#include <assert.h>
#include <stdio.h>
#include <float.h>
#include <string.h>
#ifdef WIN32
#include <windows.h>
#include <io.h>
#include <fileapi.h>
#endif
#include "jv.h"
#include "jv_dtoa.h"
#include "jv_unicode.h"
#include "jv_alloc.h"
#ifndef MAX_PRINT_DEPTH
#define MAX_PRINT_DEPTH (256)
#endif
#define ESC "\033"
#define COL(c) (ESC "[" c "m")
#define COLRESET (ESC "[0m")
static const jv_kind color_kinds[] =
{JV_KIND_NULL, JV_KIND_FALSE, JV_KIND_TRUE, JV_KIND_NUMBER,
JV_KIND_STRING, JV_KIND_ARRAY, JV_KIND_OBJECT};
static char color_bufs[sizeof(color_kinds)/sizeof(color_kinds[0])][16];
static const char *color_bufps[8];
static const char* def_colors[] =
{COL("1;30"), COL("0;39"), COL("0;39"), COL("0;39"),
COL("0;32"), COL("1;39"), COL("1;39")};
#define FIELD_COLOR COL("34;1")
static const char **colors = def_colors;
int
jq_set_colors(const char *c)
{
const char *e;
size_t i;
if (c == NULL)
return 1;
colors = def_colors;
memset(color_bufs, 0, sizeof(color_bufs));
for (i = 0; i < sizeof(def_colors) / sizeof(def_colors[0]); i++)
color_bufps[i] = def_colors[i];
for (i = 0; i < sizeof(def_colors) / sizeof(def_colors[0]) && *c != '\0'; i++, c = e) {
if ((e = strchr(c, ':')) == NULL)
e = c + strlen(c);
if ((size_t)(e - c) > sizeof(color_bufs[i]) - 4 )
return 0;
color_bufs[i][0] = ESC[0];
color_bufs[i][1] = '[';
(void) strncpy(&color_bufs[i][2], c, e - c);
if (strspn(&color_bufs[i][2], "0123456789;") < strlen(&color_bufs[i][2]))
return 0;
color_bufs[i][2 + (e - c)] = 'm';
color_bufps[i] = color_bufs[i];
if (e[0] == ':')
e++;
}
colors = color_bufps;
return 1;
}
static void put_buf(const char *s, int len, FILE *fout, jv *strout, int is_tty) {
if (strout) {
*strout = jv_string_append_buf(*strout, s, len);
} else {
#ifdef WIN32
if (is_tty) {
wchar_t *ws;
size_t wl;
if (len == -1)
len = strlen(s);
wl = MultiByteToWideChar(CP_UTF8, 0, s, len, NULL, 0);
ws = jv_mem_calloc((wl + 1), sizeof(*ws));
if (!ws)
return;
wl = MultiByteToWideChar(CP_UTF8, 0, s, len, ws, wl + 1);
ws[wl] = 0;
WriteConsoleW((HANDLE)_get_osfhandle(fileno(fout)), ws, wl, NULL, NULL);
free(ws);
} else
fwrite(s, 1, len, fout);
#else
fwrite(s, 1, len, fout);
#endif
}
}
static void put_char(char c, FILE* fout, jv* strout, int T) {
put_buf(&c, 1, fout, strout, T);
}
static void put_str(const char* s, FILE* fout, jv* strout, int T) {
put_buf(s, strlen(s), fout, strout, T);
}
static void put_indent(int n, int flags, FILE* fout, jv* strout, int T) {
if (flags & JV_PRINT_TAB) {
while (n--)
put_char('\t', fout, strout, T);
} else {
n *= ((flags & (JV_PRINT_SPACE0 | JV_PRINT_SPACE1 | JV_PRINT_SPACE2)) >> 8);
while (n--)
put_char(' ', fout, strout, T);
}
}
static void jvp_dump_string(jv str, int ascii_only, FILE* F, jv* S, int T) {
assert(jv_get_kind(str) == JV_KIND_STRING);
const char* i = jv_string_value(str);
const char* end = i + jv_string_length_bytes(jv_copy(str));
const char* cstart;
int c = 0;
char buf[32];
put_char('"', F, S, T);
while ((i = jvp_utf8_next((cstart = i), end, &c))) {
assert(c != -1);
int unicode_escape = 0;
if (0x20 <= c && c <= 0x7E) {
if (c == '"' || c == '\\') {
put_char('\\', F, S, T);
}
put_char(c, F, S, T);
} else if (c < 0x20 || c == 0x7F) {
switch (c) {
case '\b':
put_char('\\', F, S, T);
put_char('b', F, S, T);
break;
case '\t':
put_char('\\', F, S, T);
put_char('t', F, S, T);
break;
case '\r':
put_char('\\', F, S, T);
put_char('r', F, S, T);
break;
case '\n':
put_char('\\', F, S, T);
put_char('n', F, S, T);
break;
case '\f':
put_char('\\', F, S, T);
put_char('f', F, S, T);
break;
default:
unicode_escape = 1;
break;
}
} else {
if (ascii_only) {
unicode_escape = 1;
} else {
put_buf(cstart, i - cstart, F, S, T);
}
}
if (unicode_escape) {
if (c <= 0xffff) {
snprintf(buf, sizeof(buf), "\\u%04x", c);
} else {
c -= 0x10000;
snprintf(buf, sizeof(buf), "\\u%04x\\u%04x",
0xD800 | ((c & 0xffc00) >> 10),
0xDC00 | (c & 0x003ff));
}
put_str(buf, F, S, T);
}
}
assert(c != -1);
put_char('"', F, S, T);
}
static void put_refcnt(struct dtoa_context* C, int refcnt, FILE *F, jv* S, int T){
char buf[JVP_DTOA_FMT_MAX_LEN];
put_char(' ', F, S, T);
put_char('(', F, S, T);
put_str(jvp_dtoa_fmt(C, buf, refcnt), F, S, T);
put_char(')', F, S, T);
}
static void jv_dump_term(struct dtoa_context* C, jv x, int flags, int indent, FILE* F, jv* S) {
char buf[JVP_DTOA_FMT_MAX_LEN];
const char* color = 0;
double refcnt = (flags & JV_PRINT_REFCOUNT) ? jv_get_refcnt(x) - 1 : -1;
if (flags & JV_PRINT_COLOR) {
for (unsigned i=0; i<sizeof(color_kinds)/sizeof(color_kinds[0]); i++) {
if (jv_get_kind(x) == color_kinds[i]) {
color = colors[i];
put_str(color, F, S, flags & JV_PRINT_ISATTY);
break;
}
}
}
if (indent > MAX_PRINT_DEPTH) {
put_str("<skipped: too deep>", F, S, flags & JV_PRINT_ISATTY);
} else switch (jv_get_kind(x)) {
default:
case JV_KIND_INVALID:
if (flags & JV_PRINT_INVALID) {
jv msg = jv_invalid_get_msg(jv_copy(x));
if (jv_get_kind(msg) == JV_KIND_STRING) {
put_str("<invalid:", F, S, flags & JV_PRINT_ISATTY);
jvp_dump_string(msg, flags | JV_PRINT_ASCII, F, S, flags & JV_PRINT_ISATTY);
put_str(">", F, S, flags & JV_PRINT_ISATTY);
} else {
put_str("<invalid>", F, S, flags & JV_PRINT_ISATTY);
}
} else {
assert(0 && "Invalid value");
}
break;
case JV_KIND_NULL:
put_str("null", F, S, flags & JV_PRINT_ISATTY);
break;
case JV_KIND_FALSE:
put_str("false", F, S, flags & JV_PRINT_ISATTY);
break;
case JV_KIND_TRUE:
put_str("true", F, S, flags & JV_PRINT_ISATTY);
break;
case JV_KIND_NUMBER: {
double d = jv_number_value(x);
if (d != d) {
put_str("null", F, S, flags & JV_PRINT_ISATTY);
} else {
if (d > DBL_MAX) d = DBL_MAX;
if (d < -DBL_MAX) d = -DBL_MAX;
put_str(jvp_dtoa_fmt(C, buf, d), F, S, flags & JV_PRINT_ISATTY);
}
break;
}
case JV_KIND_STRING:
jvp_dump_string(x, flags & JV_PRINT_ASCII, F, S, flags & JV_PRINT_ISATTY);
if (flags & JV_PRINT_REFCOUNT)
put_refcnt(C, refcnt, F, S, flags & JV_PRINT_ISATTY);
break;
case JV_KIND_ARRAY: {
if (jv_array_length(jv_copy(x)) == 0) {
put_str("[]", F, S, flags & JV_PRINT_ISATTY);
break;
}
put_str("[", F, S, flags & JV_PRINT_ISATTY);
if (flags & JV_PRINT_PRETTY) {
put_char('\n', F, S, flags & JV_PRINT_ISATTY);
put_indent(indent + 1, flags, F, S, flags & JV_PRINT_ISATTY);
}
jv_array_foreach(x, i, elem) {
if (i!=0) {
if (flags & JV_PRINT_PRETTY) {
put_str(",\n", F, S, flags & JV_PRINT_ISATTY);
put_indent(indent + 1, flags, F, S, flags & JV_PRINT_ISATTY);
} else {
put_str(",", F, S, flags & JV_PRINT_ISATTY);
}
}
jv_dump_term(C, elem, flags, indent + 1, F, S);
if (color) put_str(color, F, S, flags & JV_PRINT_ISATTY);
}
if (flags & JV_PRINT_PRETTY) {
put_char('\n', F, S, flags & JV_PRINT_ISATTY);
put_indent(indent, flags, F, S, flags & JV_PRINT_ISATTY);
}
if (color) put_str(color, F, S, flags & JV_PRINT_ISATTY);
put_char(']', F, S, flags & JV_PRINT_ISATTY);
if (flags & JV_PRINT_REFCOUNT)
put_refcnt(C, refcnt, F, S, flags & JV_PRINT_ISATTY);
break;
}
case JV_KIND_OBJECT: {
if (jv_object_length(jv_copy(x)) == 0) {
put_str("{}", F, S, flags & JV_PRINT_ISATTY);
break;
}
put_char('{', F, S, flags & JV_PRINT_ISATTY);
if (flags & JV_PRINT_PRETTY) {
put_char('\n', F, S, flags & JV_PRINT_ISATTY);
put_indent(indent + 1, flags, F, S, flags & JV_PRINT_ISATTY);
}
int first = 1;
int i = 0;
jv keyset = jv_null();
while (1) {
jv key, value;
if (flags & JV_PRINT_SORTED) {
if (first) {
keyset = jv_keys(jv_copy(x));
i = 0;
} else {
i++;
}
if (i >= jv_array_length(jv_copy(keyset))) {
jv_free(keyset);
break;
}
key = jv_array_get(jv_copy(keyset), i);
value = jv_object_get(jv_copy(x), jv_copy(key));
} else {
if (first) {
i = jv_object_iter(x);
} else {
i = jv_object_iter_next(x, i);
}
if (!jv_object_iter_valid(x, i)) break;
key = jv_object_iter_key(x, i);
value = jv_object_iter_value(x, i);
}
if (!first) {
if (flags & JV_PRINT_PRETTY){
put_str(",\n", F, S, flags & JV_PRINT_ISATTY);
put_indent(indent + 1, flags, F, S, flags & JV_PRINT_ISATTY);
} else {
put_str(",", F, S, flags & JV_PRINT_ISATTY);
}
}
if (color) put_str(COLRESET, F, S, flags & JV_PRINT_ISATTY);
first = 0;
if (color) put_str(FIELD_COLOR, F, S, flags & JV_PRINT_ISATTY);
jvp_dump_string(key, flags & JV_PRINT_ASCII, F, S, flags & JV_PRINT_ISATTY);
jv_free(key);
if (color) put_str(COLRESET, F, S, flags & JV_PRINT_ISATTY);
if (color) put_str(color, F, S, flags & JV_PRINT_ISATTY);
put_str((flags & JV_PRINT_PRETTY) ? ": " : ":", F, S, flags & JV_PRINT_ISATTY);
if (color) put_str(COLRESET, F, S, flags & JV_PRINT_ISATTY);
jv_dump_term(C, value, flags, indent + 1, F, S);
if (color) put_str(color, F, S, flags & JV_PRINT_ISATTY);
}
if (flags & JV_PRINT_PRETTY) {
put_char('\n', F, S, flags & JV_PRINT_ISATTY);
put_indent(indent, flags, F, S, flags & JV_PRINT_ISATTY);
}
if (color) put_str(color, F, S, flags & JV_PRINT_ISATTY);
put_char('}', F, S, flags & JV_PRINT_ISATTY);
if (flags & JV_PRINT_REFCOUNT)
put_refcnt(C, refcnt, F, S, flags & JV_PRINT_ISATTY);
}
}
jv_free(x);
if (color) {
put_str(COLRESET, F, S, flags & JV_PRINT_ISATTY);
}
}
void jv_dumpf(jv x, FILE *f, int flags) {
struct dtoa_context C;
jvp_dtoa_context_init(&C);
jv_dump_term(&C, x, flags, 0, f, 0);
jvp_dtoa_context_free(&C);
}
void jv_dump(jv x, int flags) {
jv_dumpf(x, stdout, flags);
}
void jv_show(jv x, int flags) {
if (flags == -1)
flags = JV_PRINT_PRETTY | JV_PRINT_COLOR | JV_PRINT_INDENT_FLAGS(2);
jv_dumpf(jv_copy(x), stderr, flags | JV_PRINT_INVALID);
fflush(stderr);
}
jv jv_dump_string(jv x, int flags) {
struct dtoa_context C;
jvp_dtoa_context_init(&C);
jv s = jv_string("");
jv_dump_term(&C, x, flags, 0, 0, &s);
jvp_dtoa_context_free(&C);
return s;
}
char *jv_dump_string_trunc(jv x, char *outbuf, size_t bufsize) {
x = jv_dump_string(x,0);
const char* p = jv_string_value(x);
const size_t len = strlen(p);
strncpy(outbuf, p, bufsize);
outbuf[bufsize - 1] = 0;
if (len > bufsize - 1 && bufsize >= 4) {
outbuf[bufsize - 2]='.';
outbuf[bufsize - 3]='.';
outbuf[bufsize - 4]='.';
}
jv_free(x);
return outbuf;
}