/*####COPYRIGHTBEGIN#### ------------------------------------------- Copyright (C) 2005 by Steve Karg This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to: The Free Software Foundation, Inc. 59 Temple Place - Suite 330 Boston, MA 02111-1307 USA. As a special exception, if other files instantiate templates or use macros or inline functions from this file, or you compile this file and link it with other works to produce a work based on this file, this file does not by itself cause the resulting work to be covered by the GNU General Public License. However the source code for this file must still be made available in accordance with section (3) of the GNU General Public License. This exception does not invalidate any other reasons why a work based on this file might be covered by the GNU General Public License. ------------------------------------------- ####COPYRIGHTEND####*/ /* Functional Description: Static buffer library for deeply embedded system. See the unit tests for usage examples. */ #include #include #include #include "sbuf.h" void sbuf_init(STATIC_BUFFER * b, /* static buffer structure */ char *data, /* actual size, in bytes, of the data block or array of data */ unsigned size) { /* number of bytes used */ if (b) { b->data = data; b->size = size; b->count = 0; } return; } /* returns true if count==0, false if count > 0 */ bool sbuf_empty(STATIC_BUFFER const *b) { return (b ? (b->count == 0) : false); } char *sbuf_data(STATIC_BUFFER const *b) { return (b ? b->data : NULL); } unsigned sbuf_size(STATIC_BUFFER * b) { return (b ? b->size : 0); } unsigned sbuf_count(STATIC_BUFFER * b) { return (b ? b->count : 0); } /* returns true if successful, false if not enough room to append data */ bool sbuf_put(STATIC_BUFFER * b, /* static buffer structure */ unsigned offset, /* where to start */ char *data, /* number of bytes used */ unsigned data_size) { /* how many to add */ bool status = false; /* return value */ if (b && b->data) { if (((offset + data_size) < b->size)) { b->count = offset + data_size; while (data_size) { b->data[offset] = *data; offset++; data++; data_size--; } status = true; } } return status; } /* returns true if successful, false if not enough room to append data */ bool sbuf_append(STATIC_BUFFER * b, /* static buffer structure */ char *data, /* number of bytes used */ unsigned data_size) { /* how many to add */ unsigned count = 0; if (b) count = b->count; return sbuf_put(b, count, data, data_size); } /* returns true if successful, false if not enough room to append data */ bool sbuf_truncate(STATIC_BUFFER * b, /* static buffer structure */ unsigned count) { /* total number of bytes in use */ bool status = false; /* return value */ if (b) { if (count < b->size) { b->count = count; status = true; } } return status; } #ifdef TEST #include #include #include "ctest.h" void testStaticBuffer(Test * pTest) { STATIC_BUFFER sbuffer; char *data1 = "Joshua"; char *data2 = "Anna"; char *data3 = "Christopher"; char *data4 = "Mary"; char data_buffer[480] = ""; char test_data_buffer[480] = ""; char *data; unsigned count; sbuf_init(&sbuffer, NULL, 0); ct_test(pTest, sbuf_empty(&sbuffer) == true); ct_test(pTest, sbuf_data(&sbuffer) == NULL); ct_test(pTest, sbuf_size(&sbuffer) == 0); ct_test(pTest, sbuf_count(&sbuffer) == 0); ct_test(pTest, sbuf_append(&sbuffer, data1, strlen(data1)) == false); sbuf_init(&sbuffer, data_buffer, sizeof(data_buffer)); ct_test(pTest, sbuf_empty(&sbuffer) == true); ct_test(pTest, sbuf_data(&sbuffer) == data_buffer); ct_test(pTest, sbuf_size(&sbuffer) == sizeof(data_buffer)); ct_test(pTest, sbuf_count(&sbuffer) == 0); ct_test(pTest, sbuf_append(&sbuffer, data1, strlen(data1)) == true); ct_test(pTest, sbuf_append(&sbuffer, data2, strlen(data2)) == true); ct_test(pTest, sbuf_append(&sbuffer, data3, strlen(data3)) == true); ct_test(pTest, sbuf_append(&sbuffer, data4, strlen(data4)) == true); strcat(test_data_buffer, data1); strcat(test_data_buffer, data2); strcat(test_data_buffer, data3); strcat(test_data_buffer, data4); ct_test(pTest, sbuf_count(&sbuffer) == strlen(test_data_buffer)); data = sbuf_data(&sbuffer); count = sbuf_count(&sbuffer); ct_test(pTest, memcmp(data, test_data_buffer, count) == 0); ct_test(pTest, count == strlen(test_data_buffer)); ct_test(pTest, sbuf_truncate(&sbuffer, 0) == true); ct_test(pTest, sbuf_count(&sbuffer) == 0); ct_test(pTest, sbuf_size(&sbuffer) == sizeof(data_buffer)); ct_test(pTest, sbuf_append(&sbuffer, data4, strlen(data4)) == true); data = sbuf_data(&sbuffer); count = sbuf_count(&sbuffer); ct_test(pTest, memcmp(data, data4, count) == 0); ct_test(pTest, count == strlen(data4)); return; } #ifdef TEST_STATIC_BUFFER int main(void) { Test *pTest; bool rc; pTest = ct_create("static buffer", NULL); /* individual tests */ rc = ct_addTestFunction(pTest, testStaticBuffer); assert(rc); ct_setStream(pTest, stdout); ct_run(pTest); (void) ct_report(pTest); ct_destroy(pTest); return 0; } #endif /* TEST_STATIC_BUFFER */ #endif /* TEST */