gb_is_between(*c, 0xd800, 0xdfff)) {
*c = GB_UTF_INVALID;
}
i = 1;
while (*c > gb_utfmax[i]) {
i++;
}
return i;
}
gb_internal char32
gb__utf_decode_byte(char c, isize *i)
{
GB_ASSERT_NOT_NULL(i);
if (!i) return 0;
for (*i = 0; *i < gb_count_of(gb_utfmask); (*i)++) {
if ((cast(u8)c & gb_utfmask[*i]) == gb_utfbyte[*i])
return cast(u8)(c & ~gb_utfmask[*i]);
}
return 0;
}
gb_inline isize gb_utf8_decode(char const *str, char32 *codepoint) { return gb_utf8_decode_len(str, gb_strlen(str), codepoint); }
isize
gb_utf8_decode_len(char const *s, isize str_len, char32 *c)
{
isize i, j, len, type = 0;
char32 cd;
GB_ASSERT_NOT_NULL(s);
GB_ASSERT_NOT_NULL(c);
if (!s || !c) return 0;
if (!str_len) return 0;
*c = GB_UTF_INVALID;
cd = gb__utf_decode_byte(s[0], &len);
if (!gb_is_between(len, 1, GB_UTF_SIZE))
return 1;
for (i = 1, j = 1; i < str_len && j < len; i++, j++) {
cd = (cd << 6) | gb__utf_decode_byte(s[i], &type);
if (type != 0)
return j;
}
if (j < len)
return 0;
*c = cd;
gb__utf_validate(c, len);
return len;
}
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gb_no_inline void
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gb__set_array_capacity(void *array_, isize capacity, isize element_size)
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{
// NOTE(bill): I know this is unsafe so don't call this function directly
gbVoidArray *a = cast(gbVoidArray *)array_;
void *data = NULL;
GB_ASSERT(element_size > 0);
if (capacity == a->capacity)
return;
if (capacity < a->count) {
if (a->capacity < capacity) {
isize new_capacity = GB_ARRAY_GROW_FORMULA(a->capacity);
if (new_capacity < capacity)
new_capacity = capacity;
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gb__set_array_capacity(a, new_capacity, element_size);
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}
a->count = capacity;
}
if (capacity > 0) {
data = gb_alloc(a->allocator, element_size*capacity);
gb_memcopy(data, a->data, element_size*a->count);
}
gb_free(a->allocator, a->data);
a->data = data;
a->capacity = capacity;
}
////////////////////////////////////////////////////////////////
//
// File Handling
//
//
b32
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gb_create_file(gbFile *file, char const *filepath, ...)
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{
va_list va;
char *path;
gb_zero_struct(file);
va_start(va, filepath);
path = gb_sprintf_va(filepath, va);
va_end(va);
file->handle = fopen(path, "wb");
if (file->handle) {
file->path = gb_alloc_cstring(gb_heap_allocator(), path);
file->size = gb_file_size(file);
file->is_open = true;
file->type = GB_FILE_TYPE_WRITE;
file->last_write_time = gb_file_last_write_time(file->path);
return true;
}
return false;
}
b32
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gb_open_file(gbFile *file, char const *filepath, ...)
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{
va_list va;
char *path;
gb_zero_struct(file);
va_start(va, filepath);
path = gb_sprintf_va(filepath, va);
va_end(va);
file->handle = fopen(path, "rb");
if (file->handle) {
file->path = gb_alloc_cstring(gb_heap_allocator(), path);
file->size = gb_file_size(file);
file->is_open = true;
file->type = GB_FILE_TYPE_READ;
file->last_write_time = gb_file_last_write_time(file->path);
return true;
}
return false;
}
gb_inline b32
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gb_close_file(gbFile *file)
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{
b32 result = true;
if (file && file->handle)
result = fclose(cast(FILE *)file->handle) != 0; // TODO(bill): Handle fclose errors
if (file->path) gb_free(gb_heap_allocator(), file->path);
file->is_open = false;
return result;
}
gb_inline b32
gb_file_read_at(gbFile *file, void *buffer, isize size, i64 offset)
{
i64 prev_cursor_pos;
GB_ASSERT(file->type == GB_FILE_TYPE_READ);
prev_cursor_pos = ftell(cast(FILE *)file->handle);
fseek(cast(FILE *)file->handle, offset, SEEK_SET);
fread(buffer, 1, size, cast(FILE *)file->handle);
fseek(cast(FILE *)file->handle, prev_cursor_pos, SEEK_SET);
return true;
}
gb_inline b32
gb_file_write_at(gbFile *file, void const *buffer, isize size, i64 offset)
{
isize written_size;
i64 prev_cursor_pos;
GB_ASSERT(file->type == GB_FILE_TYPE_WRITE);
prev_cursor_pos = ftell(cast(FILE *)file->handle);
fseek(cast(FILE *)file->handle, offset, SEEK_SET);
written_size = fwrite(buffer, 1, size, cast(FILE *)file->handle);
fseek(cast(FILE *)file->handle, prev_cursor_pos, SEEK_SET);
if (written_size != size) {
GB_PANIC("Failed to write file data");
return false;
}
return true;
}
gb_inline i64
gb_file_size(gbFile *file)
{
i64 result_size;
fseek(cast(FILE *)file->handle, 0, SEEK_END);
result_size = cast(i64)ftell(cast(FILE *)file->handle);
fseek(cast(FILE *)file->handle, 0, SEEK_SET);
return result_size;
}
b32
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gb_has_file_changed(gbFile *file)
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{
b32 result = false;
gbFileTime last_write_time = gb_file_last_write_time(file->path);
if (file->last_write_time != last_write_time) {
result = true;
file->last_write_time = last_write_time;
}
return result;
}
#if defined(GB_SYSTEM_WINDOWS)
gbFileTime
gb_file_last_write_time(char const *filepath, ...)
{
ULARGE_INTEGER li = {0};
FILETIME last_write_time = {0};
WIN32_FILE_ATTRIBUTE_DATA data = {0};
va_list va;
va_start(va, filepath);
if (GetFileAttributesEx(gb_sprintf_va(filepath, va), GetFileExInfoStandard, &data))
last_write_time = data.ftLastWriteTime;
va_end(va);
li.LowPart = last_write_time.dwLowDateTime;
li.HighPart = last_write_time.dwHighDateTime;
return cast(gbFileTime)li.QuadPart;
}
gb_inline b32
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gb_copy_file(char const *existing_filename, char const *new_filename, b32 fail_if_exists)
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{
return CopyFile(existing_filename, new_filename, fail_if_exists);
}
gb_inline b32
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gb_move_file(char const *existing_filename, char const *new_filename)
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{
return MoveFile(existing_filename, new_filename);
}
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#else
#error
#endif
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gbFileContents
gb_read_entire_file_contents(gbAllocator a, b32 zero_terminate, char const *filepath, ...)
{
gbFileContents result = {0};
gbFile file = {0};
char *path;
va_list va;
va_start(va, filepath);
path = gb_sprintf_va(filepath, va);
va_end(va);
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if (gb_open_file(&file, path)) {
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i64 file_size = gb_file_size(&file);
if (file_size > 0) {
result.data = gb_alloc(a, zero_terminate ? file_size+1 : file_size);
result.size = file_size;
gb_file_read_at(&file, result.data, result.size, 0);
if (zero_terminate) {
u8 *str = cast(u8 *)result.data;
str[file_size] = '\0';
}
}
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gb_close_file(&file);
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}
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return result;
}
gb_inline b32
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gb_is_path_absolute(char const *path)
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{
b32 result = false;
GB_ASSERT_NOT_NULL(path);
#if defined(GB_SYSTEM_WINDOWS)
result == (gb_strlen(path) > 2) &&
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gb_is_char_alpha(path[0]) &&
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(path[1] == ':' && path[2] == GB_PATH_SEPARATOR);
#else
result = (gb_strlen(path) > 0 && path[0] == GB_PATH_SEPARATOR);
#endif
return result;
}
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gb_inline b32 gb_is_path_relative(char const *path) { return !gb_is_path_absolute(path); }
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gb_inline b32
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gb_is_path_root(char const *path)
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{
b32 result = false;
GB_ASSERT_NOT_NULL(path);
#if defined(GB_SYSTEM_WINDOWS)
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result = gb_is_path_absolute(path) && gb_strlen(path) == 3;
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#else
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result = gb_is_path_absolute(path) && gb_strlen(path) == 1;
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#endif
return result;
}
gb_inline char const *
gb_path_base_name(char const *path)
{
char const *ls;
GB_ASSERT_NOT_NULL(path);
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ls = gb_last_occurence_of_char(path, '/');
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return (ls == NULL) ? path : ls+1;
}
gb_inline char const *
gb_path_extension(char const *path)
{
char const *ld;
GB_ASSERT_NOT_NULL(path);
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ld = gb_last_occurence_of_char(path, '.');
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return (ld == NULL) ? NULL : ld+1;
}
#if defined(GB_SYSTEM_WINDOWS)
gb_inline void gb_exit(u32 code) { ExitProcess(code); }
#else
#error
#endif
////////////////////////////////////////////////////////////////
//
// DLL Handling
//
//
#if defined(GB_SYSTEM_WINDOWS)
gbDllHandle
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gb_load_dll(char const *filepath, ...)
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{
gb_local_persist char buffer[512];
va_list va;
va_start(va, filepath);
gb_snprintf_va(buffer, gb_size_of(buffer), filepath, va);
va_end(va);
return cast(gbDllHandle)LoadLibraryA(buffer);
}
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gb_inline void gb_unload_dll(gbDllHandle dll) { FreeLibrary(cast(HMODULE)dll); }
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gb_inline gbDllProc gb_dll_proc_address(gbDllHandle dll, char const *proc_name) { return cast(gbDllProc)GetProcAddress(cast(HMODULE)dll, proc_name); }
#else
#error
#endif
////////////////////////////////////////////////////////////////
//
// Time
//
//
#if defined(GB_SYSTEM_WINDOWS)
gb_inline u64 gb_rdtsc(void) { return __rdtsc(); }
gb_inline f64
gb_time_now(void)
{
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gb_local_persist LARGE_INTEGER win32_perf_count_freq = {0};
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f64 result;
LARGE_INTEGER counter;
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if (!win32_perf_count_freq.QuadPart)
QueryPerformanceFrequency(&win32_perf_count_freq);
GB_ASSERT(win32_perf_count_freq.QuadPart != 0);
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QueryPerformanceCounter(&counter);
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result = counter.QuadPart / cast(f64)(win32_perf_count_freq.QuadPart);
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return result;
}
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gb_inline void
gb_get_system_date(gbDate *date)
{
SYSTEMTIME st = {0};
GetSystemTime(&st);
date->year = st.wYear;
date->month = st.wMonth;
date->day_of_week = st.wDayOfWeek;
date->day = st.wDay;
date->hour = st.wHour;
date->minute = st.wMinute;
date->second = st.wSecond;
date->milliseconds = st.wMilliseconds;
}
gb_inline void
gb_get_local_date(gbDate *date)
{
SYSTEMTIME st = {0};
GetLocalTime(&st);
date->year = st.wYear;
date->month = st.wMonth;
date->day_of_week = st.wDayOfWeek;
date->day = st.wDay;
date->hour = st.wHour;
date->minute = st.wMinute;
date->second = st.wSecond;
date->milliseconds = st.wMilliseconds;
}
#else
#error
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#endif
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#if defined(__cplusplus)
}
#endif
#endif /* GB_IMPLEMENTATION */