strm_string
strm_inspect(strm_value v)
{
if (strm_string_p(v)) {
strm_string str = strm_value_str(v);
return str_dump(str, str_dump_len(str));
}
else if (strm_array_p(v)) {
char *buf = malloc(32);
strm_int i, bi = 0, capa = 32;
strm_array a = strm_value_ary(v);
for (i=0; i<strm_ary_len(a); i++) {
strm_string str = strm_inspect(strm_ary_ptr(a)[i]);
strm_string key = (strm_ary_headers(a) &&
strm_string_p(strm_ary_ptr(strm_ary_headers(a))[i])) ?
strm_value_str(strm_ary_ptr(strm_ary_headers(a))[i]) : strm_str_null;
strm_int slen = (key ? (strm_str_len(key)+1) : 0) + strm_str_len(str) + 3;
if (bi+slen > capa) {
capa *= 2;
buf = realloc(buf, capa);
}
if (bi == 0) {
buf[bi++] = '[';
}
else {
buf[bi++] = ',';
buf[bi++] = ' ';
}
if (key) {
if (!str_symbol_p(key)) {
key = str_dump(key, str_dump_len(key));
}
memcpy(buf+bi, strm_str_ptr(key), strm_str_len(key));
bi += strm_str_len(key);
buf[bi++] = ':';
}
memcpy(buf+bi, strm_str_ptr(str), strm_str_len(str));
bi += strm_str_len(str);
}
buf[bi++] = ']';
return strm_str_new(buf, bi);
}
else {
return strm_to_str(v);
}
}
static int
exec_plus(strm_stream* strm, int argc, strm_value* args, strm_value* ret)
{
assert(argc == 2);
if (strm_string_p(*args)) {
strm_string str1 = strm_value_str(args[0]);
strm_string str2 = strm_value_str(args[1]);
strm_string str3 = strm_str_new(NULL, strm_str_len(str1) + strm_str_len(str2));
char *p;
p = (char*)strm_str_ptr(str3);
memcpy(p, strm_str_ptr(str1), strm_str_len(str1));
memcpy(p+strm_str_len(str1), strm_str_ptr(str2), strm_str_len(str2));
p[strm_str_len(str3)] = '\0';
*ret = strm_str_value(str3);
return STRM_OK;
}
if (strm_int_p(args[0]) && strm_int_p(args[1])) {
*ret = strm_int_value(strm_value_int(args[0])+strm_value_int(args[1]));
return STRM_OK;
}
if (strm_num_p(args[0])) {
*ret = strm_flt_value(strm_value_flt(args[0])+strm_value_flt(args[1]));
return STRM_OK;
}
return STRM_NG;
}
static int
exec_fwrite(strm_stream* strm, int argc, strm_value* args, strm_value* ret)
{
int fd;
strm_string path;
char buf[7];
assert(argc == 1);
assert(strm_string_p(args[0]));
path = strm_value_str(args[0]);
fd = open(strm_str_cstr(path, buf), O_WRONLY|O_CREAT, 0644);
if (fd < 0) return STRM_NG;
*ret = strm_io_new(fd, STRM_IO_WRITE);
return STRM_OK;
}
static int
exec_fread(strm_state* state, int argc, strm_value* args, strm_value* ret)
{
int fd;
strm_string path;
char buf[7];
assert(argc == 1);
assert(strm_string_p(args[0]));
path = strm_value_str(args[0]);
fd = open(strm_str_cstr(path, buf), O_RDONLY);
if (fd < 0) return STRM_NG;
*ret = strm_ptr_value(strm_io_new(fd, STRM_IO_READ));
return STRM_OK;
}
strm_state*
strm_value_ns(strm_value val)
{
if (strm_array_p(val)) {
strm_state* ns = strm_ary_ns(val);
if (ns) return ns;
return strm_ns_array;
}
if (strm_string_p(val)) {
return strm_ns_string;
}
if (strm_number_p(val)) {
return strm_ns_number;
}
if (strm_value_tag(val) == STRM_TAG_PTR) {
struct strm_misc* p = strm_ptr(val);
if (!p) return NULL;
if (strm_ptr_type(p) == STRM_PTR_AUX) {
return p->ns;
}
}
return NULL;
}
static int
ary_get(strm_stream* strm, strm_value ary, int argc, strm_value* argv, strm_value* ret)
{
struct strm_array* a;
strm_value idx;
if (argc != 1) {
strm_raise(strm, "wrong number of arguments");
return STRM_NG;
}
a = strm_ary_struct(ary);
idx = argv[0];
if (strm_num_p(idx)) {
strm_int i = strm_value_int(idx);
if (i>=a->len)
return STRM_NG;
*ret = a->ptr[i];
return STRM_OK;
}
if (strm_string_p(idx)) {
if (a->headers) {
strm_int i, len = a->len;
for (i=0; i<len; i++) {
if (strm_str_eq(strm_value_str(idx),
strm_value_str(strm_ary_ptr(a->headers)[i]))) {
*ret = a->ptr[i];
return STRM_OK;
}
}
}
}
return STRM_NG;
}
strm_string
strm_to_str(strm_value v)
{
char buf[32];
int n;
strm_state* ns = strm_value_ns(v);
if (ns) {
strm_value m;
n = strm_var_get(ns, strm_str_intern_lit("string"), &m);
if (n == STRM_OK) {
n = strm_funcall(NULL, m, 1, &v, &m);
if (n == STRM_OK && strm_string_p(m)) return m;
}
}
switch (strm_value_tag(v)) {
case STRM_TAG_INT:
n = sprintf(buf, "%d", strm_to_int(v));
return strm_str_new(buf, n);
case STRM_TAG_BOOL:
n = sprintf(buf, strm_to_int(v) ? "true" : "false");
return strm_str_new(buf, n);
case STRM_TAG_CFUNC:
n = sprintf(buf, "<cfunc:%p>", (void*)strm_value_cfunc(v));
return strm_str_new(buf, n);
case STRM_TAG_STRING_I:
case STRM_TAG_STRING_6:
case STRM_TAG_STRING_O:
case STRM_TAG_STRING_F:
return strm_value_str(v);
case STRM_TAG_ARRAY:
case STRM_TAG_STRUCT:
return strm_inspect(v);
case STRM_TAG_PTR:
if (strm_value_val(v) == 0)
return strm_str_lit("nil");
else {
void *p = strm_ptr(v);
switch (strm_ptr_type(p)) {
case STRM_PTR_STREAM:
n = sprintf(buf, "<stream:%p>", p);
break;
case STRM_PTR_IO: {
strm_io io = (strm_io)p;
char *mode;
switch (io->mode & 3) {
case STRM_IO_READ:
mode = "r"; break;
case STRM_IO_WRITE:
mode = "w"; break;
case STRM_IO_READ|STRM_IO_WRITE:
mode = "rw"; break;
default:
mode = "?"; break;
}
n = sprintf(buf, "<io: fd=%d mode=%s>", io->fd, mode);
break;
}
case STRM_PTR_LAMBDA:
n = sprintf(buf, "<lambda:%p>", p);
break;
case STRM_PTR_AUX:
n = sprintf(buf, "<obj:%p>", p);
break;
}
return strm_str_new(buf, n);
}
default:
if (strm_flt_p(v)) {
n = sprintf(buf, "%.14g", strm_to_flt(v));
return strm_str_new(buf, n);
}
n = sprintf(buf, "<%p>", strm_value_vptr(v));
return strm_str_new(buf, n);
}
/* not reached */
return strm_str_null;
}
static int
str_split(strm_stream* strm, int argc, strm_value* args, strm_value* ret)
{
strm_string str;
strm_string sep;
const char* s;
strm_int slen;
const char* t;
const char* p;
const char* pend;
char c;
strm_int n = 0;
strm_array ary;
strm_value* sps;
strm_int i;
switch (argc) {
case 1:
str = args[0];
sep = strm_str_lit(" ");
break;
case 2:
str = args[0];
if (!strm_string_p(args[1])) {
strm_raise(strm, "need string separator");
return STRM_NG;
}
sep = strm_value_str(args[1]);
break;
default:
strm_raise(strm, "wrong number of arguments");
return STRM_NG;
}
/* count number of split strings */
s = strm_str_ptr(sep);
slen = strm_str_len(sep);
c = s[0];
t = p = strm_str_ptr(str);
pend = p + strm_str_len(str) - slen;
n = 0;
while (p<pend) {
if (*p == c) {
if (memcmp(p, s, slen) == 0) {
if (!(slen == 1 && c == ' ' && (p-t) == 0)) {
n++;
}
t = p + slen;
}
}
p++;
}
n++;
/* actual split */
ary = strm_ary_new(NULL, n);
sps = strm_ary_ptr(ary);
s = strm_str_ptr(sep);
slen = strm_str_len(sep);
c = s[0];
t = p = strm_str_ptr(str);
pend = p + strm_str_len(str) - slen;
i = 0;
while (p<pend) {
if (*p == c) {
if (memcmp(p, s, slen) == 0) {
if (!(slen == 1 && c == ' ' && (p-t) == 0)) {
sps[i++] = strm_str_new(t, p-t);
}
t = p + slen;
}
}
p++;
}
pend = strm_str_ptr(str) + strm_str_len(str);
sps[i++] = strm_str_new(t, pend-t);
*ret = strm_ary_value(ary);
return STRM_OK;
}
static int
csv_accept(strm_stream* strm, strm_value data)
{
strm_array ary;
strm_string line = strm_value_str(data);
strm_value *bp;
const char *fbeg;
const char *ptr;
const char *pend;
int fieldcnt;
int in_quote = 0, all_str = 1;
int i = 0;
enum csv_type ftype;
enum csv_type* types;
struct csv_data *cd = strm->data;
if (cd->prev) {
strm_int len = strm_str_len(cd->prev)+strm_str_len(line)+1;
char* tmp = malloc(len);
memcpy(tmp, strm_str_ptr(cd->prev), strm_str_len(cd->prev));
*(tmp+strm_str_len(cd->prev)) = '\n';
memcpy(tmp+strm_str_len(cd->prev)+1, strm_str_ptr(line), strm_str_len(line));
line = strm_str_new(tmp, len);
free(tmp);
cd->prev = strm_str_null;
}
fieldcnt = count_fields(line);
if (fieldcnt == -1) {
cd->prev = line;
return STRM_NG;
}
if (cd->n > 0 && fieldcnt != cd->n)
return STRM_NG;
ptr = strm_str_ptr(line);
pend = ptr + strm_str_len(line);
ary = strm_ary_new(NULL, fieldcnt);
if (!ary) return STRM_NG;
bp = (strm_value*)strm_ary_ptr(ary);
types = cd->types;
ftype = types ? types[0] : TYPE_UNSPC;
for (fbeg=ptr; ptr<pend; ptr++) {
if (in_quote) {
if (*ptr == '\"') {
if (ptr[1] == '\"') {
ptr++;
ftype = TYPE_ESC;
continue;
}
in_quote = 0;
}
continue;
}
switch(*ptr) {
case '\"':
in_quote = 1;
if (ptr == fbeg) {
ftype = TYPE_STR;
fbeg = ptr+1;
}
else {
ftype = TYPE_ESC;
}
continue;
case ',':
*bp = csv_value(fbeg, ptr-fbeg, ftype);
if (!strm_string_p(*bp)) all_str = 0;
bp++;
fbeg = ptr+1;
i++;
ftype = types ? types[i] : TYPE_UNSPC;
break;
default:
continue;
}
}
/* trim newline at the end */
if (ptr[-1] == '\n') {
ptr--;
}
/* trim carriage return at the end */
if (ptr[-1] == '\r') {
ptr--;
}
*bp = csv_value(fbeg, ptr-fbeg, ftype);
if (!strm_string_p(*bp)) all_str = 0;
/* check headers */
if (!cd->headers && !cd->types) {
if (all_str) {
cd->headers = ary;
ary = strm_ary_null;
}
cd->n = fieldcnt;
}
if (ary) {
/* set headers if any */
if (cd->headers)
strm_ary_headers(ary) = cd->headers;
if (!cd->types) {
/* first data line (after optinal header line) */
if (cd->headers) {
if (all_str) { /* data line is all string; emit header line */
strm_emit(strm, strm_ary_value(cd->headers), NULL);
cd->headers = strm_ary_null;
}
else { /* intern header strings */
strm_array h = cd->headers;
strm_value *p = strm_ary_ptr(h);
int i;
for (i=0; i<strm_ary_len(h); i++) {
strm_string str = strm_value_str(p[i]);
p[i] = strm_str_value(strm_str_intern_str(str));
}
}
}
/* initialize types (determined by first data line) */
cd->types = malloc(sizeof(enum csv_type)*fieldcnt);
if (!cd->types) return STRM_NG;
for (i=0; i<fieldcnt; i++) {
cd->types[i] = csv_type(strm_ary_ptr(ary)[i]);
}
}
else {
/* type check */
for (i=0; i<fieldcnt; i++) {
if (cd->types[i] != csv_type(strm_ary_ptr(ary)[i])) {
/* type mismatch (error); skip this line */
strm_raise(strm, "csv type mismatch");
return STRM_NG;
}
}
}
strm_emit(strm, strm_str_value(ary), NULL);
}
return STRM_OK;
}