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@ -11,7 +11,7 @@ std::string CommonCode::code_to_string(uint64_t common_code, bool shorten) { |
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if (!CommonCode::check(common_code)) { |
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if (!CommonCode::check(common_code)) { |
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throw std::invalid_argument("invalid common code"); |
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throw std::invalid_argument("invalid common code"); |
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} |
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} |
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char result[10]; |
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char result[10]; // max length 9-bits
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sprintf(result, "%09lX", common_code); |
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sprintf(result, "%09lX", common_code); |
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if (shorten) { // remove `0` after common code
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if (shorten) { // remove `0` after common code
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if (common_code == 0x000000000) { |
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if (common_code == 0x000000000) { |
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@ -22,6 +22,27 @@ std::string CommonCode::code_to_string(uint64_t common_code, bool shorten) { |
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return result; |
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return result; |
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} |
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} |
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uint64_t CommonCode::code_from_string(const std::string &common_code) { |
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if (common_code.length() > 9 || common_code.length() == 0) { |
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throw std::invalid_argument("common code format error"); |
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} |
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uint64_t result = 0; |
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for (auto const &bit : common_code) { |
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result <<= 4; |
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if (bit >= '0' && bit <= '9') { // 0 ~ 9
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result |= (bit - 48); |
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} else if (bit >= 'A' && bit <= 'Z') { // A ~ Z
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result |= (bit - 55); |
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} else if (bit >= 'a' && bit <= 'z') { // a ~ z
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result |= (bit - 87); |
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} else { |
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throw std::invalid_argument("common code format error"); |
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} |
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} |
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// TODO: should we ensure that common code is valid?
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return result << (9 - common_code.length()) * 4; // low-bits fill with zero
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} |
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bool CommonCode::check(uint64_t common_code) { |
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bool CommonCode::check(uint64_t common_code) { |
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uint32_t head = common_code >> 32; |
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uint32_t head = common_code >> 32; |
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if (head >= 16 || (head & 0b11) == 0b11) { // check 2x2 block address
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if (head >= 16 || (head & 0b11) == 0b11) { // check 2x2 block address
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