Wed, 25 Dec 2024 19:33:04 +0100
add implementation for creating new json values
relates to #527
/* * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER. * * Copyright 2023 Mike Becker, Olaf Wintermann All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include "cx/test.h" #include "util_allocator.h" #include "cx/buffer.h" static CX_TEST_SUBROUTINE(expect_default_flush_config, CxBuffer *buf) { CX_TEST_ASSERT(buf->flush_blkmax == 0); CX_TEST_ASSERT(buf->flush_blksize == 4096); CX_TEST_ASSERT(buf->flush_threshold == SIZE_MAX); CX_TEST_ASSERT(buf->flush_func == NULL); CX_TEST_ASSERT(buf->flush_target == NULL); } CX_TEST(test_buffer_init_wrap_space) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *alloc = &talloc.base; CX_TEST_DO { CxBuffer buf; void *space = cxMalloc(alloc, 16); cxBufferInit(&buf, space, 16, alloc, CX_BUFFER_DEFAULT); CX_TEST_CALL_SUBROUTINE(expect_default_flush_config, &buf); CX_TEST_ASSERT(buf.space == space); CX_TEST_ASSERT((buf.flags & CX_BUFFER_AUTO_EXTEND) == 0); CX_TEST_ASSERT((buf.flags & CX_BUFFER_FREE_CONTENTS) == 0); CX_TEST_ASSERT(buf.pos == 0); CX_TEST_ASSERT(buf.size == 0); CX_TEST_ASSERT(buf.capacity == 16); CX_TEST_ASSERT(buf.allocator == alloc); cxBufferDestroy(&buf); CX_TEST_ASSERT(!cx_testing_allocator_verify(&talloc)); cxFree(alloc, space); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } CX_TEST(test_buffer_init_wrap_space_auto_extend) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *alloc = &talloc.base; CX_TEST_DO { CxBuffer buf; void *space = cxMalloc(alloc, 16); cxBufferInit(&buf, space, 16, alloc, CX_BUFFER_AUTO_EXTEND); CX_TEST_CALL_SUBROUTINE(expect_default_flush_config, &buf); CX_TEST_ASSERT(buf.space == space); CX_TEST_ASSERT((buf.flags & CX_BUFFER_AUTO_EXTEND) == CX_BUFFER_AUTO_EXTEND); CX_TEST_ASSERT((buf.flags & CX_BUFFER_FREE_CONTENTS) == 0); CX_TEST_ASSERT(buf.pos == 0); CX_TEST_ASSERT(buf.size == 0); CX_TEST_ASSERT(buf.capacity == 16); CX_TEST_ASSERT(buf.allocator == alloc); cxBufferDestroy(&buf); CX_TEST_ASSERT(!cx_testing_allocator_verify(&talloc)); cxFree(alloc, space); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } CX_TEST(test_buffer_init_wrap_space_auto_free) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *alloc = &talloc.base; CX_TEST_DO { CxBuffer buf; void *space = cxMalloc(alloc, 16); cxBufferInit(&buf, space, 16, alloc, CX_BUFFER_FREE_CONTENTS); CX_TEST_CALL_SUBROUTINE(expect_default_flush_config, &buf); CX_TEST_ASSERT(buf.space == space); CX_TEST_ASSERT((buf.flags & CX_BUFFER_AUTO_EXTEND) == 0); CX_TEST_ASSERT((buf.flags & CX_BUFFER_FREE_CONTENTS) == CX_BUFFER_FREE_CONTENTS); CX_TEST_ASSERT(buf.pos == 0); CX_TEST_ASSERT(buf.size == 0); CX_TEST_ASSERT(buf.capacity == 16); CX_TEST_ASSERT(buf.allocator == alloc); CX_TEST_ASSERT(!cx_testing_allocator_verify(&talloc)); cxBufferDestroy(&buf); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } CX_TEST(test_buffer_init_fresh_space) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *alloc = &talloc.base; CX_TEST_DO { CxBuffer buf; cxBufferInit(&buf, NULL, 8, alloc, CX_BUFFER_DEFAULT); CX_TEST_CALL_SUBROUTINE(expect_default_flush_config, &buf); CX_TEST_ASSERT(buf.space != NULL); CX_TEST_ASSERT((buf.flags & CX_BUFFER_AUTO_EXTEND) == 0); CX_TEST_ASSERT((buf.flags & CX_BUFFER_FREE_CONTENTS) == CX_BUFFER_FREE_CONTENTS); CX_TEST_ASSERT(buf.pos == 0); CX_TEST_ASSERT(buf.size == 0); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(buf.allocator == alloc); CX_TEST_ASSERT(!cx_testing_allocator_verify(&talloc)); // space is still allocated cxBufferDestroy(&buf); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } CX_TEST(test_buffer_init_on_heap) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *alloc = &talloc.base; CX_TEST_DO { CxBuffer *buf; void *space = cxMalloc(alloc, 16); buf = cxBufferCreate(space, 16, alloc, CX_BUFFER_FREE_CONTENTS); CX_TEST_ASSERT(buf != NULL); CX_TEST_CALL_SUBROUTINE(expect_default_flush_config, buf); CX_TEST_ASSERT(buf->space == space); CX_TEST_ASSERT((buf->flags & CX_BUFFER_AUTO_EXTEND) == 0); CX_TEST_ASSERT((buf->flags & CX_BUFFER_FREE_CONTENTS) == CX_BUFFER_FREE_CONTENTS); CX_TEST_ASSERT(buf->pos == 0); CX_TEST_ASSERT(buf->size == 0); CX_TEST_ASSERT(buf->capacity == 16); CX_TEST_ASSERT(buf->allocator == alloc); cxBufferFree(buf); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } CX_TEST(test_buffer_minimum_capacity_sufficient) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *alloc = &talloc.base; CX_TEST_DO { void *space = cxMalloc(alloc, 8); CxBuffer buf; cxBufferInit(&buf, space, 8, alloc, CX_BUFFER_FREE_CONTENTS); memcpy(space, "Testing", 8); buf.size = 8; cxBufferMinimumCapacity(&buf, 6); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(buf.size == 8); CX_TEST_ASSERT(memcmp(buf.space, "Testing", 8) == 0); cxBufferDestroy(&buf); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } CX_TEST(test_buffer_minimum_capacity_extend) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); CxAllocator *alloc = &talloc.base; CX_TEST_DO { void *space = cxMalloc(alloc, 8); CxBuffer buf; cxBufferInit(&buf, space, 8, alloc, CX_BUFFER_FREE_CONTENTS); // NO auto extend! memcpy(space, "Testing", 8); buf.size = 8; cxBufferMinimumCapacity(&buf, 16); CX_TEST_ASSERT(buf.capacity == 16); CX_TEST_ASSERT(buf.size == 8); CX_TEST_ASSERT(memcmp(buf.space, "Testing", 8) == 0); cxBufferDestroy(&buf); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); } cx_testing_allocator_destroy(&talloc); } CX_TEST(test_buffer_clear) { char space[16]; strcpy(space, "clear test"); CxBuffer buf; cxBufferInit(&buf, space, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); CX_TEST_DO { CX_TEST_ASSERT(buf.size == 0); // only clear the used part of the buffer cxBufferClear(&buf); CX_TEST_ASSERT(0 == memcmp(space, "clear test", 10)); buf.size = 5; buf.pos = 3; cxBufferClear(&buf); CX_TEST_ASSERT(0 == memcmp(space, "\0\0\0\0\0 test", 10)); CX_TEST_ASSERT(buf.size == 0); CX_TEST_ASSERT(buf.pos == 0); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_clear_copy_on_write) { char space[16]; strcpy(space, "clear test"); CxBuffer buf; cxBufferInit(&buf, space, 16, cxDefaultAllocator, CX_BUFFER_COPY_ON_WRITE); CX_TEST_DO { buf.size = 5; buf.pos = 3; cxBufferClear(&buf); CX_TEST_ASSERT(0 == memcmp(space, "clear test", 10)); CX_TEST_ASSERT(buf.size == 0); CX_TEST_ASSERT(buf.pos == 0); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_reset) { char space[16]; strcpy(space, "reset test"); CxBuffer buf; cxBufferInit(&buf, space, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); CX_TEST_DO { buf.size = 5; buf.pos = 3; cxBufferReset(&buf); CX_TEST_ASSERT(0 == memcmp(space, "reset test", 10)); CX_TEST_ASSERT(buf.size == 0); CX_TEST_ASSERT(buf.pos == 0); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_seek_set_zero) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); buf.size = 6; buf.pos = 3; CX_TEST_DO { int result = cxBufferSeek(&buf, 0, SEEK_SET); CX_TEST_ASSERT(result == 0); CX_TEST_ASSERT(buf.pos == 0); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_seek_set_valid) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); buf.size = 6; buf.pos = 3; CX_TEST_DO { int result = cxBufferSeek(&buf, 5, SEEK_SET); CX_TEST_ASSERT(result == 0); CX_TEST_ASSERT(buf.pos == 5); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_seek_set_invalid) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); buf.size = 6; buf.pos = 3; CX_TEST_DO { int result = cxBufferSeek(&buf, 7, SEEK_SET); CX_TEST_ASSERT(result != 0); CX_TEST_ASSERT(buf.pos == 3); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_seek_cur_zero) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); buf.size = 6; buf.pos = 3; CX_TEST_DO { int result = cxBufferSeek(&buf, 0, SEEK_CUR); CX_TEST_ASSERT(result == 0); CX_TEST_ASSERT(buf.pos == 3); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_seek_cur_valid_positive) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); buf.size = 6; buf.pos = 3; CX_TEST_DO { int result = cxBufferSeek(&buf, 2, SEEK_CUR); CX_TEST_ASSERT(result == 0); CX_TEST_ASSERT(buf.pos == 5); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_seek_cur_valid_negative) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); buf.size = 6; buf.pos = 3; CX_TEST_DO { int result = cxBufferSeek(&buf, -3, SEEK_CUR); CX_TEST_ASSERT(result == 0); CX_TEST_ASSERT(buf.pos == 0); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_seek_cur_invalid_positive) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); buf.size = 6; buf.pos = 3; CX_TEST_DO { int result = cxBufferSeek(&buf, 4, SEEK_CUR); CX_TEST_ASSERT(result != 0); CX_TEST_ASSERT(buf.pos == 3); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_seek_cur_invalid_negative) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); buf.size = 6; buf.pos = 3; CX_TEST_DO { int result = cxBufferSeek(&buf, -4, SEEK_CUR); CX_TEST_ASSERT(result != 0); CX_TEST_ASSERT(buf.pos == 3); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_seek_end_zero) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); buf.size = 6; buf.pos = 3; CX_TEST_DO { int result = cxBufferSeek(&buf, 0, SEEK_END); CX_TEST_ASSERT(result == 0); CX_TEST_ASSERT(buf.pos == 6); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_seek_end_valid) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); buf.size = 6; buf.pos = 3; CX_TEST_DO { int result = cxBufferSeek(&buf, -6, SEEK_END); CX_TEST_ASSERT(result == 0); CX_TEST_ASSERT(buf.pos == 0); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_seek_end_invalid) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); buf.size = 6; buf.pos = 3; CX_TEST_DO { int result = cxBufferSeek(&buf, 1, SEEK_END); CX_TEST_ASSERT(result != 0); CX_TEST_ASSERT(buf.pos == 3); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_seek_whence_invalid) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); buf.size = 6; buf.pos = 3; CX_TEST_DO { int result = cxBufferSeek(&buf, 2, 9000); CX_TEST_ASSERT(result != 0); CX_TEST_ASSERT(buf.size == 6); CX_TEST_ASSERT(buf.pos == 3); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_eof_reached) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); buf.size = buf.pos = 3; CX_TEST_DO { CX_TEST_ASSERT(cxBufferEof(&buf)); buf.pos = buf.size - 1; CX_TEST_ASSERT(!cxBufferEof(&buf)); cxBufferPut(&buf, 'a'); CX_TEST_ASSERT(cxBufferEof(&buf)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_eof_not_reached) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); buf.size = 6; CX_TEST_DO { buf.pos = buf.size - 1; CX_TEST_ASSERT(!cxBufferEof(&buf)); buf.pos = 0; cxBufferWrite("test", 1, 5, &buf); CX_TEST_ASSERT(!cxBufferEof(&buf)); } cxBufferDestroy(&buf); } #define TEST_BUFFER_SHIFT_SETUP(buf) \ CxTestingAllocator talloc; \ cx_testing_allocator_init(&talloc); \ CxAllocator *alloc = &talloc.base; \ CxBuffer buf; \ cxBufferInit(&buf, NULL, 16, alloc, CX_BUFFER_DEFAULT); \ memcpy(buf.space, "test____XXXXXXXX", 16); \ buf.capacity = 8; \ buf.pos = 4; \ buf.size = 4 #define TEST_BUFFER_SHIFT_TEARDOWN(buf) \ cxBufferDestroy(&buf); \ CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); \ cx_testing_allocator_destroy(&talloc) CX_TEST(test_buffer_shift_left_zero) { TEST_BUFFER_SHIFT_SETUP(buf); CX_TEST_DO { int ret = cxBufferShiftLeft(&buf, 0); CX_TEST_ASSERT(ret == 0); CX_TEST_ASSERT(buf.pos == 4); CX_TEST_ASSERT(buf.size == 4); CX_TEST_ASSERT(memcmp(buf.space, "test____XXXXXXXX", 16) == 0); TEST_BUFFER_SHIFT_TEARDOWN(buf); } } CX_TEST(test_buffer_shift_left_zero_offset_interface) { TEST_BUFFER_SHIFT_SETUP(buf); CX_TEST_DO { int ret = cxBufferShift(&buf, -0); CX_TEST_ASSERT(ret == 0); CX_TEST_ASSERT(buf.pos == 4); CX_TEST_ASSERT(buf.size == 4); CX_TEST_ASSERT(memcmp(buf.space, "test____XXXXXXXX", 16) == 0); TEST_BUFFER_SHIFT_TEARDOWN(buf); } } CX_TEST(test_buffer_shift_left_standard) { TEST_BUFFER_SHIFT_SETUP(buf); CX_TEST_DO { int ret = cxBufferShiftLeft(&buf, 2); CX_TEST_ASSERT(ret == 0); CX_TEST_ASSERT(buf.pos == 2); CX_TEST_ASSERT(buf.size == 2); CX_TEST_ASSERT(memcmp(buf.space, "stst____XXXXXXXX", 16) == 0); TEST_BUFFER_SHIFT_TEARDOWN(buf); } } CX_TEST(test_buffer_shift_left_overshift) { TEST_BUFFER_SHIFT_SETUP(buf); CX_TEST_DO { int ret = cxBufferShiftLeft(&buf, 6); CX_TEST_ASSERT(ret == 0); CX_TEST_ASSERT(buf.pos == 0); CX_TEST_ASSERT(buf.size == 0); CX_TEST_ASSERT(memcmp(buf.space, "test____XXXXXXXX", 16) == 0); TEST_BUFFER_SHIFT_TEARDOWN(buf); } } CX_TEST(test_buffer_shift_left_overshift_pos_only) { TEST_BUFFER_SHIFT_SETUP(buf); buf.pos = 2; CX_TEST_DO { int ret = cxBufferShiftLeft(&buf, 3); CX_TEST_ASSERT(ret == 0); CX_TEST_ASSERT(buf.pos == 0); CX_TEST_ASSERT(buf.size == 1); CX_TEST_ASSERT(memcmp(buf.space, "test____XXXXXXXX", 16) == 0); TEST_BUFFER_SHIFT_TEARDOWN(buf); } } CX_TEST(test_buffer_shift_left_offset_interface) { TEST_BUFFER_SHIFT_SETUP(buf); buf.pos = 3; CX_TEST_DO { int ret = cxBufferShift(&buf, -2); CX_TEST_ASSERT(ret == 0); CX_TEST_ASSERT(buf.pos == 1); CX_TEST_ASSERT(buf.size == 2); CX_TEST_ASSERT(memcmp(buf.space, "stst____XXXXXXXX", 16) == 0); TEST_BUFFER_SHIFT_TEARDOWN(buf); } } CX_TEST(test_buffer_shift_left_copy_on_write) { TEST_BUFFER_SHIFT_SETUP(buf); buf.flags |= CX_BUFFER_COPY_ON_WRITE; char *original = buf.space; CX_TEST_DO { int ret = cxBufferShiftLeft(&buf, 2); CX_TEST_ASSERT(0 == (buf.flags & CX_BUFFER_COPY_ON_WRITE)); CX_TEST_ASSERT(0 != (buf.flags & CX_BUFFER_FREE_CONTENTS)); CX_TEST_ASSERT(ret == 0); CX_TEST_ASSERT(buf.pos == 2); CX_TEST_ASSERT(buf.size == 2); CX_TEST_ASSERT(memcmp(original, "test____XXXXXXXX", 16) == 0); CX_TEST_ASSERT(memcmp(buf.space, "st", 2) == 0); cxFree(buf.allocator, original); TEST_BUFFER_SHIFT_TEARDOWN(buf); } } CX_TEST(test_buffer_shift_right_zero) { TEST_BUFFER_SHIFT_SETUP(buf); CX_TEST_DO { int ret = cxBufferShiftRight(&buf, 0); CX_TEST_ASSERT(ret == 0); CX_TEST_ASSERT(buf.pos == 4); CX_TEST_ASSERT(buf.size == 4); CX_TEST_ASSERT(memcmp(buf.space, "test____XXXXXXXX", 16) == 0); TEST_BUFFER_SHIFT_TEARDOWN(buf); } } CX_TEST(test_buffer_shift_right_zero_offset_interface) { TEST_BUFFER_SHIFT_SETUP(buf); CX_TEST_DO { int ret = cxBufferShift(&buf, +0); CX_TEST_ASSERT(ret == 0); CX_TEST_ASSERT(buf.pos == 4); CX_TEST_ASSERT(buf.size == 4); CX_TEST_ASSERT(memcmp(buf.space, "test____XXXXXXXX", 16) == 0); TEST_BUFFER_SHIFT_TEARDOWN(buf); } } CX_TEST(test_buffer_shift_right_standard) { TEST_BUFFER_SHIFT_SETUP(buf); CX_TEST_DO { int ret = cxBufferShiftRight(&buf, 3); CX_TEST_ASSERT(ret == 0); CX_TEST_ASSERT(buf.pos == 7); CX_TEST_ASSERT(buf.size == 7); CX_TEST_ASSERT(memcmp(buf.space, "testest_XXXXXXXX", 16) == 0); TEST_BUFFER_SHIFT_TEARDOWN(buf); } } CX_TEST(test_buffer_shift_right_overshift_discard) { TEST_BUFFER_SHIFT_SETUP(buf); CX_TEST_DO { int ret = cxBufferShiftRight(&buf, 6); CX_TEST_ASSERT(ret == 0); CX_TEST_ASSERT(buf.pos == 8); CX_TEST_ASSERT(buf.size == 8); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(memcmp(buf.space, "test__teXXXXXXXX", 16) == 0); TEST_BUFFER_SHIFT_TEARDOWN(buf); } } CX_TEST(test_buffer_shift_right_overshift_extend) { TEST_BUFFER_SHIFT_SETUP(buf); buf.flags |= CX_BUFFER_AUTO_EXTEND; CX_TEST_DO { int ret = cxBufferShiftRight(&buf, 6); CX_TEST_ASSERT(ret == 0); CX_TEST_ASSERT(buf.pos == 10); CX_TEST_ASSERT(buf.size == 10); CX_TEST_ASSERT(buf.capacity >= 10); // cannot assert more than 10 bytes because // the buffer was required to reallocate the space CX_TEST_ASSERT(memcmp(buf.space, "test__test", 10) == 0); TEST_BUFFER_SHIFT_TEARDOWN(buf); } } CX_TEST(test_buffer_shift_right_offset_interface) { TEST_BUFFER_SHIFT_SETUP(buf); buf.pos = 3; CX_TEST_DO { int ret = cxBufferShift(&buf, 2); CX_TEST_ASSERT(ret == 0); CX_TEST_ASSERT(buf.pos == 5); CX_TEST_ASSERT(buf.size == 6); CX_TEST_ASSERT(memcmp(buf.space, "tetest__XXXXXXXX", 16) == 0); TEST_BUFFER_SHIFT_TEARDOWN(buf); } } CX_TEST(test_buffer_shift_right_copy_on_write) { TEST_BUFFER_SHIFT_SETUP(buf); buf.flags |= CX_BUFFER_COPY_ON_WRITE; char *original = buf.space; CX_TEST_DO { int ret = cxBufferShiftRight(&buf, 3); CX_TEST_ASSERT(0 == (buf.flags & CX_BUFFER_COPY_ON_WRITE)); CX_TEST_ASSERT(0 != (buf.flags & CX_BUFFER_FREE_CONTENTS)); CX_TEST_ASSERT(ret == 0); CX_TEST_ASSERT(buf.pos == 7); CX_TEST_ASSERT(buf.size == 7); CX_TEST_ASSERT(memcmp(original, "test____XXXXXXXX", 16) == 0); CX_TEST_ASSERT(memcmp(buf.space, "testest", 7) == 0); cxFree(buf.allocator, original); TEST_BUFFER_SHIFT_TEARDOWN(buf); } } static size_t mock_write_limited_rate( const void *ptr, size_t size, cx_attr_unused size_t nitems, CxBuffer *buffer ) { // simulate limited target drain capacity static bool full = false; if (full) { full = false; return 0; } else { full = true; return cxBufferWrite(ptr, size, nitems > 2 ? 2 : nitems, buffer); } } CX_TEST(test_buffer_write_size_one_fit) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = buf.pos = 4; const char *data = "test"; CX_TEST_DO { size_t written = cxBufferWrite(data, 1, 4, &buf); CX_TEST_ASSERT(written == 4); CX_TEST_ASSERT(buf.size == 8); CX_TEST_ASSERT(buf.pos == 8); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(0 == memcmp(buf.space, "preptest", 8)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_write_size_one_discard) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = buf.pos = 4; const char *data = "testing"; CX_TEST_DO { size_t written = cxBufferWrite(data, 1, 7, &buf); CX_TEST_ASSERT(written == 4); CX_TEST_ASSERT(buf.size == 8); CX_TEST_ASSERT(buf.pos == 8); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(0 == memcmp(buf.space, "preptest\0", 9)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_write_size_one_extend) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = buf.pos = 4; buf.flags |= CX_BUFFER_AUTO_EXTEND; const char *data = "testing"; CX_TEST_DO { size_t written = cxBufferWrite(data, 1, 7, &buf); CX_TEST_ASSERT(written == 7); CX_TEST_ASSERT(buf.size == 11); CX_TEST_ASSERT(buf.pos == 11); CX_TEST_ASSERT(buf.capacity >= 11); CX_TEST_ASSERT(0 == memcmp(buf.space, "preptesting", 11)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_write_copy_on_write) { CxBuffer buf; char original[16] = "preparedXXXXXXX\0"; cxBufferInit(&buf, original, 16, cxDefaultAllocator, CX_BUFFER_COPY_ON_WRITE); buf.capacity = 8; buf.size = 8; buf.pos = 0; const char *data = "testing"; CX_TEST_DO { size_t written = cxBufferWrite(data, 1, 7, &buf); CX_TEST_ASSERT(written == 7); CX_TEST_ASSERT(buf.size == 8); CX_TEST_ASSERT(buf.pos == 7); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(0 == memcmp(buf.space, "testingd", 8)); CX_TEST_ASSERT(0 == memcmp(original, "preparedXXXXXXX\0", 16)); CX_TEST_ASSERT(0 == (buf.flags & CX_BUFFER_COPY_ON_WRITE)); CX_TEST_ASSERT(0 != (buf.flags & CX_BUFFER_FREE_CONTENTS)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_write_multibyte_fit) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = buf.pos = 4; const char *data = "test"; CX_TEST_DO { size_t written = cxBufferWrite(data, 2, 2, &buf); CX_TEST_ASSERT(written == 2); CX_TEST_ASSERT(buf.size == 8); CX_TEST_ASSERT(buf.pos == 8); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(0 == memcmp(buf.space, "preptest", 8)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_write_multibyte_discard) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = 4; buf.pos = 3; const char *data = "testing"; CX_TEST_DO { size_t written = cxBufferWrite(data, 2, 4, &buf); // remember: whole elements are discarded if they do not fit CX_TEST_ASSERT(written == 2); CX_TEST_ASSERT(buf.size == 7); CX_TEST_ASSERT(buf.pos == 7); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(0 == memcmp(buf.space, "pretest\0", 8)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_write_multibyte_extend) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = 4; buf.pos = 3; buf.flags |= CX_BUFFER_AUTO_EXTEND; const char *data = "tester"; CX_TEST_DO { size_t written = cxBufferWrite(data, 2, 3, &buf); // remember: whole elements are discarded if they do not fit CX_TEST_ASSERT(written == 3); CX_TEST_ASSERT(buf.size == 9); CX_TEST_ASSERT(buf.pos == 9); CX_TEST_ASSERT(buf.capacity >= 9); CX_TEST_ASSERT(0 == memcmp(buf.space, "pretester", 9)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_append) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_AUTO_EXTEND); memcpy(buf.space, "prepXXXX\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = 6; buf.pos = 4; CX_TEST_DO { size_t written = cxBufferAppend("testing", 1, 7, &buf); CX_TEST_ASSERT(written == 7); CX_TEST_ASSERT(buf.size == 13); CX_TEST_ASSERT(buf.pos == 4); CX_TEST_ASSERT(buf.capacity >= 13); CX_TEST_ASSERT(0 == memcmp(buf.space, "prepXXtesting", 13)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_put_fit) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = buf.pos = 4; CX_TEST_DO { int c = cxBufferPut(&buf, 0x200 | 'a'); CX_TEST_ASSERT(c == 'a'); CX_TEST_ASSERT(buf.size == 5); CX_TEST_ASSERT(buf.pos == 5); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(0 == memcmp(buf.space, "prepa\0", 6)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_put_discard) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = 4; buf.pos = 8; CX_TEST_DO { int c = cxBufferPut(&buf, 0x200 | 'a'); CX_TEST_ASSERT(c == EOF); CX_TEST_ASSERT(buf.size == 4); CX_TEST_ASSERT(buf.pos == 8); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(0 == memcmp(buf.space, "prep\0\0\0\0\0", 9)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_put_extend) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = 4; buf.pos = 8; buf.flags |= CX_BUFFER_AUTO_EXTEND; CX_TEST_DO { int c = cxBufferPut(&buf, 0x200 | 'a'); CX_TEST_ASSERT(c == 'a'); CX_TEST_ASSERT(buf.size == 9); CX_TEST_ASSERT(buf.pos == 9); CX_TEST_ASSERT(buf.capacity >= 9); CX_TEST_ASSERT(0 == memcmp(buf.space, "prep\0\0\0\0a", 9)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_put_copy_on_write) { CxBuffer buf; char original[16] = "preparedXXXXXXX\0"; cxBufferInit(&buf, original, 16, cxDefaultAllocator, CX_BUFFER_COPY_ON_WRITE); buf.capacity = 8; buf.size = 8; buf.pos = 8; CX_TEST_DO { int c = cxBufferPut(&buf, 0x200 | 'a'); CX_TEST_ASSERT(c == EOF); CX_TEST_ASSERT(buf.size == 8); CX_TEST_ASSERT(buf.pos == 8); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(0 == memcmp(buf.space, "prepared", 8)); // discarded, no write happend! CX_TEST_ASSERT(original == buf.space); CX_TEST_ASSERT(0 != (buf.flags & CX_BUFFER_COPY_ON_WRITE)); CX_TEST_ASSERT(0 == (buf.flags & CX_BUFFER_FREE_CONTENTS)); // now actually write somewhere buf.pos = 2; c = cxBufferPut(&buf, 0x200 | 'a'); CX_TEST_ASSERT(c == 'a'); CX_TEST_ASSERT(buf.size == 8); CX_TEST_ASSERT(buf.pos == 3); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(0 == memcmp(buf.space, "prapared", 8)); CX_TEST_ASSERT(original != buf.space); CX_TEST_ASSERT(0 == memcmp(original, "preparedXXXXXXX\0", 16)); CX_TEST_ASSERT(0 == (buf.flags & CX_BUFFER_COPY_ON_WRITE)); CX_TEST_ASSERT(0 != (buf.flags & CX_BUFFER_FREE_CONTENTS)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_put_string_fit) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = buf.pos = 4; const char *data = "test"; CX_TEST_DO { size_t written = cxBufferPutString(&buf, data); CX_TEST_ASSERT(written == 4); CX_TEST_ASSERT(buf.size == 8); CX_TEST_ASSERT(buf.pos == 8); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(0 == memcmp(buf.space, "preptest", 8)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_put_string_discard) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = buf.pos = 4; const char *data = "testing"; CX_TEST_DO { size_t written = cxBufferPutString(&buf, data); CX_TEST_ASSERT(written == 4); CX_TEST_ASSERT(buf.size == 8); CX_TEST_ASSERT(buf.pos == 8); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(0 == memcmp(buf.space, "preptest\0", 9)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_put_string_extend) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = buf.pos = 4; buf.flags |= CX_BUFFER_AUTO_EXTEND; const char *data = "testing"; CX_TEST_DO { size_t written = cxBufferPutString(&buf, data); CX_TEST_ASSERT(written == 7); CX_TEST_ASSERT(buf.size == 11); CX_TEST_ASSERT(buf.pos == 11); CX_TEST_ASSERT(buf.capacity >= 11); CX_TEST_ASSERT(0 == memcmp(buf.space, "preptesting", 11)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_put_string_copy_on_extend) { CxTestingAllocator talloc; cx_testing_allocator_init(&talloc); const CxAllocator *alloc = &talloc.base; CxBuffer buf; char original[16] = "preparedXXXXXXX\0"; CX_TEST_DO { cxBufferInit(&buf, original, 16, alloc, CX_BUFFER_COPY_ON_EXTEND); buf.capacity = 8; buf.size = buf.pos = 4; size_t written = cxBufferPutString(&buf, "test"); CX_TEST_ASSERT(written == 4); CX_TEST_ASSERT(buf.size == 8); CX_TEST_ASSERT(buf.pos == 8); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(0 == memcmp(buf.space, "preptest", 8)); CX_TEST_ASSERT(original == buf.space); written = cxBufferPutString(&buf, "ing"); CX_TEST_ASSERT(written == 3); CX_TEST_ASSERT(buf.size == 11); CX_TEST_ASSERT(buf.pos == 11); CX_TEST_ASSERT(buf.capacity >= 11); CX_TEST_ASSERT(0 == memcmp(buf.space, "preptesting", 11)); CX_TEST_ASSERT(original != buf.space); CX_TEST_ASSERT(0 == memcmp(original, "preptestXXXXXXX\0", 16)); CX_TEST_ASSERT(!cx_testing_allocator_verify(&talloc)); cxBufferDestroy(&buf); CX_TEST_ASSERT(cx_testing_allocator_verify(&talloc)); cx_testing_allocator_destroy(&talloc); } } CX_TEST(test_buffer_put_string_copy_on_write) { CxBuffer buf; char original[16] = "preparedXXXXXXX\0"; cxBufferInit(&buf, original, 16, cxDefaultAllocator, CX_BUFFER_COPY_ON_WRITE); buf.capacity = 8; buf.size = 8; buf.pos = 4; buf.flags |= CX_BUFFER_AUTO_EXTEND; const char *data = "testing"; CX_TEST_DO { size_t written = cxBufferPutString(&buf, data); CX_TEST_ASSERT(written == 7); CX_TEST_ASSERT(buf.size == 11); CX_TEST_ASSERT(buf.pos == 11); CX_TEST_ASSERT(buf.capacity >= 11); CX_TEST_ASSERT(0 == memcmp(buf.space, "preptesting", 11)); CX_TEST_ASSERT(original != buf.space); CX_TEST_ASSERT(0 == memcmp(original, "preparedXXXXXXX\0", 16)); CX_TEST_ASSERT(0 == (buf.flags & CX_BUFFER_COPY_ON_WRITE)); CX_TEST_ASSERT(0 != (buf.flags & CX_BUFFER_FREE_CONTENTS)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_terminate) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prepAAAAAA\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = buf.pos = 4; const char *data = "test"; CX_TEST_DO { size_t written = cxBufferPutString(&buf, data); CX_TEST_ASSERT(0 != cxBufferTerminate(&buf)); CX_TEST_ASSERT(written == 4); CX_TEST_ASSERT(buf.size == 8); CX_TEST_ASSERT(buf.pos == 8); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(0 == memcmp(buf.space, "preptestAA", 10)); buf.flags |= CX_BUFFER_AUTO_EXTEND; CX_TEST_ASSERT(0 == cxBufferTerminate(&buf)); CX_TEST_ASSERT(buf.size == 8); CX_TEST_ASSERT(buf.pos == 8); CX_TEST_ASSERT(buf.capacity > 8); CX_TEST_ASSERT(0 == memcmp(buf.space, "preptest\0", 9)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_write_size_overflow) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = buf.pos = 4; const char *data = "testing"; CX_TEST_DO { size_t written = cxBufferWrite(data, 8, SIZE_MAX / 4, &buf); CX_TEST_ASSERT(written == 0); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(buf.pos == 4); CX_TEST_ASSERT(buf.size == 4); CX_TEST_ASSERT(0 == memcmp(buf.space, "prep\0", 5)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_write_capacity_overflow) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = buf.pos = 4; buf.flags |= CX_BUFFER_AUTO_EXTEND; const char *data = "testing"; CX_TEST_DO { size_t written = cxBufferWrite(data, 1, SIZE_MAX - 2, &buf); CX_TEST_ASSERT(written == 0); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(buf.pos == 4); CX_TEST_ASSERT(buf.size == 4); CX_TEST_ASSERT(0 == memcmp(buf.space, "prep\0", 5)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_write_only_overwrite) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "preptest\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.pos = 3; buf.size = 8; buf.flags |= CX_BUFFER_AUTO_EXTEND; CX_TEST_DO { size_t written = cxBufferWrite("XXX", 2, 2, &buf); CX_TEST_ASSERT(written == 2); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(buf.size == 8); CX_TEST_ASSERT(buf.pos == 7); CX_TEST_ASSERT(0 == memcmp(buf.space, "preXXX\0t", 8)); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_write_flush_at_capacity) { CxBuffer buf, target; cxBufferInit(&target, NULL, 16, cxDefaultAllocator, CX_BUFFER_AUTO_EXTEND); cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = buf.pos = 4; buf.flush_target = ⌖ buf.flush_func = (cx_write_func)cxBufferWrite; buf.flush_blkmax = 1; CX_TEST_DO { size_t written = cxBufferWrite("foo", 1, 3, &buf); CX_TEST_ASSERT(written == 3); CX_TEST_ASSERT(buf.pos == 7); CX_TEST_ASSERT(buf.size == 7); CX_TEST_ASSERT(target.pos == 0); CX_TEST_ASSERT(target.size == 0); written = cxBufferWrite("hello", 1, 5, &buf); CX_TEST_ASSERT(written == 5); CX_TEST_ASSERT(buf.pos == 0); CX_TEST_ASSERT(buf.size == 0); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(target.pos == 12); CX_TEST_ASSERT(target.size == 12); CX_TEST_ASSERT(0 == memcmp(target.space, "prepfoohello", 12)); } cxBufferDestroy(&buf); cxBufferDestroy(&target); } CX_TEST(test_buffer_write_flush_at_threshold) { CxBuffer buf, target; cxBufferInit(&target, NULL, 16, cxDefaultAllocator, CX_BUFFER_AUTO_EXTEND); cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = buf.pos = 4; buf.flush_target = ⌖ buf.flush_func = (cx_write_func)cxBufferWrite; buf.flush_blkmax = 1; buf.flush_threshold = 12; buf.flags |= CX_BUFFER_AUTO_EXTEND; CX_TEST_DO { size_t written = cxBufferWrite("foobar", 1, 6, &buf); CX_TEST_ASSERT(written == 6); CX_TEST_ASSERT(buf.pos == 10); CX_TEST_ASSERT(buf.size == 10); CX_TEST_ASSERT(buf.capacity >= 10); CX_TEST_ASSERT(buf.capacity <= 12); CX_TEST_ASSERT(target.pos == 0); CX_TEST_ASSERT(target.size == 0); written = cxBufferWrite("hello", 1, 5, &buf); CX_TEST_ASSERT(written == 5); CX_TEST_ASSERT(buf.pos == 0); CX_TEST_ASSERT(buf.size == 0); CX_TEST_ASSERT(buf.capacity <= 12); CX_TEST_ASSERT(target.pos == 15); CX_TEST_ASSERT(target.size == 15); CX_TEST_ASSERT(0 == memcmp(target.space, "prepfoobarhello", 15)); } cxBufferDestroy(&buf); cxBufferDestroy(&target); } CX_TEST(test_buffer_write_flush_rate_limited) { CxBuffer buf, target; cxBufferInit(&target, NULL, 16, cxDefaultAllocator, CX_BUFFER_AUTO_EXTEND); cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "prep\0\0\0\0\0\0\0\0\0\0\0\0", 16); buf.capacity = 8; buf.size = buf.pos = 4; buf.flush_target = ⌖ buf.flush_blkmax = 1; // limit the rate of the flush function and the capacity of the target buf.flush_func = (cx_write_func) mock_write_limited_rate; target.capacity = 16; target.flags &= ~CX_BUFFER_AUTO_EXTEND; CX_TEST_DO { size_t written = cxBufferWrite("foo", 1, 3, &buf); CX_TEST_ASSERT(written == 3); CX_TEST_ASSERT(buf.pos == 7); CX_TEST_ASSERT(buf.size == 7); CX_TEST_ASSERT(target.pos == 0); CX_TEST_ASSERT(target.size == 0); written = cxBufferWrite("hello, world!", 1, 13, &buf); // " world!" fits into this buffer, the remaining stuff is flushed out CX_TEST_ASSERT(written == 13); CX_TEST_ASSERT(buf.pos == 7); CX_TEST_ASSERT(buf.size == 7); CX_TEST_ASSERT(buf.capacity == 8); CX_TEST_ASSERT(0 == memcmp(buf.space, " world!", 7)); CX_TEST_ASSERT(target.pos == 13); CX_TEST_ASSERT(target.size == 13); CX_TEST_ASSERT(target.capacity == 16); CX_TEST_ASSERT(0 == memcmp(target.space, "prepfoohello,", 13)); } cxBufferDestroy(&buf); cxBufferDestroy(&target); } CX_TEST(test_buffer_get) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "some data\0\0\0\0\0\0\0", 16); buf.capacity = 12; buf.size = 9; buf.pos = 2; CX_TEST_DO { CX_TEST_ASSERT(cxBufferGet(&buf) == 'm'); CX_TEST_ASSERT(cxBufferGet(&buf) == 'e'); CX_TEST_ASSERT(cxBufferGet(&buf) == ' '); CX_TEST_ASSERT(cxBufferGet(&buf) == 'd'); CX_TEST_ASSERT(buf.pos == 6); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_get_eof) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "some data\0\0\0\0\0\0\0", 16); buf.capacity = 12; buf.pos = buf.size = 9; CX_TEST_DO { CX_TEST_ASSERT(cxBufferGet(&buf) == EOF); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_read) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "some data\0\0\0\0\0\0\0", 16); buf.capacity = 12; buf.size = 9; buf.pos = 2; CX_TEST_DO { char target[4]; size_t read = cxBufferRead(&target, 1, 4, &buf); CX_TEST_ASSERT(read == 4); CX_TEST_ASSERT(0 == memcmp(&target, "me d", 4)); CX_TEST_ASSERT(buf.pos == 6); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_read_oob) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "some data\0\0\0\0\0\0\0", 16); buf.capacity = 12; buf.size = 9; buf.pos = 6; CX_TEST_DO { char target[4]; size_t read = cxBufferRead(&target, 1, 4, &buf); CX_TEST_ASSERT(read == 3); CX_TEST_ASSERT(0 == memcmp(&target, "ata", 3)); CX_TEST_ASSERT(buf.pos == 9); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_read_oob_multibyte) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "some data\0\0\0\0\0\0\0", 16); buf.capacity = 12; buf.size = 9; buf.pos = 6; CX_TEST_DO { char target[4]; target[2] = '\0'; size_t read = cxBufferRead(&target, 2, 2, &buf); CX_TEST_ASSERT(read == 1); CX_TEST_ASSERT(0 == memcmp(&target, "at\0", 3)); CX_TEST_ASSERT(buf.pos == 8); } cxBufferDestroy(&buf); } CX_TEST(test_buffer_read_eof) { CxBuffer buf; cxBufferInit(&buf, NULL, 16, cxDefaultAllocator, CX_BUFFER_DEFAULT); memcpy(buf.space, "some data\0\0\0\0\0\0\0", 16); buf.capacity = 12; buf.size = buf.pos = 9; CX_TEST_DO { char target[4]; size_t read = cxBufferRead(&target, 1, 1, &buf); CX_TEST_ASSERT(read == 0); CX_TEST_ASSERT(buf.pos == 9); } cxBufferDestroy(&buf); } CxTestSuite *cx_test_suite_buffer(void) { CxTestSuite *suite = cx_test_suite_new("buffer"); cx_test_register(suite, test_buffer_init_wrap_space); cx_test_register(suite, test_buffer_init_wrap_space_auto_extend); cx_test_register(suite, test_buffer_init_wrap_space_auto_free); cx_test_register(suite, test_buffer_init_fresh_space); cx_test_register(suite, test_buffer_init_on_heap); cx_test_register(suite, test_buffer_minimum_capacity_sufficient); cx_test_register(suite, test_buffer_minimum_capacity_extend); cx_test_register(suite, test_buffer_clear); cx_test_register(suite, test_buffer_clear_copy_on_write); cx_test_register(suite, test_buffer_reset); cx_test_register(suite, test_buffer_seek_set_zero); cx_test_register(suite, test_buffer_seek_set_valid); cx_test_register(suite, test_buffer_seek_set_invalid); cx_test_register(suite, test_buffer_seek_cur_zero); cx_test_register(suite, test_buffer_seek_cur_valid_positive); cx_test_register(suite, test_buffer_seek_cur_valid_negative); cx_test_register(suite, test_buffer_seek_cur_invalid_positive); cx_test_register(suite, test_buffer_seek_cur_invalid_negative); cx_test_register(suite, test_buffer_seek_end_zero); cx_test_register(suite, test_buffer_seek_end_valid); cx_test_register(suite, test_buffer_seek_end_invalid); cx_test_register(suite, test_buffer_seek_whence_invalid); cx_test_register(suite, test_buffer_eof_reached); cx_test_register(suite, test_buffer_eof_not_reached); cx_test_register(suite, test_buffer_shift_left_zero); cx_test_register(suite, test_buffer_shift_left_zero_offset_interface); cx_test_register(suite, test_buffer_shift_left_standard); cx_test_register(suite, test_buffer_shift_left_overshift); cx_test_register(suite, test_buffer_shift_left_overshift_pos_only); cx_test_register(suite, test_buffer_shift_left_offset_interface); cx_test_register(suite, test_buffer_shift_left_copy_on_write); cx_test_register(suite, test_buffer_shift_right_zero); cx_test_register(suite, test_buffer_shift_right_zero_offset_interface); cx_test_register(suite, test_buffer_shift_right_standard); cx_test_register(suite, test_buffer_shift_right_overshift_discard); cx_test_register(suite, test_buffer_shift_right_overshift_extend); cx_test_register(suite, test_buffer_shift_right_offset_interface); cx_test_register(suite, test_buffer_shift_right_copy_on_write); cx_test_register(suite, test_buffer_write_size_one_fit); cx_test_register(suite, test_buffer_write_size_one_discard); cx_test_register(suite, test_buffer_write_size_one_extend); cx_test_register(suite, test_buffer_write_multibyte_fit); cx_test_register(suite, test_buffer_write_multibyte_discard); cx_test_register(suite, test_buffer_write_multibyte_extend); cx_test_register(suite, test_buffer_write_copy_on_write); cx_test_register(suite, test_buffer_append); cx_test_register(suite, test_buffer_put_fit); cx_test_register(suite, test_buffer_put_discard); cx_test_register(suite, test_buffer_put_extend); cx_test_register(suite, test_buffer_put_copy_on_write); cx_test_register(suite, test_buffer_put_string_fit); cx_test_register(suite, test_buffer_put_string_discard); cx_test_register(suite, test_buffer_put_string_extend); cx_test_register(suite, test_buffer_put_string_copy_on_extend); cx_test_register(suite, test_buffer_put_string_copy_on_write); cx_test_register(suite, test_buffer_terminate); cx_test_register(suite, test_buffer_write_size_overflow); cx_test_register(suite, test_buffer_write_capacity_overflow); cx_test_register(suite, test_buffer_write_only_overwrite); cx_test_register(suite, test_buffer_write_flush_at_capacity); cx_test_register(suite, test_buffer_write_flush_at_threshold); cx_test_register(suite, test_buffer_write_flush_rate_limited); cx_test_register(suite, test_buffer_get); cx_test_register(suite, test_buffer_get_eof); cx_test_register(suite, test_buffer_read); cx_test_register(suite, test_buffer_read_oob); cx_test_register(suite, test_buffer_read_oob_multibyte); cx_test_register(suite, test_buffer_read_eof); return suite; }