任何人都可以让我知道当我将固定转换为浮动并浮动到固定时,这些方法之间会有什么区别。
A)
int a=32767;
float b = 32765*(1/32767) // 16 bit scaling factor
int c = b*32767;
b)中
int a=32767;
float b = 32765*(1/1.0) // scaling factor=1
int c = b*1;
A)
int a=32767;
float b = 32765*(1/0x80000) // 24 bit scaling factor
int c = b*(0x80000);
如果我的机器使用Q23定点表示,我应该使用哪个?
答案 0 :(得分:1)
我没有找到任何关于机器使用的“Q23定点表示”的详细信息,所以我编写了自己的定义,编写了一些转换例程并测试了几个值:
#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
/**
* q23 is a fixed-point two's-complement type:
* - 1 bit sign,
* - 8 bit integer part,
* - 23 bit fraction part.
*
* long is assumed to be 32 bit two's complement without padding bits.
*/
typedef long q23;
static q23
cvt_float_to_q23(float f) {
return f * (1 << 23);
}
static float
cvt_q23_to_float(q23 x) {
return ((float) x) / (1 << 23);
}
/*
* Here starts the testing code.
*/
static unsigned errors = 0;
static void
assert_q23_is(q23 fixed, float f) {
if (cvt_q23_to_float(fixed) != f) {
fprintf(stderr, "E: cvt_q23_to_float(%08lx) expected %.10f, got %.10f\n",
fixed, f, cvt_q23_to_float(fixed));
errors++;
}
}
static void
assert_float_is(float f, q23 fixed) {
if (cvt_float_to_q23(f) != fixed) {
fprintf(stderr, "E: cvt_float_to_q23(%f) expected %08lx, got %08lx\n",
f, fixed, cvt_float_to_q23(f));
errors++;
}
}
static void
assert_equals(q23 fixed, float f) {
assert_q23_is(fixed, f);
assert_float_is(f, fixed);
}
int
main() {
/* Some values have equivalent representation. */
assert_equals(LONG_MIN, -256.0f);
assert_equals(LONG_MIN / 2, -128.0f);
assert_equals(0, 0.0f);
assert_equals(LONG_MAX / 2 + 1, 128.0f);
/* There will be a fixpoint ... */
assert_float_is(1.0 / 3, 0x002aaaaa);
assert_q23_is(0x002aaaaa, 0.3333332539f);
/* float only has 24 bits of precision */
assert_equals(0x2aaaaac0, 256.0 / 3);
if (errors == 0) {
printf("ok\n");
return EXIT_SUCCESS;
}
return EXIT_FAILURE;
}
一些评论:
cvt_float_to_q23的参数来自行实现。