// 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 #include #include #include "src/base/functional.h" #include "src/base/logging.h" #include "src/base/platform/platform.h" #include "src/memcopy.h" namespace v8 { namespace internal { SimpleStringBuilder::SimpleStringBuilder(int size) { buffer_ = Vector::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(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(value); if (value < 0) { AddCharacter('-'); number = static_cast(-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(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(position_)); position_ = -1; DCHECK(is_finalized()); return buffer_.start(); } std::ostream& operator<<(std::ostream& os, FeedbackSlot slot) { return os << "#" << slot.id_; } size_t hash_value(BailoutId id) { base::hash 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 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 str, const char* format, va_list args) { return base::OS::VSNPrintF(str.start(), str.length(), format, args); } void StrNCpy(Vector 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 = nullptr; 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) == nullptr) { // fgets got an error. Just give up. if (result != nullptr) { DeleteArray(result); } return nullptr; } 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 == nullptr) { // Allocate the initial result and make room for the terminating '\0' result = NewArray(len + 1); } else { // Allocate a new result with enough room for the new addition. int new_len = offset + len + 1; char* new_result = NewArray(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_NOT_NULL(result); result[offset] = '\0'; return result; } namespace { std::vector ReadCharsFromFile(FILE* file, bool* exists, bool verbose, const char* filename) { if (file == nullptr || fseek(file, 0, SEEK_END) != 0) { if (verbose) { base::OS::PrintError("Cannot read from file %s.\n", filename); } *exists = false; return std::vector(); } // Get the size of the file and rewind it. ptrdiff_t size = ftell(file); rewind(file); std::vector result(size); for (ptrdiff_t i = 0; i < size && feof(file) == 0;) { ptrdiff_t read = fread(result.data() + i, 1, size - i, file); if (read != (size - i) && ferror(file) != 0) { fclose(file); *exists = false; return std::vector(); } i += read; } *exists = true; return result; } std::vector ReadCharsFromFile(const char* filename, bool* exists, bool verbose) { FILE* file = base::OS::FOpen(filename, "rb"); std::vector result = ReadCharsFromFile(file, exists, verbose, filename); if (file != nullptr) fclose(file); return result; } std::string VectorToString(const std::vector& chars) { if (chars.size() == 0) { return std::string(); } return std::string(chars.begin(), chars.end()); } } // namespace std::string ReadFile(const char* filename, bool* exists, bool verbose) { std::vector result = ReadCharsFromFile(filename, exists, verbose); return VectorToString(result); } std::string ReadFile(FILE* file, bool* exists, bool verbose) { std::vector result = ReadCharsFromFile(file, exists, verbose, ""); return VectorToString(result); } int WriteCharsToFile(const char* str, int size, FILE* f) { int total = 0; while (total < size) { int write = static_cast(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 == nullptr) { 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 == nullptr) { 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(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; } } // Returns false iff d is NaN, +0, or -0. bool DoubleToBoolean(double d) { 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; } uintptr_t GetCurrentStackPosition() { #if V8_CC_MSVC return reinterpret_cast(_AddressOfReturnAddress()); #else return reinterpret_cast(__builtin_frame_address(0)); #endif } // The filter is a pattern that matches function names in this way: // "*" all; the default // "-" all but the top-level function // "-name" all but the function "name" // "" only the top-level function // "name" only the function "name" // "name*" only functions starting with "name" // "~" none; the tilde is not an identifier bool PassesFilter(Vector name, Vector filter) { if (filter.size() == 0) return name.size() == 0; auto filter_it = filter.begin(); bool positive_filter = true; if (*filter_it == '-') { ++filter_it; positive_filter = false; } if (filter_it == filter.end()) return name.size() != 0; if (*filter_it == '*') return positive_filter; if (*filter_it == '~') return !positive_filter; bool prefix_match = filter[filter.size() - 1] == '*'; size_t min_match_length = filter.size(); if (!positive_filter) min_match_length--; // Subtract 1 for leading '-'. if (prefix_match) min_match_length--; // Subtract 1 for trailing '*'. if (name.size() < min_match_length) return !positive_filter; // TODO(sigurds): Use the new version of std::mismatch here, once we // can assume C++14. auto res = std::mismatch(filter_it, filter.end(), name.begin()); if (res.first == filter.end()) { if (res.second == name.end()) { // The strings match, so {name} passes if we have a {positive_filter}. return positive_filter; } // {name} is longer than the filter, so {name} passes if we don't have a // {positive_filter}. return !positive_filter; } if (*res.first == '*') { // We matched up to the wildcard, so {name} passes if we have a // {positive_filter}. return positive_filter; } // We don't match, so {name} passes if we don't have a {positive_filter}. return !positive_filter; } } // namespace internal } // namespace v8