diff --git a/dqn.h b/dqn.h index 09f355a..7778b82 100644 --- a/dqn.h +++ b/dqn.h @@ -72,6 +72,23 @@ typedef float f32; dqn_darray_free(uintArray); */ +// Typical operations should not require using the header directly, and it's +// recommended to use the API, but it can be used to have a faster way to track +// metadata. +typedef struct DqnDArrayHeader +{ + u32 index; + u32 itemSize; + u32 capacity; + u32 signature; + + void *data; +} DqnDArrayHeader; + +// Returns the DArray header IF is a valid DArray +// Returns NULL IF not a valid DArray +DQN_FILE_SCOPE DqnDArrayHeader *dqn_darray_get_header(void *array); + // The init macro RETURNS a pointer to your type, you can index this as normal // with array notation []. // u32 type - The data type to initiate a dynamic array with @@ -81,14 +98,36 @@ typedef float f32; // Pass in the pointer returned by DQN_DARRAY_INIT. If the pointer is not // a valid DArray pointer, this will return 0. -DQN_FILE_SCOPE u32 dqn_darray_get_capacity(void *array); -DQN_FILE_SCOPE u32 dqn_darray_get_num_items(void *array); +DQN_FILE_SCOPE u32 dqn_darray_get_capacity(void *array); +DQN_FILE_SCOPE u32 dqn_darray_get_num_items(void *array); +// Returns true and array modified in-place IF +// - The capacity change was successful OR +// - The newCapacity is equal to current capacity (no changes). +// Returns false and array is unmodified IF +// - Invalid DArray passed in OR realloc failed OR +// - More items in array than new capacity +DQN_FILE_SCOPE bool dqn_darray_capacity_change(void **array, i32 newCapacity); + +// WARNING: This macro currently asserts if it's unable to push elements // void **array - the address of the pointer returned by DQN_DARRAY_INIT -// void *item - a pointer to the object to insert -// The push macro RETURNS true/false if the push was successful or not. -#define DQN_DARRAY_PUSH(array, item) \ - dqn_darray_push_internal((void **)array, (void *)item, sizeof(*item)) +// void item - the object to insert +#define DQN_DARRAY_PUSH(array, item) \ + { \ + if (dqn_darray_capacity_grow_if_need_internal((void **)array)) \ + { \ + DqnDArrayHeader *header = dqn_darray_get_header(*array); \ + *array[header->index++] = item; \ + } \ + else \ + { \ + DQN_ASSERT(DQN_INVALID_CODE_PATH); \ + } \ + } + +DQN_FILE_SCOPE bool dqn_darray_clear (void *array); +DQN_FILE_SCOPE bool dqn_darray_remove (void *array, u32 index); +DQN_FILE_SCOPE bool dqn_darray_remove_stable(void *array, u32 index); // Pass in the pointer returned by DQN_DARRAY_INIT. Returns if the free was // successful. This will return false if the array is not a valid DArray and @@ -165,7 +204,7 @@ typedef union DqnV4 } DqnV4; // Create a vector using ints and typecast to floats -DQN_FILE_SCOPE DqnV4 dqn_v4i(i32 x, i32 y, i32 z); +DQN_FILE_SCOPE DqnV4 dqn_v4i(i32 x, i32 y, i32 z, f32 w); DQN_FILE_SCOPE DqnV4 dqn_v4 (f32 x, f32 y, f32 z, f32 w); DQN_FILE_SCOPE DqnV4 dqn_v4_add (DqnV4 a, DqnV4 b); @@ -230,6 +269,12 @@ DQN_FILE_SCOPE void dqn_i32_to_str (i32 value, char *buf, i32 bufSize); DQN_FILE_SCOPE u32 dqn_ucs_to_utf8(u32 *dest, u32 character); DQN_FILE_SCOPE u32 dqn_utf8_to_ucs(u32 *dest, u32 character); +//////////////////////////////////////////////////////////////////////////////// +// Win32 Specific +//////////////////////////////////////////////////////////////////////////////// +DQN_FILE_SCOPE bool dqn_win32_utf8_to_wchar(char *in, wchar_t *out, i32 outLen); +DQN_FILE_SCOPE bool dqn_win32_wchar_to_utf8(wchar_t *in, char *out, i32 outLen); + //////////////////////////////////////////////////////////////////////////////// // File Operations //////////////////////////////////////////////////////////////////////////////// @@ -301,27 +346,17 @@ DQN_FILE_SCOPE i32 dqn_rnd_pcg_range(DqnRandPCGState *pcg, i32 min, i32 max); // DArray - Dynamic Array //////////////////////////////////////////////////////////////////////////////// #define DQN_DARRAY_SIGNATURE_INTERNAL 0xAC83DB81 -typedef struct DqnDArrayInternal -{ - u32 index; - u32 itemSize; - u32 capacity; - u32 signature; - - void *data; -} DqnDArrayInternal; - FILE_SCOPE void *dqn_darray_init_internal(u32 itemSize, u32 startingCapacity) { if (startingCapacity <= 0 || itemSize == 0) return NULL; - u32 metadataSize = sizeof(DqnDArrayInternal); + u32 metadataSize = sizeof(DqnDArrayHeader); u32 storageSize = itemSize * startingCapacity; void *memory = calloc(1, metadataSize + storageSize); if (!memory) return NULL; - DqnDArrayInternal *array = (DqnDArrayInternal *)memory; + DqnDArrayHeader *array = (DqnDArrayHeader *)memory; array->signature = DQN_DARRAY_SIGNATURE_INTERNAL; array->itemSize = itemSize; array->capacity = startingCapacity; @@ -330,36 +365,65 @@ FILE_SCOPE void *dqn_darray_init_internal(u32 itemSize, u32 startingCapacity) return array->data; } -FILE_SCOPE DqnDArrayInternal *dqn_darray_get_header_internal(void *array) +DQN_FILE_SCOPE DqnDArrayHeader *dqn_darray_get_header(void *array) { if (!array) return NULL; - DqnDArrayInternal *result = (DqnDArrayInternal *)((u8 *)array - sizeof(DqnDArrayInternal)); - if (result->signature != DQN_DARRAY_SIGNATURE_INTERNAL) return 0; + DqnDArrayHeader *result = (DqnDArrayHeader *)((u8 *)array - sizeof(DqnDArrayHeader)); + if (result->signature != DQN_DARRAY_SIGNATURE_INTERNAL) return NULL; return result; } DQN_FILE_SCOPE u32 dqn_darray_get_capacity(void *array) { - DqnDArrayInternal *header = dqn_darray_get_header_internal(array); + DqnDArrayHeader *header = dqn_darray_get_header(array); if (!header) return 0; return header->capacity; } DQN_FILE_SCOPE u32 dqn_darray_get_num_items(void *array) { - DqnDArrayInternal *header = dqn_darray_get_header_internal(array); + DqnDArrayHeader *header = dqn_darray_get_header(array); if (!header) return 0; return header->index; } -bool dqn_darray_push_internal(void **array, void *element, u32 itemSize) +DQN_FILE_SCOPE bool dqn_darray_capacity_change(void **array, u32 newCapacity) { - if (!element || !array) return false; + DqnDArrayHeader *header = dqn_darray_get_header(*array); + if (!header) return false; + if (header->capacity == newCapacity) return true; - DqnDArrayInternal *header = dqn_darray_get_header_internal(*array); - if (!header || header->itemSize != itemSize) return false; + if (newCapacity > header->index) + { + u32 metadataSize = sizeof(DqnDArrayHeader); + u32 storageSize = header->itemSize * newCapacity; + void *newMem = realloc(header, metadataSize + storageSize); + if (newMem) + { + header = (DqnDArrayHeader *)newMem; + header->capacity = newCapacity; + header->data = (u8 *)newMem + metadataSize; + *array = header->data; + + return true; + } + else + { + return false; + } + } + else + { + return false; + } +} + +FILE_SCOPE bool dqn_darray_capacity_grow_if_need_internal(void **array) +{ + DqnDArrayHeader *header = dqn_darray_get_header(*array); + if (!header) return false; if (header->index >= header->capacity) { @@ -367,22 +431,24 @@ bool dqn_darray_push_internal(void **array, void *element, u32 itemSize) u32 newCapacity = (i32)(header->capacity * GROWTH_FACTOR); if (newCapacity == header->capacity) newCapacity++; - u32 metadataSize = sizeof(DqnDArrayInternal); - u32 storageSize = header->itemSize * newCapacity; - void *newMem = realloc(header, metadataSize + storageSize); - if (newMem) - { - header = (DqnDArrayInternal *)newMem; - header->capacity = newCapacity; - header->data = (u8 *)newMem + metadataSize; - *array = header->data; - } - else - { - return false; - } + return dqn_darray_capacity_change(array, newCapacity); } + return true; +} + +bool dqn_darray_push_internal(void **array, void *element, u32 itemSize) +{ + if (!element || !array) return false; + + DqnDArrayHeader *header = dqn_darray_get_header(*array); + if (!header || header->itemSize != itemSize) return false; + + // NOTE: Array is grown before this step happens. If at this point it still + // doesn't fit then we've had a mem alloc problem. + if (header->index >= header->capacity) + return false; + u32 arrayOffset = header->itemSize * header->index++; DQN_ASSERT(header->index <= header->capacity); u8 *dataPtr = (u8 *)header->data; @@ -394,9 +460,108 @@ bool dqn_darray_push_internal(void **array, void *element, u32 itemSize) return true; } +DQN_FILE_SCOPE bool dqn_darray_clear(void *array) +{ + DqnDArrayHeader *header = dqn_darray_get_header(array); + if (header) + { + header->index = 0; + return true; + } + + return false; +} + +DQN_FILE_SCOPE bool dqn_darray_remove(void *array, u32 index) +{ + DqnDArrayHeader *header = dqn_darray_get_header(array); + if (header) + { + // NOTE: header->index is the index where the next entry will be push to + // Array is empty, or index is out of bounds + if (header->index == 0 || index >= header->index) return false; + + // If it's the first entry we just need to decrement index + if (index == 0 && header->index == 1) + { + header->index--; + return true; + } + + // If it's the last entry we just need to decrement index + if (index == (header->index - 1)) + { + header->index--; + return true; + } + + u32 lastEntryIndex = header->index - 1; + u32 lastEntryByteOffset = lastEntryIndex * header->itemSize; + u32 removeEntryIndex = index; + u32 removeEntryByteOffset = removeEntryIndex * header->itemSize; + + u8 *dataPtr = (u8 *)header->data; + void *dest = (void *)&dataPtr[removeEntryByteOffset]; + void *src = (void *)&dataPtr[lastEntryByteOffset]; + memcpy(dest, src, header->itemSize); + + header->index--; + + return true; + } + + return false; +} + +DQN_FILE_SCOPE bool dqn_darray_remove_stable(void *array, u32 index) +{ + DqnDArrayHeader *header = dqn_darray_get_header(array); + if (header) + { + // NOTE: header->index is the index where the next entry will be push to + // Array is empty, or index is out of bounds + if (header->index == 0 || index >= header->index) return false; + + // If it's the last entry we just need to decrement index + if (index == (header->index - 1)) + { + header->index--; + return true; + } + + // If it's the first entry we just need to decrement index + if (index == 0 && header->index == 1) + { + header->index--; + return true; + } + + u32 removeEntryIndex = index; + u32 removeEntryByteOffset = removeEntryIndex * header->itemSize; + + u32 oneAfterRemove = index + 1; + u32 oneAfterRemoveByteOffset = oneAfterRemove * header->itemSize; + u32 endOfListIndex = header->index - 1; + u32 endOfListByteOffset = endOfListIndex * header->itemSize; + + u32 numBytesToShift = endOfListByteOffset - oneAfterRemoveByteOffset; + DQN_ASSERT(numBytesToShift <= (header->itemSize * header->capacity)); + + u8 *dataPtr = (u8 *)header->data; + void *dest = (void *)&dataPtr[removeEntryByteOffset]; + void *src = (void *)&dataPtr[oneAfterRemoveByteOffset]; + memmove(dest, src, endOfListByteOffset); + + header->index--; + return true; + } + + return false; +} + DQN_FILE_SCOPE inline bool dqn_darray_free(void *array) { - DqnDArrayInternal *header = dqn_darray_get_header_internal(array); + DqnDArrayHeader *header = dqn_darray_get_header(array); if (header) { header->index = 0; @@ -1224,8 +1389,7 @@ DQN_FILE_SCOPE u32 dqn_utf8_to_ucs(u32 *dest, u32 character) #ifdef DQN_WIN32 #define DQN_WIN32_ERROR_BOX(text, title) MessageBoxA(NULL, text, title, MB_OK); -FILE_SCOPE bool dqn_win32_utf8_to_wchar_internal(char *in, wchar_t *out, - i32 outLen) +DQN_FILE_SCOPE bool dqn_win32_utf8_to_wchar(char *in, wchar_t *out, i32 outLen) { u32 result = MultiByteToWideChar(CP_UTF8, 0, in, -1, out, outLen-1); @@ -1238,8 +1402,7 @@ FILE_SCOPE bool dqn_win32_utf8_to_wchar_internal(char *in, wchar_t *out, return true; } -FILE_SCOPE bool dqn_win32_wchar_to_utf8_internal(wchar_t *in, char *out, - i32 outLen) +DQN_FILE_SCOPE bool dqn_win32_wchar_to_utf8(wchar_t *in, char *out, i32 outLen) { u32 result = WideCharToMultiByte(CP_UTF8, 0, in, -1, out, outLen, NULL, NULL); @@ -1260,8 +1423,7 @@ DQN_FILE_SCOPE bool dqn_file_open(char *const path, DqnFile *file) #ifdef DQN_WIN32 wchar_t widePath[MAX_PATH] = {}; - dqn_win32_utf8_to_wchar_internal(path, widePath, - DQN_ARRAY_COUNT(widePath)); + dqn_win32_utf8_to_wchar(path, widePath, DQN_ARRAY_COUNT(widePath)); HANDLE handle = CreateFileW(widePath, GENERIC_READ | GENERIC_WRITE, 0, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); @@ -1333,7 +1495,7 @@ DQN_FILE_SCOPE char **dqn_dir_read(char *dir, u32 *numFiles) u32 currNumFiles = 0; wchar_t wideDir[MAX_PATH] = {}; - dqn_win32_utf8_to_wchar_internal(dir, wideDir, DQN_ARRAY_COUNT(wideDir)); + dqn_win32_utf8_to_wchar(dir, wideDir, DQN_ARRAY_COUNT(wideDir)); // Enumerate number of files first { @@ -1388,8 +1550,8 @@ DQN_FILE_SCOPE char **dqn_dir_read(char *dir, u32 *numFiles) WIN32_FIND_DATAW findData = {}; while (FindNextFileW(findHandle, &findData) != 0) { - dqn_win32_wchar_to_utf8_internal( - findData.cFileName, list[listIndex++], MAX_PATH); + dqn_win32_wchar_to_utf8(findData.cFileName, list[listIndex++], + MAX_PATH); } *numFiles = currNumFiles; @@ -1430,9 +1592,9 @@ inline FILE_SCOPE f64 dqn_win32_query_perf_counter_time_in_s_internal() LARGE_INTEGER qpcResult; QueryPerformanceCounter(&qpcResult); - // Convert to seconds + // Convert to ms f64 timestamp = - (f64)(qpcResult.QuadPart / queryPerformanceFrequency.QuadPart); + qpcResult.QuadPart / (f64)queryPerformanceFrequency.QuadPart; return timestamp; } #endif diff --git a/dqn_unit_test.cpp b/dqn_unit_test.cpp index b6631b6..aaebab9 100644 --- a/dqn_unit_test.cpp +++ b/dqn_unit_test.cpp @@ -561,24 +561,19 @@ void dqn_darray_test() // Test basic insert { DqnV2 va = dqn_v2(5, 10); - DQN_ASSERT(DQN_DARRAY_PUSH(&vecDArray, &va)); + DQN_DARRAY_PUSH(&vecDArray, va); DqnV2 vb = vecDArray[0]; DQN_ASSERT(dqn_v2_equals(va, vb)); DQN_ASSERT(dqn_darray_get_capacity(vecDArray) == 1); DQN_ASSERT(dqn_darray_get_num_items(vecDArray) == 1); - - DqnV2 *empty = NULL; - DQN_ASSERT(DQN_DARRAY_PUSH(NULL, empty) == false); - DQN_ASSERT(DQN_DARRAY_PUSH(NULL, &va) == false); - DQN_ASSERT(DQN_DARRAY_PUSH(&vecDArray, empty) == false); } // Test array resizing and freeing { DqnV2 va = dqn_v2(10, 15); - DQN_DARRAY_PUSH(&vecDArray, &va); + DQN_DARRAY_PUSH(&vecDArray, va); DqnV2 vb = vecDArray[0]; DQN_ASSERT(dqn_v2_equals(va, vb) == false); @@ -589,44 +584,44 @@ void dqn_darray_test() DQN_ASSERT(dqn_darray_get_capacity(vecDArray) == 2); DQN_ASSERT(dqn_darray_get_num_items(vecDArray) == 2); - DQN_DARRAY_PUSH(&vecDArray, &va); + DQN_DARRAY_PUSH(&vecDArray, va); DQN_ASSERT(dqn_darray_get_capacity(vecDArray) == 3); DQN_ASSERT(dqn_darray_get_num_items(vecDArray) == 3); - DQN_DARRAY_PUSH(&vecDArray, &va); + DQN_DARRAY_PUSH(&vecDArray, va); DQN_ASSERT(dqn_darray_get_capacity(vecDArray) == 4); DQN_ASSERT(dqn_darray_get_num_items(vecDArray) == 4); - DQN_DARRAY_PUSH(&vecDArray, &va); + DQN_DARRAY_PUSH(&vecDArray, va); DQN_ASSERT(dqn_darray_get_capacity(vecDArray) == 5); DQN_ASSERT(dqn_darray_get_num_items(vecDArray) == 5); - DQN_DARRAY_PUSH(&vecDArray, &va); + DQN_DARRAY_PUSH(&vecDArray, va); DQN_ASSERT(dqn_darray_get_capacity(vecDArray) == 6); DQN_ASSERT(dqn_darray_get_num_items(vecDArray) == 6); - DQN_DARRAY_PUSH(&vecDArray, &va); + DQN_DARRAY_PUSH(&vecDArray, va); DQN_ASSERT(dqn_darray_get_capacity(vecDArray) == 7); DQN_ASSERT(dqn_darray_get_num_items(vecDArray) == 7); - DQN_DARRAY_PUSH(&vecDArray, &va); + DQN_DARRAY_PUSH(&vecDArray, va); DQN_ASSERT(dqn_darray_get_capacity(vecDArray) == 8); DQN_ASSERT(dqn_darray_get_num_items(vecDArray) == 8); - DQN_DARRAY_PUSH(&vecDArray, &va); + DQN_DARRAY_PUSH(&vecDArray, va); DQN_ASSERT(dqn_darray_get_capacity(vecDArray) == 9); DQN_ASSERT(dqn_darray_get_num_items(vecDArray) == 9); - DQN_DARRAY_PUSH(&vecDArray, &va); + DQN_DARRAY_PUSH(&vecDArray, va); DQN_ASSERT(dqn_darray_get_capacity(vecDArray) == 10); DQN_ASSERT(dqn_darray_get_num_items(vecDArray) == 10); - DQN_DARRAY_PUSH(&vecDArray, &va); + DQN_DARRAY_PUSH(&vecDArray, va); DQN_ASSERT(dqn_darray_get_capacity(vecDArray) == 12); DQN_ASSERT(dqn_darray_get_num_items(vecDArray) == 11); DqnV2 vc = dqn_v2(90, 100); - DQN_DARRAY_PUSH(&vecDArray, &vc); + DQN_DARRAY_PUSH(&vecDArray, vc); DQN_ASSERT(dqn_darray_get_capacity(vecDArray) == 12); DQN_ASSERT(dqn_darray_get_num_items(vecDArray) == 12); DQN_ASSERT(dqn_v2_equals(vc, vecDArray[11])); @@ -641,11 +636,101 @@ void dqn_darray_test() DQN_ASSERT(dqn_darray_get_capacity(array) == 1); DQN_ASSERT(dqn_darray_get_num_items(array) == 0); - f32 *empty = NULL; - DQN_ASSERT(DQN_DARRAY_PUSH(NULL, empty) == false); - DQN_ASSERT(DQN_DARRAY_PUSH(&array, empty) == false); + dqn_darray_free(array); } + { + DqnV2 a = dqn_v2(1, 2); + DqnV2 b = dqn_v2(3, 4); + DqnV2 c = dqn_v2(5, 6); + DqnV2 d = dqn_v2(7, 8); + + DqnV2 *array = DQN_DARRAY_INIT(DqnV2, 16); + DQN_ASSERT(array); + DQN_ASSERT(dqn_darray_remove(array, 0) == false); + DQN_ASSERT(dqn_darray_get_capacity(array) == 16); + DQN_ASSERT(dqn_darray_get_num_items(array) == 0); + + DQN_ASSERT(dqn_darray_clear(array)); + DQN_ASSERT(dqn_darray_get_capacity(array) == 16); + DQN_ASSERT(dqn_darray_get_num_items(array) == 0); + + DQN_DARRAY_PUSH(&array, a); + DQN_DARRAY_PUSH(&array, b); + DQN_DARRAY_PUSH(&array, c); + DQN_DARRAY_PUSH(&array, d); + DQN_ASSERT(dqn_darray_get_capacity(array) == 16); + DQN_ASSERT(dqn_darray_get_num_items(array) == 4); + + DQN_ASSERT(dqn_darray_remove(array, 0)); + DQN_ASSERT(dqn_v2_equals(array[0], d)); + DQN_ASSERT(dqn_v2_equals(array[1], b)); + DQN_ASSERT(dqn_v2_equals(array[2], c)); + DQN_ASSERT(dqn_darray_get_capacity(array) == 16); + DQN_ASSERT(dqn_darray_get_num_items(array) == 3); + + DQN_ASSERT(dqn_darray_remove(array, 2)); + DQN_ASSERT(dqn_v2_equals(array[0], d)); + DQN_ASSERT(dqn_v2_equals(array[1], b)); + DQN_ASSERT(dqn_darray_get_capacity(array) == 16); + DQN_ASSERT(dqn_darray_get_num_items(array) == 2); + + DQN_ASSERT(dqn_darray_remove(array, 100) == false); + DQN_ASSERT(dqn_v2_equals(array[0], d)); + DQN_ASSERT(dqn_v2_equals(array[1], b)); + DQN_ASSERT(dqn_darray_get_capacity(array) == 16); + DQN_ASSERT(dqn_darray_get_num_items(array) == 2); + + DQN_ASSERT(dqn_darray_clear(array)); + DQN_ASSERT(dqn_darray_get_capacity(array) == 16); + DQN_ASSERT(dqn_darray_get_num_items(array) == 0); + + dqn_darray_free(array); + } + + { + DqnV2 a = dqn_v2(1, 2); + DqnV2 b = dqn_v2(3, 4); + DqnV2 c = dqn_v2(5, 6); + DqnV2 d = dqn_v2(7, 8); + + DqnV2 *array = DQN_DARRAY_INIT(DqnV2, 16); + DQN_ASSERT(array); + + DQN_DARRAY_PUSH(&array, a); + DQN_DARRAY_PUSH(&array, b); + DQN_DARRAY_PUSH(&array, c); + DQN_DARRAY_PUSH(&array, d); + DQN_ASSERT(dqn_darray_get_capacity(array) == 16); + DQN_ASSERT(dqn_darray_get_num_items(array) == 4); + + dqn_darray_remove_stable(array, 0); + DQN_ASSERT(dqn_v2_equals(array[0], b)); + DQN_ASSERT(dqn_v2_equals(array[1], c)); + DQN_ASSERT(dqn_v2_equals(array[2], d)); + DQN_ASSERT(dqn_darray_get_capacity(array) == 16); + DQN_ASSERT(dqn_darray_get_num_items(array) == 3); + + dqn_darray_remove_stable(array, 1); + DQN_ASSERT(dqn_v2_equals(array[0], b)); + DQN_ASSERT(dqn_v2_equals(array[1], d)); + DQN_ASSERT(dqn_darray_get_capacity(array) == 16); + DQN_ASSERT(dqn_darray_get_num_items(array) == 2); + + dqn_darray_remove_stable(array, 1); + DQN_ASSERT(dqn_v2_equals(array[0], b)); + DQN_ASSERT(dqn_darray_get_capacity(array) == 16); + DQN_ASSERT(dqn_darray_get_num_items(array) == 1); + dqn_darray_free(array); + } + + { + DQN_ASSERT(dqn_darray_clear(NULL) == false); + DQN_ASSERT(dqn_darray_clear(NULL) == false); + DQN_ASSERT(dqn_darray_free(NULL) == false); + } + + printf("dqn_darray_test(): Completed successfully\n"); } diff --git a/misc/dqn_unit_test.sln b/misc/dqn_unit_test.sln index 0e4141a..d802194 100644 --- a/misc/dqn_unit_test.sln +++ b/misc/dqn_unit_test.sln @@ -21,7 +21,7 @@ Global Release|x86 = Release|x86 EndGlobalSection GlobalSection(ProjectConfigurationPlatforms) = postSolution - {87785192-6F49-4F85-AA0D-F0AFA5CCCDDA}.Release|x86.ActiveCfg = Release + {87785192-6F49-4F85-AA0D-F0AFA5CCCDDA}.Release|x86.ActiveCfg = Release|x86 EndGlobalSection GlobalSection(SolutionProperties) = preSolution HideSolutionNode = FALSE