import {
HEADER_SIZE,
MAX_LENGTH,
allocateUnsafe,
compareUnsafe,
repeatUnsafe,
copyUnsafe,
isWhiteSpaceOrLineTerminator,
CharCode,
parse
} from "./internal/string";
import {
STORE
} from "./internal/arraybuffer";
@sealed
export class String {
readonly length: i32; // capped to [0, MAX_LENGTH]
// TODO Add and handle second argument
static fromCharCode(code: i32): String {
var out = allocateUnsafe(1);
store<u16>(
changetype<usize>(out),
<u16>code,
HEADER_SIZE
);
return out;
}
static fromCodePoint(code: i32): String {
assert(<u32>code <= 0x10FFFF);
var sur = code > 0xFFFF;
var out = allocateUnsafe(<i32>sur + 1);
if (!sur) {
store<u16>(
changetype<usize>(out),
<u16>code,
HEADER_SIZE
);
} else {
code -= 0x10000;
let hi: u32 = (code >>> 10) + 0xD800;
let lo: u32 = (code & 0x3FF) + 0xDC00;
store<u32>(
changetype<usize>(out),
(hi << 16) | lo,
HEADER_SIZE
);
}
return out;
}
@operator("[]")
charAt(pos: i32): String {
assert(this !== null);
if (<u32>pos >= <u32>this.length) return changetype<String>("");
var out = allocateUnsafe(1);
store<u16>(
changetype<usize>(out),
load<u16>(
changetype<usize>(this) + (<usize>pos << 1),
HEADER_SIZE
),
HEADER_SIZE
);
return out;
}
charCodeAt(pos: i32): i32 {
assert(this !== null);
if (<u32>pos >= <u32>this.length) return -1; // (NaN)
return load<u16>(
changetype<usize>(this) + (<usize>pos << 1),
HEADER_SIZE
);
}
codePointAt(pos: i32): i32 {
assert(this !== null);
if (<u32>pos >= <u32>this.length) return -1; // (undefined)
var first = <i32>load<u16>(
changetype<usize>(this) + (<usize>pos << 1),
HEADER_SIZE
);
if (first < 0xD800 || first > 0xDBFF || pos + 1 == this.length) {
return first;
}
var second = <i32>load<u16>(
changetype<usize>(this) + ((<usize>pos + 1) << 1),
HEADER_SIZE
);
if (second < 0xDC00 || second > 0xDFFF) return first;
return ((first - 0xD800) << 10) + (second - 0xDC00) + 0x10000;
}
@operator("+")
private static __concat(left: String, right: String): String {
if (!changetype<usize>(left)) left = changetype<String>("null");
return left.concat(right);
}
concat(other: String): String {
assert(this !== null);
if (other === null) other = changetype<String>("null");
var thisLen: isize = this.length;
var otherLen: isize = other.length;
var outLen: usize = thisLen + otherLen;
if (outLen == 0) return changetype<String>("");
var out = allocateUnsafe(outLen);
copyUnsafe(out, 0, this, 0, thisLen);
copyUnsafe(out, thisLen, other, 0, otherLen);
return out;
}
endsWith(searchString: String, endPosition: i32 = MAX_LENGTH): bool {
assert(this !== null);
if (searchString === null) return false;
var end = min(max(endPosition, 0), this.length);
var searchLength: isize = searchString.length;
var start: isize = end - searchLength;
if (start < 0) return false;
return !compareUnsafe(this, start, searchString, 0, searchLength);
}
@operator("==")
private static __eq(left: String, right: String): bool {
if (left === right) return true;
if (left === null || right === null) return false;
var leftLength = left.length;
if (leftLength != right.length) return false;
return !compareUnsafe(left, 0, right, 0, leftLength);
}
@operator("!=")
private static __ne(left: String, right: String): bool {
return !this.__eq(left, right);
}
@operator(">")
private static __gt(left: String, right: String): bool {
if (left === right || left === null || right === null) return false;
var leftLength = left.length;
var rightLength = right.length;
if (!leftLength) return false;
if (!rightLength) return true;
var length = <usize>min<i32>(leftLength, rightLength);
return compareUnsafe(left, 0, right, 0, length) > 0;
}
@operator(">=")
private static __gte(left: String, right: String): bool {
if (left === right) return true;
if (left === null || right === null) return false;
var leftLength = left.length;
var rightLength = right.length;
if (!leftLength) return !rightLength;
if (!rightLength) return true;
var length = <usize>min<i32>(leftLength, rightLength);
return compareUnsafe(left, 0, right, 0, length) >= 0;
}
@operator("<")
private static __lt(left: String, right: String): bool {
if (left === right || left === null || right === null) return false;
var leftLength = left.length;
var rightLength = right.length;
if (!rightLength) return false;
if (!leftLength) return true;
var length = <usize>min<i32>(leftLength, rightLength);
return compareUnsafe(left, 0, right, 0, length) < 0;
}
@operator("<=")
private static __lte(left: String, right: String): bool {
if (left === right) return true;
if (left === null || right === null) return false;
var leftLength = left.length;
var rightLength = right.length;
if (!rightLength) return !leftLength;
if (!leftLength) return true;
var length = <usize>min<i32>(leftLength, rightLength);
return compareUnsafe(left, 0, right, 0, length) <= 0;
}
@inline
includes(searchString: String, position: i32 = 0): bool {
return this.indexOf(searchString, position) != -1;
}
indexOf(searchString: String, fromIndex: i32 = 0): i32 {
assert(this !== null);
if (searchString === null) searchString = changetype<String>("null");
var searchLen: isize = searchString.length;
if (!searchLen) return 0;
var len: isize = this.length;
if (!len) return -1;
var start = min<isize>(max<isize>(fromIndex, 0), len);
len -= searchLen;
for (let k: isize = start; k <= len; ++k) {
if (!compareUnsafe(this, k, searchString, 0, searchLen)) return <i32>k;
}
return -1;
}
lastIndexOf(searchString: String, fromIndex: i32 = i32.MAX_VALUE): i32 {
assert(this !== null);
if (searchString === null) searchString = changetype<String>("null");
var len: isize = this.length;
var searchLen: isize = searchString.length;
if (!searchLen) return len;
if (!len) return -1;
var start = min<isize>(max(fromIndex, 0), len - searchLen);
for (let k = start; k >= 0; --k) {
if (!compareUnsafe(this, k, searchString, 0, searchLen)) return <i32>k;
}
return -1;
}
startsWith(searchString: String, position: i32 = 0): bool {
assert(this !== null);
if (searchString === null) searchString = changetype<String>("null");
var pos: isize = position;
var len: isize = this.length;
var start = min(max(pos, 0), len);
var searchLength: isize = searchString.length;
if (searchLength + start > len) return false;
return !compareUnsafe(this, start, searchString, 0, searchLength);
}
substr(start: i32, length: i32 = i32.MAX_VALUE): String {
assert(this !== null);
var intStart: isize = start;
var end: isize = length;
var size: isize = this.length;
if (intStart < 0) intStart = max(size + intStart, 0);
var resultLength = min(max(end, 0), size - intStart);
if (resultLength <= 0) return changetype<String>("");
var out = allocateUnsafe(resultLength);
copyUnsafe(out, 0, this, intStart, resultLength);
return out;
}
substring(start: i32, end: i32 = i32.MAX_VALUE): String {
assert(this !== null);
var len = this.length;
var finalStart = min(max(start, 0), len);
var finalEnd = min(max(end, 0), len);
var from = min<i32>(finalStart, finalEnd);
var to = max<i32>(finalStart, finalEnd);
len = to - from;
if (!len) return changetype<String>("");
if (!from && to == this.length) return this;
var out = allocateUnsafe(len);
copyUnsafe(out, 0, this, from, len);
return out;
}
trim(): String {
assert(this !== null);
var length: usize = this.length;
while (
length &&
isWhiteSpaceOrLineTerminator(
load<u16>(changetype<usize>(this) + (length << 1), HEADER_SIZE)
)
) {
--length;
}
var start: usize = 0;
while (
start < length &&
isWhiteSpaceOrLineTerminator(
load<u16>(changetype<usize>(this) + (start << 1), HEADER_SIZE)
)
) {
++start, --length;
}
if (!length) return changetype<String>("");
if (!start && length == this.length) return this;
var out = allocateUnsafe(length);
copyUnsafe(out, 0, this, start, length);
return out;
}
@inline
trimLeft(): String {
return this.trimStart();
}
@inline
trimRight(): String {
return this.trimEnd();
}
trimStart(): String {
assert(this !== null);
var start: isize = 0;
var len: isize = this.length;
while (
start < len &&
isWhiteSpaceOrLineTerminator(
load<u16>(changetype<usize>(this) + (start << 1), HEADER_SIZE)
)
) {
++start;
}
if (!start) return this;
var outLen = len - start;
if (!outLen) return changetype<String>("");
var out = allocateUnsafe(outLen);
copyUnsafe(out, 0, this, start, outLen);
return out;
}
trimEnd(): String {
assert(this !== null);
var len: isize = this.length;
while (
len > 0 &&
isWhiteSpaceOrLineTerminator(
load<u16>(changetype<usize>(this) + (len << 1), HEADER_SIZE)
)
) {
--len;
}
if (len <= 0) return changetype<String>("");
if (<i32>len == this.length) return this;
var out = allocateUnsafe(len);
copyUnsafe(out, 0, this, 0, len);
return out;
}
padStart(targetLength: i32, padString: String = changetype<String>(" ")): String {
assert(this !== null);
var length = this.length;
var padLen = padString.length;
if (targetLength < length || !padLen) return this;
var len = targetLength - length;
var out = allocateUnsafe(targetLength);
if (len > padLen) {
let count = (len - 1) / padLen;
let base = count * padLen;
let rest = len - base;
repeatUnsafe(out, 0, padString, count);
if (rest) copyUnsafe(out, base, padString, 0, rest);
} else {
copyUnsafe(out, 0, padString, 0, len);
}
if (length) copyUnsafe(out, len, this, 0, length);
return out;
}
padEnd(targetLength: i32, padString: String = changetype<String>(" ")): String {
assert(this !== null);
var length = this.length;
var padLen = padString.length;
if (targetLength < length || !padLen) return this;
var len = targetLength - length;
var out = allocateUnsafe(targetLength);
if (length) copyUnsafe(out, 0, this, 0, length);
if (len > padLen) {
let count = (len - 1) / padLen;
let base = count * padLen;
let rest = len - base;
repeatUnsafe(out, length, padString, count);
if (rest) copyUnsafe(out, base + length, padString, 0, rest);
} else {
copyUnsafe(out, length, padString, 0, len);
}
return out;
}
repeat(count: i32 = 0): String {
assert(this !== null);
var length = this.length;
// Most browsers can't handle strings 1 << 28 chars or longer
if (count < 0 || length * count > (1 << 28)) {
throw new RangeError("Invalid count value");
}
if (count == 0 || !length) return changetype<String>("");
if (count == 1) return this;
var result = allocateUnsafe(length * count);
repeatUnsafe(result, 0, this, count);
return result;
}
split(separator: String = null, limit: i32 = i32.MAX_VALUE): String[] {
assert(this !== null);
if (!limit) return new Array<String>();
if (separator === null) return <String[]>[this];
var length: isize = this.length;
var sepLen: isize = separator.length;
if (limit < 0) limit = i32.MAX_VALUE;
if (!sepLen) {
if (!length) return new Array<String>();
// split by chars
length = min<isize>(length, <isize>limit);
let result = new Array<String>(length);
let buffer = <ArrayBuffer>result.buffer_;
for (let i: isize = 0; i < length; ++i) {
let char = allocateUnsafe(1);
store<u16>(
changetype<usize>(char),
load<u16>(
changetype<usize>(this) + (<usize>i << 1),
HEADER_SIZE
),
HEADER_SIZE
);
STORE<String>(buffer, i, char);
}
return result;
} else if (!length) {
return <String[]>[changetype<String>("")];
}
var result = new Array<String>();
var end = 0, start = 0, i = 0;
while ((end = this.indexOf(separator, start)) != -1) {
let len = end - start;
if (len > 0) {
let out = allocateUnsafe(len);
copyUnsafe(out, 0, this, start, len);
result.push(out);
} else {
result.push(changetype<String>(""));
}
if (++i == limit) return result;
start = end + sepLen;
}
if (!start) return <String[]>[this];
var len = length - start;
if (len > 0) {
let out = allocateUnsafe(len);
copyUnsafe(out, 0, this, start, len);
result.push(out);
} else {
result.push(changetype<String>(""));
}
return result;
}
toString(): String {
return this;
}
get lengthUTF8(): i32 {
var len = 1; // null terminated
var pos: usize = 0;
var end = <usize>this.length;
while (pos < end) {
let c = <u32>load<u16>(changetype<usize>(this) + (pos << 1), HEADER_SIZE);
if (c < 128) {
len += 1; ++pos;
} else if (c < 2048) {
len += 2; ++pos;
} else {
if (
(c & 0xFC00) == 0xD800 && pos + 1 < end &&
(<u32>load<u16>(changetype<usize>(this) + ((pos + 1) << 1), HEADER_SIZE) & 0xFC00) == 0xDC00
) {
len += 4; pos += 2;
} else {
len += 3; ++pos;
}
}
}
return len;
}
static fromUTF8(ptr: usize, len: usize): String {
if (len < 1) return changetype<String>("");
var ptrPos = <usize>0;
var buf = memory.allocate(<usize>len << 1);
var bufPos = <usize>0;
while (ptrPos < len) {
let cp = <u32>load<u8>(ptr + ptrPos++);
if (cp < 128) {
store<u16>(buf + bufPos, cp);
bufPos += 2;
} else if (cp > 191 && cp < 224) {
assert(ptrPos + 1 <= len);
store<u16>(buf + bufPos, (cp & 31) << 6 | load<u8>(ptr + ptrPos++) & 63);
bufPos += 2;
} else if (cp > 239 && cp < 365) {
assert(ptrPos + 3 <= len);
cp = (
(cp & 7) << 18 |
(load<u8>(ptr + ptrPos++) & 63) << 12 |
(load<u8>(ptr + ptrPos++) & 63) << 6 |
load<u8>(ptr + ptrPos++) & 63
) - 0x10000;
store<u16>(buf + bufPos, 0xD800 + (cp >> 10));
bufPos += 2;
store<u16>(buf + bufPos, 0xDC00 + (cp & 1023));
bufPos += 2;
} else {
assert(ptrPos + 2 <= len);
store<u16>(buf + bufPos,
(cp & 15) << 12 |
(load<u8>(ptr + ptrPos++) & 63) << 6 |
load<u8>(ptr + ptrPos++) & 63
);
bufPos += 2;
}
}
assert(ptrPos == len);
var str = allocateUnsafe(<u32>(bufPos >> 1));
memory.copy(changetype<usize>(str) + HEADER_SIZE, buf, bufPos);
memory.free(buf);
return str;
}
toUTF8(): usize {
var buf = memory.allocate(<usize>this.lengthUTF8);
var pos: usize = 0;
var end = <usize>this.length;
var off: usize = 0;
while (pos < end) {
let c1 = <u32>load<u16>(changetype<usize>(this) + (pos << 1), HEADER_SIZE);
if (c1 < 128) {
store<u8>(buf + off, c1);
++off; ++pos;
} else if (c1 < 2048) {
let ptr = buf + off;
store<u8>(ptr, c1 >> 6 | 192);
store<u8>(ptr, c1 & 63 | 128, 1);
off += 2; ++pos;
} else {
let ptr = buf + off;
if ((c1 & 0xFC00) == 0xD800 && pos + 1 < end) {
let c2 = <u32>load<u16>(changetype<usize>(this) + ((pos + 1) << 1), HEADER_SIZE);
if ((c2 & 0xFC00) == 0xDC00) {
c1 = 0x10000 + ((c1 & 0x03FF) << 10) + (c2 & 0x03FF);
store<u8>(ptr, c1 >> 18 | 240);
store<u8>(ptr, c1 >> 12 & 63 | 128, 1);
store<u8>(ptr, c1 >> 6 & 63 | 128, 2);
store<u8>(ptr, c1 & 63 | 128, 3);
off += 4; pos += 2;
continue;
}
}
store<u8>(ptr, c1 >> 12 | 224);
store<u8>(ptr, c1 >> 6 & 63 | 128, 1);
store<u8>(ptr, c1 & 63 | 128, 2);
off += 3; ++pos;
}
}
store<u8>(buf + off, 0);
return buf;
}
}
export function parseInt(str: String, radix: i32 = 0): f64 {
return parse<f64>(str, radix);
}
export function parseI32(str: String, radix: i32 = 0): i32 {
return parse<i32>(str, radix);
}
export function parseI64(str: String, radix: i32 = 0): i64 {
return parse<i64>(str, radix);
}
// FIXME: naive implementation
export function parseFloat(str: String): f64 {
var len: i32 = str.length;
if (!len) return NaN;
var ptr = changetype<usize>(str) /* + HEAD -> offset */;
var code = <i32>load<u16>(ptr, HEADER_SIZE);
// determine sign
var sign: f64;
if (code == CharCode.MINUS) {
if (!--len) return NaN;
code = <i32>load<u16>(ptr += 2, HEADER_SIZE);
sign = -1;
} else if (code == CharCode.PLUS) {
if (!--len) return NaN;
code = <i32>load<u16>(ptr += 2, HEADER_SIZE);
sign = 1;
} else {
sign = 1;
}
// calculate value
var num: f64 = 0;
while (len--) {
code = <i32>load<u16>(ptr, HEADER_SIZE);
if (code == CharCode.DOT) {
ptr += 2;
let fac: f64 = 0.1; // precision :(
while (len--) {
code = <i32>load<u16>(ptr, HEADER_SIZE);
if (code == CharCode.E || code == CharCode.e) {
assert(false); // TODO
}
code -= CharCode._0;
if (<u32>code > 9) break;
num += <f64>code * fac;
fac *= 0.1;
ptr += 2;
}
break;
}
code -= CharCode._0;
if (<u32>code >= 10) break;
num = (num * 10) + code;
ptr += 2;
}
return sign * num;
}