#pragma once namespace nall { auto string::read(string_view filename) -> string { #if !defined(_WIN32) FILE* fp = fopen(filename, "rb"); #else FILE* fp = _wfopen(utf16_t(filename), L"rb"); #endif string result; if(!fp) return result; fseek(fp, 0, SEEK_END); int filesize = ftell(fp); if(filesize < 0) return fclose(fp), result; rewind(fp); result.resize(filesize); auto unused = fread(result.get(), 1, filesize, fp); return fclose(fp), result; } auto string::repeat(string_view pattern, uint times) -> string { string result; while(times--) result.append(pattern.data()); return result; } auto string::fill(char fill) -> string& { memory::fill(get(), size(), fill); return *this; } auto string::hash() const -> uint { const char* p = data(); uint length = size(); uint result = 5381; while(length--) result = (result << 5) + result + *p++; return result; } auto string::remove(uint offset, uint length) -> string& { char* p = get(); length = min(length, size()); memory::move(p + offset, p + offset + length, size() - length); return resize(size() - length); } auto string::reverse() -> string& { char* p = get(); uint length = size(); uint pivot = length >> 1; for(int x = 0, y = length - 1; x < pivot && y >= 0; x++, y--) std::swap(p[x], p[y]); return *this; } //+length => insert/delete from start (right justify) //-length => insert/delete from end (left justify) auto string::size(int length, char fill) -> string& { uint size = this->size(); if(size == length) return *this; bool right = length >= 0; length = abs(length); if(size < length) { //expand resize(length); char* p = get(); uint displacement = length - size; if(right) memory::move(p + displacement, p, size); else p += size; while(displacement--) *p++ = fill; } else { //shrink char* p = get(); uint displacement = size - length; if(right) memory::move(p, p + displacement, length); resize(length); } return *this; } auto slice(string_view self, int offset, int length) -> string { string result; if(offset < self.size()) { if(length < 0) length = self.size() - offset; result.resize(length); memory::copy(result.get(), self.data() + offset, length); } return result; } template auto fromInteger(char* result, T value) -> char* { bool negative = value < 0; if(negative) value = -value; char buffer[1 + sizeof(T) * 3]; uint size = 0; do { uint n = value % 10; buffer[size++] = '0' + n; value /= 10; } while(value); if(negative) buffer[size++] = '-'; for(int x = size - 1, y = 0; x >= 0 && y < size; x--, y++) result[x] = buffer[y]; result[size] = 0; return result; } template auto fromNatural(char* result, T value) -> char* { char buffer[1 + sizeof(T) * 3]; uint size = 0; do { uint n = value % 10; buffer[size++] = '0' + n; value /= 10; } while(value); for(int x = size - 1, y = 0; x >= 0 && y < size; x--, y++) result[x] = buffer[y]; result[size] = 0; return result; } //using sprintf is certainly not the most ideal method to convert //a double to a string ... but attempting to parse a double by //hand, digit-by-digit, results in subtle rounding errors. template auto fromReal(char* result, T value) -> uint { char buffer[256]; #ifdef _WIN32 //Windows C-runtime does not support long double via sprintf() sprintf(buffer, "%f", (double)value); #else sprintf(buffer, "%Lf", (long double)value); #endif //remove excess 0's in fraction (2.500000 -> 2.5) for(char* p = buffer; *p; p++) { if(*p == '.') { char* p = buffer + strlen(buffer) - 1; while(*p == '0') { if(*(p - 1) != '.') *p = 0; //... but not for eg 1.0 -> 1. p--; } break; } } uint length = strlen(buffer); if(result) strcpy(result, buffer); return length + 1; } }