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// Copyright 2011 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "src/utils.h"
#include <stdarg.h>
#include <sys/stat.h>
#include "src/base/functional.h"
#include "src/base/logging.h"
#include "src/base/platform/platform.h"
namespace v8 {
namespace internal {
SimpleStringBuilder::SimpleStringBuilder(int size) {
buffer_ = Vector<char>::New(size);
position_ = 0;
}
void SimpleStringBuilder::AddString(const char* s) {
AddSubstring(s, StrLength(s));
}
void SimpleStringBuilder::AddSubstring(const char* s, int n) {
DCHECK(!is_finalized() && position_ + n <= buffer_.length());
DCHECK(static_cast<size_t>(n) <= strlen(s));
MemCopy(&buffer_[position_], s, n * kCharSize);
position_ += n;
}
void SimpleStringBuilder::AddPadding(char c, int count) {
for (int i = 0; i < count; i++) {
AddCharacter(c);
}
}
void SimpleStringBuilder::AddDecimalInteger(int32_t value) {
uint32_t number = static_cast<uint32_t>(value);
if (value < 0) {
AddCharacter('-');
number = static_cast<uint32_t>(-value);
}
int digits = 1;
for (uint32_t factor = 10; digits < 10; digits++, factor *= 10) {
if (factor > number) break;
}
position_ += digits;
for (int i = 1; i <= digits; i++) {
buffer_[position_ - i] = '0' + static_cast<char>(number % 10);
number /= 10;
}
}
char* SimpleStringBuilder::Finalize() {
DCHECK(!is_finalized() && position_ <= buffer_.length());
// If there is no space for null termination, overwrite last character.
if (position_ == buffer_.length()) {
position_--;
// Print ellipsis.
for (int i = 3; i > 0 && position_ > i; --i) buffer_[position_ - i] = '.';
}
buffer_[position_] = '\0';
// Make sure nobody managed to add a 0-character to the
// buffer while building the string.
DCHECK(strlen(buffer_.start()) == static_cast<size_t>(position_));
position_ = -1;
DCHECK(is_finalized());
return buffer_.start();
}
std::ostream& operator<<(std::ostream& os, FeedbackVectorSlot slot) {
return os << "#" << slot.id_;
}
size_t hash_value(BailoutId id) {
base::hash<int> h;
return h(id.id_);
}
std::ostream& operator<<(std::ostream& os, BailoutId id) {
return os << id.id_;
}
void PrintF(const char* format, ...) {
va_list arguments;
va_start(arguments, format);
base::OS::VPrint(format, arguments);
va_end(arguments);
}
void PrintF(FILE* out, const char* format, ...) {
va_list arguments;
va_start(arguments, format);
base::OS::VFPrint(out, format, arguments);
va_end(arguments);
}
void PrintPID(const char* format, ...) {
base::OS::Print("[%d] ", base::OS::GetCurrentProcessId());
va_list arguments;
va_start(arguments, format);
base::OS::VPrint(format, arguments);
va_end(arguments);
}
void PrintIsolate(void* isolate, const char* format, ...) {
base::OS::Print("[%d:%p] ", base::OS::GetCurrentProcessId(), isolate);
va_list arguments;
va_start(arguments, format);
base::OS::VPrint(format, arguments);
va_end(arguments);
}
int SNPrintF(Vector<char> str, const char* format, ...) {
va_list args;
va_start(args, format);
int result = VSNPrintF(str, format, args);
va_end(args);
return result;
}
int VSNPrintF(Vector<char> str, const char* format, va_list args) {
return base::OS::VSNPrintF(str.start(), str.length(), format, args);
}
void StrNCpy(Vector<char> dest, const char* src, size_t n) {
base::OS::StrNCpy(dest.start(), dest.length(), src, n);
}
void Flush(FILE* out) {
fflush(out);
}
char* ReadLine(const char* prompt) {
char* result = NULL;
char line_buf[256];
int offset = 0;
bool keep_going = true;
fprintf(stdout, "%s", prompt);
fflush(stdout);
while (keep_going) {
if (fgets(line_buf, sizeof(line_buf), stdin) == NULL) {
// fgets got an error. Just give up.
if (result != NULL) {
DeleteArray(result);
}
return NULL;
}
int len = StrLength(line_buf);
if (len > 1 &&
line_buf[len - 2] == '\\' &&
line_buf[len - 1] == '\n') {
// When we read a line that ends with a "\" we remove the escape and
// append the remainder.
line_buf[len - 2] = '\n';
line_buf[len - 1] = 0;
len -= 1;
} else if ((len > 0) && (line_buf[len - 1] == '\n')) {
// Since we read a new line we are done reading the line. This
// will exit the loop after copying this buffer into the result.
keep_going = false;
}
if (result == NULL) {
// Allocate the initial result and make room for the terminating '\0'
result = NewArray<char>(len + 1);
} else {
// Allocate a new result with enough room for the new addition.
int new_len = offset + len + 1;
char* new_result = NewArray<char>(new_len);
// Copy the existing input into the new array and set the new
// array as the result.
MemCopy(new_result, result, offset * kCharSize);
DeleteArray(result);
result = new_result;
}
// Copy the newly read line into the result.
MemCopy(result + offset, line_buf, len * kCharSize);
offset += len;
}
DCHECK(result != NULL);
result[offset] = '\0';
return result;
}
char* ReadCharsFromFile(FILE* file,
int* size,
int extra_space,
bool verbose,
const char* filename) {
if (file == NULL || fseek(file, 0, SEEK_END) != 0) {
if (verbose) {
base::OS::PrintError("Cannot read from file %s.\n", filename);
}
return NULL;
}
// Get the size of the file and rewind it.
*size = static_cast<int>(ftell(file));
rewind(file);
char* result = NewArray<char>(*size + extra_space);
for (int i = 0; i < *size && feof(file) == 0;) {
int read = static_cast<int>(fread(&result[i], 1, *size - i, file));
if (read != (*size - i) && ferror(file) != 0) {
fclose(file);
DeleteArray(result);
return NULL;
}
i += read;
}
return result;
}
char* ReadCharsFromFile(const char* filename,
int* size,
int extra_space,
bool verbose) {
FILE* file = base::OS::FOpen(filename, "rb");
char* result = ReadCharsFromFile(file, size, extra_space, verbose, filename);
if (file != NULL) fclose(file);
return result;
}
byte* ReadBytes(const char* filename, int* size, bool verbose) {
char* chars = ReadCharsFromFile(filename, size, 0, verbose);
return reinterpret_cast<byte*>(chars);
}
static Vector<const char> SetVectorContents(char* chars,
int size,
bool* exists) {
if (!chars) {
*exists = false;
return Vector<const char>::empty();
}
chars[size] = '\0';
*exists = true;
return Vector<const char>(chars, size);
}
Vector<const char> ReadFile(const char* filename,
bool* exists,
bool verbose) {
int size;
char* result = ReadCharsFromFile(filename, &size, 1, verbose);
return SetVectorContents(result, size, exists);
}
Vector<const char> ReadFile(FILE* file,
bool* exists,
bool verbose) {
int size;
char* result = ReadCharsFromFile(file, &size, 1, verbose, "");
return SetVectorContents(result, size, exists);
}
int WriteCharsToFile(const char* str, int size, FILE* f) {
int total = 0;
while (total < size) {
int write = static_cast<int>(fwrite(str, 1, size - total, f));
if (write == 0) {
return total;
}
total += write;
str += write;
}
return total;
}
int AppendChars(const char* filename,
const char* str,
int size,
bool verbose) {
FILE* f = base::OS::FOpen(filename, "ab");
if (f == NULL) {
if (verbose) {
base::OS::PrintError("Cannot open file %s for writing.\n", filename);
}
return 0;
}
int written = WriteCharsToFile(str, size, f);
fclose(f);
return written;
}
int WriteChars(const char* filename,
const char* str,
int size,
bool verbose) {
FILE* f = base::OS::FOpen(filename, "wb");
if (f == NULL) {
if (verbose) {
base::OS::PrintError("Cannot open file %s for writing.\n", filename);
}
return 0;
}
int written = WriteCharsToFile(str, size, f);
fclose(f);
return written;
}
int WriteBytes(const char* filename,
const byte* bytes,
int size,
bool verbose) {
const char* str = reinterpret_cast<const char*>(bytes);
return WriteChars(filename, str, size, verbose);
}
void StringBuilder::AddFormatted(const char* format, ...) {
va_list arguments;
va_start(arguments, format);
AddFormattedList(format, arguments);
va_end(arguments);
}
void StringBuilder::AddFormattedList(const char* format, va_list list) {
DCHECK(!is_finalized() && position_ <= buffer_.length());
int n = VSNPrintF(buffer_ + position_, format, list);
if (n < 0 || n >= (buffer_.length() - position_)) {
position_ = buffer_.length();
} else {
position_ += n;
}
}
#if V8_TARGET_ARCH_IA32 || V8_TARGET_ARCH_X87
static void MemMoveWrapper(void* dest, const void* src, size_t size) {
memmove(dest, src, size);
}
// Initialize to library version so we can call this at any time during startup.
static MemMoveFunction memmove_function = &MemMoveWrapper;
// Defined in codegen-ia32.cc.
MemMoveFunction CreateMemMoveFunction(Isolate* isolate);
// Copy memory area to disjoint memory area.
void MemMove(void* dest, const void* src, size_t size) {
if (size == 0) return;
// Note: here we rely on dependent reads being ordered. This is true
// on all architectures we currently support.
(*memmove_function)(dest, src, size);
}
#elif V8_OS_POSIX && V8_HOST_ARCH_ARM
void MemCopyUint16Uint8Wrapper(uint16_t* dest, const uint8_t* src,
size_t chars) {
uint16_t* limit = dest + chars;
while (dest < limit) {
*dest++ = static_cast<uint16_t>(*src++);
}
}
MemCopyUint8Function memcopy_uint8_function = &MemCopyUint8Wrapper;
MemCopyUint16Uint8Function memcopy_uint16_uint8_function =
&MemCopyUint16Uint8Wrapper;
// Defined in codegen-arm.cc.
MemCopyUint8Function CreateMemCopyUint8Function(Isolate* isolate,
MemCopyUint8Function stub);
MemCopyUint16Uint8Function CreateMemCopyUint16Uint8Function(
Isolate* isolate, MemCopyUint16Uint8Function stub);
#elif V8_OS_POSIX && V8_HOST_ARCH_MIPS
MemCopyUint8Function memcopy_uint8_function = &MemCopyUint8Wrapper;
// Defined in codegen-mips.cc.
MemCopyUint8Function CreateMemCopyUint8Function(Isolate* isolate,
MemCopyUint8Function stub);
#endif
static bool g_memcopy_functions_initialized = false;
void init_memcopy_functions(Isolate* isolate) {
if (g_memcopy_functions_initialized) return;
g_memcopy_functions_initialized = true;
#if V8_TARGET_ARCH_IA32 || V8_TARGET_ARCH_X87
MemMoveFunction generated_memmove = CreateMemMoveFunction(isolate);
if (generated_memmove != NULL) {
memmove_function = generated_memmove;
}
#elif V8_OS_POSIX && V8_HOST_ARCH_ARM
memcopy_uint8_function =
CreateMemCopyUint8Function(isolate, &MemCopyUint8Wrapper);
memcopy_uint16_uint8_function =
CreateMemCopyUint16Uint8Function(isolate, &MemCopyUint16Uint8Wrapper);
#elif V8_OS_POSIX && V8_HOST_ARCH_MIPS
memcopy_uint8_function =
CreateMemCopyUint8Function(isolate, &MemCopyUint8Wrapper);
#endif
}
bool DoubleToBoolean(double d) {
// NaN, +0, and -0 should return the false object
IeeeDoubleArchType u;
u.d = d;
if (u.bits.exp == 2047) {
// Detect NaN for IEEE double precision floating point.
if ((u.bits.man_low | u.bits.man_high) != 0) return false;
}
if (u.bits.exp == 0) {
// Detect +0, and -0 for IEEE double precision floating point.
if ((u.bits.man_low | u.bits.man_high) == 0) return false;
}
return true;
}
} // namespace internal
} // namespace v8
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