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cc65/test/val/bitfield.c

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/*
Copyright 2020 The cc65 Authors
2020-07-02 07:08:57 +00:00
This software is provided 'as-is', without any express or implied
warranty. In no event will the authors be held liable for any damages
arising from the use of this software.
Permission is granted to anyone to use this software for any purpose,
including commercial applications, and to alter it and redistribute it
freely, subject to the following restrictions:
1. The origin of this software must not be misrepresented; you must not
claim that you wrote the original software. If you use this software
in a product, an acknowledgment in the product documentation would be
appreciated but is not required.
2. Altered source versions must be plainly marked as such, and must not be
misrepresented as being the original software.
3. This notice may not be removed or altered from any source distribution.
*/
/*
2020-07-02 07:08:57 +00:00
Tests of bit-field packing; see https://github.com/cc65/cc65/issues/1054
*/
#include <stdio.h>
static unsigned char failures = 0;
static struct four_bits {
unsigned int x : 4;
} fb = {1};
static void test_four_bits(void)
{
if (sizeof(struct four_bits) != 1) {
printf("Got sizeof(struct four_bits) = %zu, expected 1.\n",
sizeof(struct four_bits));
failures++;
}
if (fb.x != 1) {
printf("Got fb.x = %u, expected 1.\n", fb.x);
failures++;
}
fb.x = 3;
if (fb.x != 3) {
printf("Got fb.x = %u, expected 3.\n", fb.x);
failures++;
}
}
/*
Logic is somewhat diferent for bit-fields that end a struct vs
having additional fields.
*/
static struct four_bits_with_int {
unsigned int x : 4;
unsigned int y;
} fbi = {1, 2};
static void test_four_bits_with_int(void)
{
/* The first 4-bit bit-field just takes one byte, so the size is 3. */
if (sizeof(struct four_bits_with_int) != 3) {
printf("Got sizeof(struct four_bits_with_int) = %zu, expected 3.\n",
sizeof(struct four_bits_with_int));
failures++;
}
if (fbi.x != 1) {
printf("Got fbi.x = %u, expected 1.\n", fbi.x);
failures++;
}
if (fbi.y != 2) {
printf("Got fbi.y = %u, expected 2.\n", fbi.y);
failures++;
}
fbi.x = 3;
fbi.y = 17;
if (fbi.x != 3) {
printf("Got fbi.x = %u, expected 3.\n", fbi.x);
failures++;
}
if (fbi.y != 17) {
printf("Got fbi.y = %u, expected 17.\n", fbi.y);
failures++;
}
}
static struct overlap {
unsigned int x : 10;
unsigned int y : 10;
} o = {11, 22};
/* Tests that bit-fields can share allocation units. */
static void test_overlap(void)
{
if (sizeof(struct overlap) != 3) {
printf("Got sizeof(struct overlap) = %zu, expected 3.\n",
sizeof(struct overlap));
failures++;
}
if (o.x != 11) {
printf("Got o.x = %u, expected 11.\n", o.x);
failures++;
}
if (o.y != 22) {
printf("Got o.y = %u, expected 22.\n", o.y);
failures++;
}
o.x = 33;
o.y = 44;
if (o.x != 33) {
printf("Got o.x = %u, expected 33.\n", o.x);
failures++;
}
if (o.y != 44) {
printf("Got o.y = %u, expected 44.\n", o.y);
failures++;
}
}
static struct overlap_with_int {
unsigned int x : 10;
unsigned int y : 10;
unsigned int z;
} oi = {111, 222, 333};
static void test_overlap_with_int(void)
{
/* First two fields in 3 bytes, then another 2 bytes. */
if (sizeof(struct overlap_with_int) != 5) {
printf("Got sizeof(struct overlap_with_int) = %zu, expected 5.\n",
sizeof(struct overlap_with_int));
failures++;
}
if (oi.x != 111) {
printf("Got oi.x = %u, expected 111.\n", oi.x);
failures++;
}
if (oi.y != 222) {
printf("Got oi.y = %u, expected 222.\n", oi.y);
failures++;
}
if (oi.z != 333) {
printf("Got oi.z = %u, expected 333.\n", oi.z);
failures++;
}
oi.x = 444;
oi.y = 555;
oi.z = 666;
if (oi.x != 444) {
printf("Got oi.x = %u, expected 444.\n", oi.x);
failures++;
}
if (oi.y != 555) {
printf("Got oi.y = %u, expected 555.\n", oi.y);
failures++;
}
if (oi.z != 666) {
printf("Got oi.z = %u, expected 666.\n", oi.z);
failures++;
}
}
static struct full_width {
unsigned int x : 8;
unsigned int y : 16;
} fw = {255, 17};
static void test_full_width(void)
{
if (sizeof(struct full_width) != 3) {
printf("Got sizeof(struct full_width) = %zu, expected 3.\n",
sizeof(struct full_width));
failures++;
}
if (fw.x != 255) {
printf("Got fw.x = %u, expected 255.\n", fw.x);
failures++;
}
if (fw.y != 17) {
printf("Got fw.y = %u, expected 17.\n", fw.y);
failures++;
}
fw.x = 42;
fw.y = 1023;
if (fw.x != 42) {
printf("Got fw.x = %u, expected 42.\n", fw.x);
failures++;
}
if (fw.y != 1023) {
printf("Got fw.y = %u, expected 1023.\n", fw.y);
failures++;
}
}
static struct aligned_end {
unsigned int : 2;
unsigned int x : 6;
unsigned int : 3;
unsigned int y : 13;
/* z crosses a byte boundary, but fits in a byte when shifted. */
unsigned int : 6;
unsigned int z : 7;
} ae = {63, 17, 100};
static void test_aligned_end(void)
{
if (sizeof(struct aligned_end) != 5) {
printf("Got sizeof(struct aligned_end) = %zu, expected 5.\n",
sizeof(struct aligned_end));
failures++;
}
if (ae.x != 63) {
printf("Got ae.x = %u, expected 63.\n", ae.x);
failures++;
}
if (ae.y != 17) {
printf("Got ae.y = %u, expected 17.\n", ae.y);
failures++;
}
if (ae.z != 100) {
printf("Got ae.z = %u, expected 100.\n", ae.z);
failures++;
}
ae.x = 42;
ae.y = 1023;
ae.z = 66;
if (ae.x != 42) {
printf("Got ae.x = %u, expected 42.\n", ae.x);
failures++;
}
if (ae.y != 1023) {
printf("Got ae.y = %u, expected 1023.\n", ae.y);
failures++;
}
if (ae.z != 66) {
printf("Got ae.z = %u, expected 66.\n", ae.z);
failures++;
}
}
int main(void)
{
test_four_bits();
test_four_bits_with_int();
test_overlap();
test_overlap_with_int();
test_full_width();
test_aligned_end();
printf("failures: %u\n", failures);
return failures;
}