/*
Open Asset Import Library (assimp)
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* Redistributions in binary form must reproduce the above
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*/

/** @file  STEPFileEncoding.cpp
 *  @brief STEP character handling, string unescaping
 */
#include "STEPFileEncoding.h"
#include "fast_atof.h"

#include "../contrib/ConvertUTF/ConvertUTF.h"
#include <memory>

using namespace Assimp;

// roman1 to utf16 table
static const UTF16 mac_codetable[] = {
    // 0x20 unassig./nonprint. slots
     0x0020 ,
     0x0021 ,
     0x0022 ,
     0x0023 ,
     0x0024 ,
     0x0025 ,
     0x0026 ,
     0x0027 ,
     0x0028 ,
     0x0029 ,
     0x002A ,
     0x002B ,
     0x002C ,
     0x002D ,
     0x002E ,
     0x002F ,
     0x0030 ,
     0x0031 ,
     0x0032 ,
     0x0033 ,
     0x0034 ,
     0x0035 ,
     0x0036 ,
     0x0037 ,
     0x0038 ,
     0x0039 ,
     0x003A ,
     0x003B ,
     0x003C ,
     0x003D ,
     0x003E ,
     0x003F ,
     0x0040 ,
     0x0041 ,
     0x0042 ,
     0x0043 ,
     0x0044 ,
     0x0045 ,
     0x0046 ,
     0x0047 ,
     0x0048 ,
     0x0049 ,
     0x004A ,
     0x004B ,
     0x004C ,
     0x004D ,
     0x004E ,
     0x004F ,
     0x0050 ,
     0x0051 ,
     0x0052 ,
     0x0053 ,
     0x0054 ,
     0x0055 ,
     0x0056 ,
     0x0057 ,
     0x0058 ,
     0x0059 ,
     0x005A ,
     0x005B ,
     0x005C ,
     0x005D ,
     0x005E ,
     0x005F ,
     0x0060 ,
     0x0061 ,
     0x0062 ,
     0x0063 ,
     0x0064 ,
     0x0065 ,
     0x0066 ,
     0x0067 ,
     0x0068 ,
     0x0069 ,
     0x006A ,
     0x006B ,
     0x006C ,
     0x006D ,
     0x006E ,
     0x006F ,
     0x0070 ,
     0x0071 ,
     0x0072 ,
     0x0073 ,
     0x0074 ,
     0x0075 ,
     0x0076 ,
     0x0077 ,
     0x0078 ,
     0x0079 ,
     0x007A ,
     0x007B ,
     0x007C ,
     0x007D ,
     0x007E ,
     0x0000 , // unassig.
     0x00C4 ,
     0x00C5 ,
     0x00C7 ,
     0x00C9 ,
     0x00D1 ,
     0x00D6 ,
     0x00DC ,
     0x00E1 ,
     0x00E0 ,
     0x00E2 ,
     0x00E4 ,
     0x00E3 ,
     0x00E5 ,
     0x00E7 ,
     0x00E9 ,
     0x00E8 ,
     0x00EA ,
     0x00EB ,
     0x00ED ,
     0x00EC ,
     0x00EE ,
     0x00EF ,
     0x00F1 ,
     0x00F3 ,
     0x00F2 ,
     0x00F4 ,
     0x00F6 ,
     0x00F5 ,
     0x00FA ,
     0x00F9 ,
     0x00FB ,
     0x00FC ,
     0x2020 ,
     0x00B0 ,
     0x00A2 ,
     0x00A3 ,
     0x00A7 ,
     0x2022 ,
     0x00B6 ,
     0x00DF ,
     0x00AE ,
     0x00A9 ,
     0x2122 ,
     0x00B4 ,
     0x00A8 ,
     0x2260 ,
     0x00C6 ,
     0x00D8 ,
     0x221E ,
     0x00B1 ,
     0x2264 ,
     0x2265 ,
     0x00A5 ,
     0x00B5 ,
     0x2202 ,
     0x2211 ,
     0x220F ,
     0x03C0 ,
     0x222B ,
     0x00AA ,
     0x00BA ,
     0x03A9 ,
     0x00E6 ,
     0x00F8 ,
     0x00BF ,
     0x00A1 ,
     0x00AC ,
     0x221A ,
     0x0192 ,
     0x2248 ,
     0x2206 ,
     0x00AB ,
     0x00BB ,
     0x2026 ,
     0x00A0 ,
     0x00C0 ,
     0x00C3 ,
     0x00D5 ,
     0x0152 ,
     0x0153 ,
     0x2013 ,
     0x2014 ,
     0x201C ,
     0x201D ,
     0x2018 ,
     0x2019 ,
     0x00F7 ,
     0x25CA ,
     0x00FF ,
     0x0178 ,
     0x2044 ,
     0x20AC ,
     0x2039 ,
     0x203A ,
     0xFB01 ,
     0xFB02 ,
     0x2021 ,
     0x00B7 ,
     0x201A ,
     0x201E ,
     0x2030 ,
     0x00C2 ,
     0x00CA ,
     0x00C1 ,
     0x00CB ,
     0x00C8 ,
     0x00CD ,
     0x00CE ,
     0x00CF ,
     0x00CC ,
     0x00D3 ,
     0x00D4 ,
     0xF8FF ,
     0x00D2 ,
     0x00DA ,
     0x00DB ,
     0x00D9 ,
     0x0131 ,
     0x02C6 ,
     0x02DC ,
     0x00AF ,
     0x02D8 ,
     0x02D9 ,
     0x02DA ,
     0x00B8 ,
     0x02DD ,
     0x02DB ,
     0x02C7
};

// ------------------------------------------------------------------------------------------------
bool STEP::StringToUTF8(std::string& s)
{
    // very basic handling for escaped string sequences
    // http://doc.spatial.com/index.php?title=InterOp:Connect/STEP&redirect=no

    for (size_t i = 0; i < s.size(); ) {
        if (s[i] == '\\') {
            // \S\X - cp1252 (X is the character remapped to [0,127])
            if (i+3 < s.size() && s[i+1] == 'S' && s[i+2] == '\\') {
                // http://stackoverflow.com/questions/5586214/how-to-convert-char-from-iso-8859-1-to-utf-8-in-c-multiplatformly
                ai_assert((uint8_t)s[i+3] < 0x80);
                const uint8_t ch = s[i+3] + 0x80;

                s[i] = 0xc0 | (ch & 0xc0) >> 6;
                s[i+1] =  0x80 | (ch & 0x3f);

                s.erase(i + 2,2);
                ++i;
            }
            // \X\xx - mac/roman (xx is a hex sequence)
            else if (i+4 < s.size() && s[i+1] == 'X' && s[i+2] == '\\') {

                const uint8_t macval = HexOctetToDecimal(s.c_str() + i + 3);
                if(macval < 0x20) {
                    return false;
                }

                ai_assert(sizeof(mac_codetable) / sizeof(mac_codetable[0]) == 0x100-0x20);

                const UTF32 unival = mac_codetable[macval - 0x20], *univalp = &unival;

                UTF8 temp[5], *tempp = temp;
                ai_assert(sizeof(UTF8) == 1);

                if(ConvertUTF32toUTF8(&univalp, univalp+1, &tempp, tempp+sizeof(temp), lenientConversion) != conversionOK) {
                    return false;
                }

                const size_t outcount = static_cast<size_t>(tempp-temp);

                s.erase(i,5);
                s.insert(i, reinterpret_cast<char*>(temp), outcount);
                i += outcount;
            }
            // \Xn\ .. \X0\ - various unicode encodings (n=2: utf16; n=4: utf32)
            else if (i+3 < s.size() && s[i+1] == 'X' && s[i+2] >= '0' && s[i+2] <= '9') {
                switch(s[i+2]) {
                    // utf16
                case '2':
                    // utf32
                case '4':
                    if (s[i+3] == '\\') {
                        const size_t basei = i+4;
                        size_t j = basei, jend = s.size()-3;

                        for (; j < jend; ++j) {
                            if (s[j] == '\\' && s[j] == 'X' && s[j] == '0' && s[j] == '\\') {
                                break;
                            }
                        }
                        if (j == jend) {
                            return false;
                        }

                        if (j == basei) {
                            s.erase(i,8);
                            continue;
                        }

                        if (s[i+2] == '2') {
                            if (((j - basei) % 4) != 0) {
                                return false;
                            }

                            const size_t count = (j-basei)/4;
                            std::unique_ptr<UTF16[]> src(new UTF16[count]);

                            const char* cur = s.c_str() + basei;
                            for (size_t k = 0; k < count; ++k, cur += 4) {
                                src[k] = (static_cast<UTF16>(HexOctetToDecimal(cur)) << 8u)  |
                                     static_cast<UTF16>(HexOctetToDecimal(cur+2));
                            }

                            const size_t dcount = count * 3; // this is enough to hold all possible outputs
                            std::unique_ptr<UTF8[]> dest(new UTF8[dcount]);

                            const UTF16* srct = src.get();
                            UTF8* destt = dest.get();
                            if(ConvertUTF16toUTF8(&srct, srct+count, &destt, destt+dcount, lenientConversion) != conversionOK) {
                                return false;
                            }

                            const size_t outcount = static_cast<size_t>(destt-dest.get());

                            s.erase(i,(j+4-i));

                            ai_assert(sizeof(UTF8) == 1);
                            s.insert(i, reinterpret_cast<char*>(dest.get()), outcount);

                            i += outcount;
                            continue;
                        }
                        else if (s[i+2] == '4') {
                            if (((j - basei) % 8) != 0) {
                                return false;
                            }

                            const size_t count = (j-basei)/8;
                            std::unique_ptr<UTF32[]> src(new UTF32[count]);

                            const char* cur = s.c_str() + basei;
                            for (size_t k = 0; k < count; ++k, cur += 8) {
                                src[k] = (static_cast<UTF32>(HexOctetToDecimal(cur  )) << 24u) |
                                         (static_cast<UTF32>(HexOctetToDecimal(cur+2)) << 16u) |
                                         (static_cast<UTF32>(HexOctetToDecimal(cur+4)) << 8u)  |
                                         (static_cast<UTF32>(HexOctetToDecimal(cur+6)));
                            }

                            const size_t dcount = count * 5; // this is enough to hold all possible outputs
                            std::unique_ptr<UTF8[]> dest(new UTF8[dcount]);

                            const UTF32* srct = src.get();
                            UTF8* destt = dest.get();
                            if(ConvertUTF32toUTF8(&srct, srct+count, &destt, destt+dcount, lenientConversion) != conversionOK) {
                                return false;
                            }

                            const size_t outcount = static_cast<size_t>(destt-dest.get());

                            s.erase(i,(j+4-i));

                            ai_assert(sizeof(UTF8) == 1);
                            s.insert(i, reinterpret_cast<char*>(dest.get()), outcount);

                            i += outcount;
                            continue;
                        }
                    }

                    break;

                    // TODO: other encoding patterns?

                default:
                    return false;
                }
            }
        }
        ++i;
    }
    return true;
}