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@ -110,15 +110,15 @@ namespace hv {
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u64_to_hex(offset, posbuf+3);
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u64_to_hex(offset, posbuf+3);
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prints(posbuf+1);
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prints(posbuf+1);
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char hxbuf[3];
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char hxbuf[3] = { ' ' };
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std::size_t i=0;
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std::size_t i=0;
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char r_ascii[2 + ROW_SZ];
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char r_ascii[2 + ROW_SZ];
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r_ascii[0] = ' ';
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r_ascii[0] = ' ';
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r_ascii[1] = ' ';
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r_ascii[1] = ' ';
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char* ascii = r_ascii + 2;
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char* ascii = r_ascii + 2;
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auto memsize = memory.size();
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hxbuf[2] = ' ';
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for(;i<memsize;i++) {
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for(;i<memory.size();i++) {
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if (i && i % ROW_SZ == 0) { //TODO: Change to i +=16 so we don't have to branch here on every byte. Make sure to not overrun buffer tho
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if (i && i % ROW_SZ == 0) { //TODO: Change to i +=16 so we don't have to branch here on every byte. Make sure to not overrun buffer tho
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P_EX(S, r_ascii);
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P_EX(S, r_ascii);
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@ -131,9 +131,9 @@ namespace hv {
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ascii[i%ROW_SZ] = ascii_map[idx];
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ascii[i%ROW_SZ] = ascii_map[idx];
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}
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}
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if (memory.size() % ROW_SZ != 0)
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if (memsize % ROW_SZ != 0)
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{
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{
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auto rest = memory.size() % ROW_SZ;
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auto rest = memsize % ROW_SZ;
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ascii[rest] = 0;
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ascii[rest] = 0;
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constexpr const char output[3] = { ' ', ' ', ' ' };
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constexpr const char output[3] = { ' ', ' ', ' ' };
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for(std::size_t j=0;j< ROW_SZ - rest;j++)
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for(std::size_t j=0;j< ROW_SZ - rest;j++)
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