mirror of https://github.com/LeOS-GSI/LeOS-Genesis
381 lines
12 KiB
C
381 lines
12 KiB
C
/**
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* @file ncdval_test.c
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* @author Ambroz Bizjak <ambrop7@gmail.com>
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*
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* @section LICENSE
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. Neither the name of the author nor the
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* names of its contributors may be used to endorse or promote products
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* derived from this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
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* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
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* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#include <stdio.h>
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#include <ncd/NCDVal.h>
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#include <ncd/NCDStringIndex.h>
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#include <ncd/static_strings.h>
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#include <base/BLog.h>
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#include <misc/debug.h>
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#include <misc/balloc.h>
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#include <misc/offset.h>
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#define FORCE(cmd) if (!(cmd)) { fprintf(stderr, "failed\n"); exit(1); }
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struct composed_string {
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BRefTarget ref_target;
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size_t length;
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size_t chunk_size;
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char **chunks;
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};
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static void composed_string_ref_target_func_release (BRefTarget *ref_target)
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{
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struct composed_string *cs = UPPER_OBJECT(ref_target, struct composed_string, ref_target);
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size_t num_chunks = cs->length / cs->chunk_size;
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if (cs->length % cs->chunk_size) {
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num_chunks++;
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}
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for (size_t i = 0; i < num_chunks; i++) {
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BFree(cs->chunks[i]);
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}
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BFree(cs->chunks);
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BFree(cs);
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}
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static void composed_string_func_getptr (void *user, size_t offset, const char **out_data, size_t *out_length)
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{
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struct composed_string *cs = user;
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ASSERT(offset < cs->length)
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*out_data = cs->chunks[offset / cs->chunk_size] + (offset % cs->chunk_size);
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*out_length = cs->chunk_size - (offset % cs->chunk_size);
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}
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static NCDValRef build_composed_string (NCDValMem *mem, const char *data, size_t length, size_t chunk_size)
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{
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ASSERT(chunk_size > 0)
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struct composed_string *cs = BAlloc(sizeof(*cs));
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if (!cs) {
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goto fail0;
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}
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cs->length = length;
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cs->chunk_size = chunk_size;
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size_t num_chunks = cs->length / cs->chunk_size;
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if (cs->length % cs->chunk_size) {
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num_chunks++;
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}
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cs->chunks = BAllocArray(num_chunks, sizeof(cs->chunks[0]));
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if (!cs->chunk_size) {
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goto fail1;
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}
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size_t i;
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for (i = 0; i < num_chunks; i++) {
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cs->chunks[i] = BAlloc(cs->chunk_size);
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if (!cs->chunks[i]) {
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goto fail2;
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}
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size_t to_copy = length;
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if (to_copy > cs->chunk_size) {
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to_copy = cs->chunk_size;
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}
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memcpy(cs->chunks[i], data, to_copy);
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data += to_copy;
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length -= to_copy;
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}
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BRefTarget_Init(&cs->ref_target, composed_string_ref_target_func_release);
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NCDValComposedStringResource resource;
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resource.func_getptr = composed_string_func_getptr;
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resource.user = cs;
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resource.ref_target = &cs->ref_target;
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NCDValRef val = NCDVal_NewComposedString(mem, resource, 0, cs->length);
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BRefTarget_Deref(&cs->ref_target);
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return val;
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fail2:
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while (i-- > 0) {
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BFree(cs->chunks[i]);
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}
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BFree(cs->chunks);
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fail1:
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BFree(cs);
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fail0:
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return NCDVal_NewInvalid();
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}
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static void test_string (NCDValRef str, const char *data, size_t length)
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{
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FORCE( !NCDVal_IsInvalid(str) )
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FORCE( NCDVal_IsString(str) )
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FORCE( NCDVal_StringLength(str) == length )
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FORCE( NCDVal_StringHasNulls(str) == !!memchr(data, '\0', length) )
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FORCE( NCDVal_IsStringNoNulls(str) == !memchr(data, '\0', length) )
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FORCE( NCDVal_StringRegionEquals(str, 0, length, data) )
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b_cstring cstr = NCDVal_StringCstring(str);
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for (size_t i = 0; i < length; i++) {
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size_t chunk_length;
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const char *chunk_data = b_cstring_get(cstr, i, length - i, &chunk_length);
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FORCE( chunk_length > 0 )
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FORCE( chunk_length <= length - i )
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FORCE( !memcmp(chunk_data, data + i, chunk_length) )
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FORCE( NCDVal_StringRegionEquals(str, i, chunk_length, data + i) )
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FORCE( b_cstring_memcmp(cstr, b_cstring_make_buf(data, length), i, i, chunk_length) == 0 )
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FORCE( b_cstring_memcmp(cstr, b_cstring_make_buf(data + i, length - i), i, 0, chunk_length) == 0 )
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}
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}
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static void print_indent (int indent)
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{
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for (int i = 0; i < indent; i++) {
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printf(" ");
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}
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}
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static void print_value (NCDValRef val, unsigned int indent)
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{
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switch (NCDVal_Type(val)) {
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case NCDVAL_STRING: {
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NCDValNullTermString nts;
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FORCE( NCDVal_StringNullTerminate(val, &nts) )
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print_indent(indent);
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printf("string(%zu) %s\n", NCDVal_StringLength(val), nts.data);
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NCDValNullTermString_Free(&nts);
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} break;
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case NCDVAL_LIST: {
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size_t count = NCDVal_ListCount(val);
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print_indent(indent);
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printf("list(%zu)\n", NCDVal_ListCount(val));
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for (size_t i = 0; i < count; i++) {
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NCDValRef elem_val = NCDVal_ListGet(val, i);
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print_value(elem_val, indent + 1);
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}
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} break;
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case NCDVAL_MAP: {
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print_indent(indent);
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printf("map(%zu)\n", NCDVal_MapCount(val));
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for (NCDValMapElem e = NCDVal_MapOrderedFirst(val); !NCDVal_MapElemInvalid(e); e = NCDVal_MapOrderedNext(val, e)) {
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NCDValRef ekey = NCDVal_MapElemKey(val, e);
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NCDValRef eval = NCDVal_MapElemVal(val, e);
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print_indent(indent + 1);
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printf("key=\n");
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print_value(ekey, indent + 2);
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print_indent(indent + 1);
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printf("val=\n");
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print_value(eval, indent + 2);
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}
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} break;
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}
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}
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int main ()
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{
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int res;
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BLog_InitStdout();
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NCDStringIndex string_index;
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FORCE( NCDStringIndex_Init(&string_index) )
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// Some basic usage of values.
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NCDValMem mem;
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NCDValMem_Init(&mem);
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NCDValRef s1 = NCDVal_NewString(&mem, "Hello World");
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test_string(s1, "Hello World", 11);
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ASSERT( NCDVal_IsString(s1) )
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ASSERT( !NCDVal_IsIdString(s1) )
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ASSERT( NCDVal_Type(s1) == NCDVAL_STRING )
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NCDValRef s2 = NCDVal_NewString(&mem, "This is reeeeeeeeeeeeeallllllllyyyyy fun!");
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FORCE( !NCDVal_IsInvalid(s2) )
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NCDValRef l1 = NCDVal_NewList(&mem, 10);
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FORCE( !NCDVal_IsInvalid(l1) )
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FORCE( NCDVal_ListAppend(l1, s1) )
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FORCE( NCDVal_ListAppend(l1, s2) )
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print_value(s1, 0);
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print_value(s2, 0);
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print_value(l1, 0);
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NCDValRef k1 = NCDVal_NewString(&mem, "K1");
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FORCE( !NCDVal_IsInvalid(k1) )
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NCDValRef v1 = NCDVal_NewString(&mem, "V1");
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FORCE( !NCDVal_IsInvalid(v1) )
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NCDValRef k2 = NCDVal_NewString(&mem, "K2");
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FORCE( !NCDVal_IsInvalid(k2) )
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NCDValRef v2 = NCDVal_NewString(&mem, "V2");
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FORCE( !NCDVal_IsInvalid(v2) )
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NCDValRef m1 = NCDVal_NewMap(&mem, 3);
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FORCE( !NCDVal_IsInvalid(m1) )
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FORCE( NCDVal_MapInsert(m1, k1, v1, &res) && res )
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FORCE( NCDVal_MapInsert(m1, k2, v2, &res) && res )
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ASSERT( NCDVal_MapGetValue(m1, "K1").idx == v1.idx )
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ASSERT( NCDVal_MapGetValue(m1, "K2").idx == v2.idx )
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ASSERT( NCDVal_IsInvalid(NCDVal_MapGetValue(m1, "K3")) )
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NCDValRef ids1 = NCDVal_NewIdString(&mem, NCD_STRING_ARG1, &string_index);
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test_string(ids1, "_arg1", 5);
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ASSERT( !memcmp(NCDVal_StringData(ids1), "_arg1", 5) )
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ASSERT( NCDVal_StringLength(ids1) == 5 )
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ASSERT( !NCDVal_StringHasNulls(ids1) )
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ASSERT( NCDVal_StringEquals(ids1, "_arg1") )
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ASSERT( NCDVal_Type(ids1) == NCDVAL_STRING )
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ASSERT( NCDVal_IsIdString(ids1) )
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NCDValRef ids2 = NCDVal_NewIdString(&mem, NCD_STRING_ARG2, &string_index);
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test_string(ids2, "_arg2", 5);
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ASSERT( !memcmp(NCDVal_StringData(ids2), "_arg2", 5) )
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ASSERT( NCDVal_StringLength(ids2) == 5 )
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ASSERT( !NCDVal_StringHasNulls(ids2) )
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ASSERT( NCDVal_StringEquals(ids2, "_arg2") )
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ASSERT( NCDVal_Type(ids2) == NCDVAL_STRING )
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ASSERT( NCDVal_IsIdString(ids2) )
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FORCE( NCDVal_MapInsert(m1, ids1, ids2, &res) && res )
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ASSERT( NCDVal_MapGetValue(m1, "_arg1").idx == ids2.idx )
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print_value(m1, 0);
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NCDValRef copy = NCDVal_NewCopy(&mem, m1);
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FORCE( !NCDVal_IsInvalid(copy) )
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ASSERT( NCDVal_Compare(copy, m1) == 0 )
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NCDValMem_Free(&mem);
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// Try to make copies of a string within the same memory object.
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// This is an evil test because we cannot simply copy a string using e.g.
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// NCDVal_NewStringBin() - it requires that the buffer passed
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// be outside the memory object of the new string.
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// We use NCDVal_NewCopy(), which takes care of this by creating
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// an uninitialized string using NCDVal_NewStringUninitialized() and
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// then copyng the data.
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NCDValMem_Init(&mem);
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NCDValRef s[100];
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s[0] = NCDVal_NewString(&mem, "Eeeeeeeeeeeevil.");
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FORCE( !NCDVal_IsInvalid(s[0]) )
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for (int i = 1; i < 100; i++) {
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s[i] = NCDVal_NewCopy(&mem, s[i - 1]);
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FORCE( !NCDVal_IsInvalid(s[i]) )
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ASSERT( NCDVal_StringEquals(s[i - 1], "Eeeeeeeeeeeevil.") )
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ASSERT( NCDVal_StringEquals(s[i], "Eeeeeeeeeeeevil.") )
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}
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for (int i = 0; i < 100; i++) {
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ASSERT( NCDVal_StringEquals(s[i], "Eeeeeeeeeeeevil.") )
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}
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NCDValMem_Free(&mem);
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NCDValMem_Init(&mem);
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NCDValRef cstr1 = build_composed_string(&mem, "Hello World", 11, 3);
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test_string(cstr1, "Hello World", 11);
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FORCE( NCDVal_IsComposedString(cstr1) )
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FORCE( !NCDVal_IsContinuousString(cstr1) )
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FORCE( NCDVal_StringEquals(cstr1, "Hello World") )
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FORCE( !NCDVal_StringEquals(cstr1, "Hello World ") )
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FORCE( !NCDVal_StringEquals(cstr1, "Hello WorlD") )
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NCDValRef cstr2 = build_composed_string(&mem, "GoodBye", 7, 1);
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test_string(cstr2, "GoodBye", 7);
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FORCE( NCDVal_IsComposedString(cstr2) )
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FORCE( !NCDVal_IsContinuousString(cstr2) )
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FORCE( NCDVal_StringEquals(cstr2, "GoodBye") )
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FORCE( !NCDVal_StringEquals(cstr2, " GoodBye") )
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FORCE( !NCDVal_StringEquals(cstr2, "goodBye") )
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NCDValRef cstr3 = build_composed_string(&mem, "Bad\x00String", 10, 4);
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test_string(cstr3, "Bad\x00String", 10);
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FORCE( NCDVal_IsComposedString(cstr3) )
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FORCE( !NCDVal_IsContinuousString(cstr3) )
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FORCE( NCDVal_StringMemCmp(cstr1, cstr2, 1, 2, 3) < 0 )
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FORCE( NCDVal_StringMemCmp(cstr1, cstr2, 7, 1, 4) > 0 )
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char buf[10];
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NCDVal_StringCopyOut(cstr1, 1, 10, buf);
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FORCE( !memcmp(buf, "ello World", 10) )
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NCDValRef clist1 = NCDVal_NewList(&mem, 3);
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FORCE( !NCDVal_IsInvalid(clist1) )
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FORCE( NCDVal_ListAppend(clist1, cstr1) )
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FORCE( NCDVal_ListAppend(clist1, cstr2) )
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FORCE( NCDVal_ListAppend(clist1, cstr3) )
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FORCE( NCDVal_ListCount(clist1) == 3 )
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FORCE( NCDValMem_ConvertNonContinuousStrings(&mem, &clist1) )
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FORCE( NCDVal_ListCount(clist1) == 3 )
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NCDValRef fixed_str1 = NCDVal_ListGet(clist1, 0);
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NCDValRef fixed_str2 = NCDVal_ListGet(clist1, 1);
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NCDValRef fixed_str3 = NCDVal_ListGet(clist1, 2);
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FORCE( NCDVal_IsContinuousString(fixed_str1) )
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FORCE( NCDVal_IsContinuousString(fixed_str2) )
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FORCE( NCDVal_IsContinuousString(fixed_str3) )
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test_string(fixed_str1, "Hello World", 11);
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test_string(fixed_str2, "GoodBye", 7);
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test_string(fixed_str3, "Bad\x00String", 10);
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NCDValMem_Free(&mem);
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NCDStringIndex_Free(&string_index);
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return 0;
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}
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