get_bar_code_resultT_get_bar_code_resultGetBarCodeResultGetBarCodeResultget_bar_code_result (Operator)

Name

get_bar_code_resultT_get_bar_code_resultGetBarCodeResultGetBarCodeResultget_bar_code_result — Get the alphanumerical results that were accumulated during the decoding of bar code symbols.

Signature

get_bar_code_result( : : BarCodeHandle, CandidateHandle, ResultName : BarCodeResults)

Herror T_get_bar_code_result(const Htuple BarCodeHandle, const Htuple CandidateHandle, const Htuple ResultName, Htuple* BarCodeResults)

void GetBarCodeResult(const HTuple& BarCodeHandle, const HTuple& CandidateHandle, const HTuple& ResultName, HTuple* BarCodeResults)

HTuple HBarCode::GetBarCodeResult(const HTuple& CandidateHandle, const HString& ResultName) const

HTuple HBarCode::GetBarCodeResult(const HString& CandidateHandle, const HString& ResultName) const

HTuple HBarCode::GetBarCodeResult(const char* CandidateHandle, const char* ResultName) const

HTuple HBarCode::GetBarCodeResult(const wchar_t* CandidateHandle, const wchar_t* ResultName) const   (Windows only)

static void HOperatorSet.GetBarCodeResult(HTuple barCodeHandle, HTuple candidateHandle, HTuple resultName, out HTuple barCodeResults)

HTuple HBarCode.GetBarCodeResult(HTuple candidateHandle, string resultName)

HTuple HBarCode.GetBarCodeResult(string candidateHandle, string resultName)

def get_bar_code_result(bar_code_handle: HHandle, candidate_handle: Union[int, str], result_name: str) -> Sequence[Union[int, float, str]]

def get_bar_code_result_s(bar_code_handle: HHandle, candidate_handle: Union[int, str], result_name: str) -> Union[int, float, str]

Description

The operator get_bar_code_resultget_bar_code_resultGetBarCodeResultGetBarCodeResultGetBarCodeResultget_bar_code_result returns in BarCodeResultsBarCodeResultsBarCodeResultsBarCodeResultsbarCodeResultsbar_code_results alphanumeric results of the reading process. In order to obtain a result, the bar code model (BarCodeHandleBarCodeHandleBarCodeHandleBarCodeHandlebarCodeHandlebar_code_handle) and the index of the resulting symbol or candidate (CandidateHandleCandidateHandleCandidateHandleCandidateHandlecandidateHandlecandidate_handle) are needed.

CandidateHandleCandidateHandleCandidateHandleCandidateHandlecandidateHandlecandidate_handle refers to the read candidates in the order as returned by the operator find_bar_codefind_bar_codeFindBarCodeFindBarCodeFindBarCodefind_bar_code. This implies, the possible values for CandidateHandleCandidateHandleCandidateHandleCandidateHandlecandidateHandlecandidate_handle depend on the queried result. Referring to decoded symbols, values from 0 to (n-1) are possible (with n as the total number of successfully decoded symbols). Referring to candidates, values from 0 to (m-1) are possible (with m as the total number of candidates). In cases the asked result is single valued, CandidateHandleCandidateHandleCandidateHandleCandidateHandlecandidateHandlecandidate_handle can also be set to 'all'"all""all""all""all""all" to return the results of all symbols or candidates.

With ResultNameResultNameResultNameResultNameresultNameresult_name you can select, which kind of result is returned in BarCodeResultsBarCodeResultsBarCodeResultsBarCodeResultsbarCodeResultsbar_code_results. The following values are supported:

'decoded_strings'"decoded_strings""decoded_strings""decoded_strings""decoded_strings""decoded_strings":

returns the decoded result as a string in a human-readable format. This decoded string can be returned for a single result, e.g., for CandidateHandleCandidateHandleCandidateHandleCandidateHandlecandidateHandlecandidate_handle 0, or for all results simultaneously when CandidateHandleCandidateHandleCandidateHandleCandidateHandlecandidateHandlecandidate_handle is set to 'all'"all""all""all""all""all". Note that only data characters are contained in the decoded string. Start, stop, and check characters are excluded. For optional check characters the behavior depends on the value of the 'check_char'"check_char""check_char""check_char""check_char""check_char" parameter.

'decoded_types'"decoded_types""decoded_types""decoded_types""decoded_types""decoded_types":

returns the bar code type of the decoded result as a string. This is especially important in the context of autodiscrimination (see find_bar_codefind_bar_codeFindBarCodeFindBarCodeFindBarCodefind_bar_code). CandidateHandleCandidateHandleCandidateHandleCandidateHandlecandidateHandlecandidate_handle specifies the results for which the type should be returned: The code type can be returned for a single result, e.g., for CandidateHandleCandidateHandleCandidateHandleCandidateHandlecandidateHandlecandidate_handle 0 when requesting the type of the first result, or for all results simultaneously if CandidateHandleCandidateHandleCandidateHandleCandidateHandlecandidateHandlecandidate_handle is set to 'all'"all""all""all""all""all".

'decoded_data'"decoded_data""decoded_data""decoded_data""decoded_data""decoded_data":

returns the decoded result as a tuple of byte values. In contrast to 'decoded_reference'"decoded_reference""decoded_reference""decoded_reference""decoded_reference""decoded_reference", this contains the same high level processed data that is also returned for 'decoded_strings'"decoded_strings""decoded_strings""decoded_strings""decoded_strings""decoded_strings". However, if the data contains binary non-printable characters, this parameter is more convenient. Also, for Code 128 or Code 93, the decoded data may contain NULL characters. In this case, the data can only be fully retrieved using this parameter, as the NULL character will otherwise terminate the string.

'decoded_reference'"decoded_reference""decoded_reference""decoded_reference""decoded_reference""decoded_reference":

returns the underlying decoded reference data. It comprises all original characters of the symbol, i.e., data characters, potential start or stop characters and check characters if present. The specific result depends on the code type:

As the decoded reference is a tuple of whole numbers it can only be called for a single result, meaning that CandidateHandleCandidateHandleCandidateHandleCandidateHandlecandidateHandlecandidate_handle has to be the handle number of the corresponding decoded symbol.

'composite_strings'"composite_strings""composite_strings""composite_strings""composite_strings""composite_strings":

returns the decoded string of a GS1 Composite component. For further details see the description of the parameter 'composite_code'"composite_code""composite_code""composite_code""composite_code""composite_code" of set_bar_code_paramset_bar_code_paramSetBarCodeParamSetBarCodeParamSetBarCodeParamset_bar_code_param.

'composite_reference'"composite_reference""composite_reference""composite_reference""composite_reference""composite_reference":

returns the decoded string of a GS1 Composite component as a tuple of byte values. If the data contains binary non-printable characters, this parameter is more convenient than 'composite_strings'"composite_strings""composite_strings""composite_strings""composite_strings""composite_strings".

'orientation'"orientation""orientation""orientation""orientation""orientation":

returns the orientation for the specified result. The 'orientation'"orientation""orientation""orientation""orientation""orientation" of a bar code is defined as the angle between its reading direction and the horizontal image axis. The angle is positive in counter clockwise direction and is given in degrees. It can be in the range of [-180.0 ... 180.0] degrees. Note that the reading direction is perpendicular to the bars of the bar code. In cases where the orientation of the bars can not be determined reliably, e.g., for distorted codes, the orientation of the scanlines is returned. A single angle is returned when only one result is specified, e.g., by entering 0 for CandidateHandleCandidateHandleCandidateHandleCandidateHandlecandidateHandlecandidate_handle. Otherwise, when CandidateHandleCandidateHandleCandidateHandleCandidateHandlecandidateHandlecandidate_handle is set to 'all'"all""all""all""all""all", a tuple containing the angles of all results is returned.

'element_size'"element_size""element_size""element_size""element_size""element_size":

returns the size of bar code elements for the specified result.

'aborted'"aborted""aborted""aborted""aborted""aborted":

returns a value indicating whether find_bar_codefind_bar_codeFindBarCodeFindBarCodeFindBarCodefind_bar_code was aborted or not:

0 - completed

find_bar_codefind_bar_codeFindBarCodeFindBarCodeFindBarCodefind_bar_code completed.

1 - aborted

find_bar_codefind_bar_codeFindBarCodeFindBarCodeFindBarCodefind_bar_code was aborted by a timeout, see set_bar_code_paramset_bar_code_paramSetBarCodeParamSetBarCodeParamSetBarCodeParamset_bar_code_param.

2 - aborted

find_bar_codefind_bar_codeFindBarCodeFindBarCodeFindBarCodefind_bar_code was aborted using set_bar_code_paramset_bar_code_paramSetBarCodeParamSetBarCodeParamSetBarCodeParamset_bar_code_param with 'abort'"abort""abort""abort""abort""abort".

'quality_isoiec15416'"quality_isoiec15416""quality_isoiec15416""quality_isoiec15416""quality_isoiec15416""quality_isoiec15416":

returns a tuple with the assessment of print quality in compliance with the international standard ISO/IEC 15416:2016. Note that the print quality of a bar code can only be evaluated if the bar code was decoded by find_bar_codefind_bar_codeFindBarCodeFindBarCodeFindBarCodefind_bar_code in 'persistence'"persistence""persistence""persistence""persistence""persistence" mode (see set_bar_code_paramset_bar_code_paramSetBarCodeParamSetBarCodeParamSetBarCodeParamset_bar_code_param for further details).

The first tuple element always contains the overall print quality of the symbol. The length of the tuple and the interpretation of the remaining elements depend on whether a simple 1D bar code is evaluated (e.g., EAN-13, Code 128, GS1 DataBar) or a composite bar code (e.g., GS1 DataBar Omnidirectional CC-A, GS1 DataBar Limited CC-B). The names of the grades can be queried by setting ResultNameResultNameResultNameResultNameresultNameresult_name to 'quality_isoiec15416_labels'"quality_isoiec15416_labels""quality_isoiec15416_labels""quality_isoiec15416_labels""quality_isoiec15416_labels""quality_isoiec15416_labels", see below.

For the print quality assessment a set of scan reflectance profiles (scan lines) is generated across the symbol. For each scan line a grade for each of the evaluated parameters is allocated.

For compatibility reasons these grades are numbers from 0 to 4, where 0 is the worst and 4 the best possible grade. Setting ResultNameResultNameResultNameResultNameresultNameresult_name to 'quality_isoiec15416_float_grades'"quality_isoiec15416_float_grades""quality_isoiec15416_float_grades""quality_isoiec15416_float_grades""quality_isoiec15416_float_grades""quality_isoiec15416_float_grades", the grades are returned in accordance with the standard with one decimal place. The worst of all parameter grades of a scan line is defined as the scan reflectance profile grade. Thus, each scan line has an own grade representing the respective minimal grade of all parameter grades of this scan line. The arithmetic mean of all those scan line grades is then returned as the overall symbol grade.

It is important to note that, even though the implementation is strictly based on the standard, the computation of the print quality grades depends on the decoding algorithm used. Thus, different bar code readers (of different vendors) can potentially produce slightly different results in the print quality assessment.

The tuple describing the print quality depends on whether the bar code is simple or composite:

simple 1D bar codes:

The valuation of the print quality is described in a tuple with the following nine elements:

0 - overall quality:

The arithmetic mean of the scan reflectance profile grade of each scan line. Note, that this value is, in most cases, not the minimum of the other symbol grades, because it depends on the individual scan reflectance profile grades.

1 - decode:

Set to 4 when the reflectance profile of the symbol could be decoded according to the reference decode algorithm for the symbology and 0, otherwise. Note that HALCON's decode algorithm differs from the reference decode algorithm. Thus, in many cases HALCON can decode the symbol although the decode grade according to the standard is 0.

2 - symbol contrast:

The range between the minimal and the maximal value in the reflectance profile. A strong contrast results in a good grading.

3 - minimal reflectance:

Set to 4 if the lowest reflectance value in the scan reflectance profile is lower or equal to 0.5 of the maximal reflectance value. Otherwise a value of 0 is assigned.

4 - minimal edge contrast:

The contrast between any two adjacent elements, both bar-to-space or space-to-bar. The minimal edge contrast grades the minimum of the edge contrast values measured in the reflectance profile.

5 - modulation:

Indicates how strong the amplitudes of the bar code elements are. Big amplitudes make the assignment of the elements to bars or spaces more certain, resulting in a high modulation grade.

6 - defects:

Reflects irregularities in the gray value profile found within elements and quiet zones.

7 - decodability:

Reflects deviations of the element widths from the nominal widths defined for the corresponding symbology.

8 - additional requirements:

A grade concerning symbology specific requirements of the bar code. It mostly regards the required quiet zones, but sometimes it can also be related to e.g., wide/narrow ratio, inter-character gaps, guarding patterns. For the following code types the conformity to the corresponding ISO/IEC standard cannot be guaranteed. This is mainly because the computation of the additional requirements requires the availability of metrical information.

Code 39:

the grade of the inter-character gap depends on the measured narrow element width given in millimeters. Since in find_bar_codefind_bar_codeFindBarCodeFindBarCodeFindBarCodefind_bar_code neither metric information is available nor can be calculated, get_bar_code_resultget_bar_code_resultGetBarCodeResultGetBarCodeResultGetBarCodeResultget_bar_code_result will only return the grade for the inter-character gap assuming that the measured narrow element width is less than 0.287mm.

EAN-13, EAN-8, UPC-A, UPC-E (including all add-on variants):

ISO/IEC 15420:2009 specifies the magnification factors as an additional criterion. A computation of this criterion is not possible since this would require knowledge of the metrical size of the bar code.

While overall quality is the final symbol grade to be reported, the rest of the grades give information for possible causes for poor quality of a symbol. A detailed list of frequently appearing defects and their effect on the individual grades can be found with the ISO/IEC 15416:2016 standard.

composite bar codes:

The valuation of the print quality is described in a tuple with 24 elements, which we organize for better clarity in three groups: OVERALL, LINEAR, and COMPOSITE, the latter one including a sub group. The overall grades that are listed in the group OVERALL. The grades in the groups LINEAR and COMPOSITE give information of possible causes for poor quality of the symbol.

In the following, the individual tuple elements with their corresponding index and definition are listed in groups.

  • The group OVERALL: These grades represent the respective minimum of all individual grades of each group.

    0 - overall quality:

    The final symbol grade to be reported. It returns the minimum of all grades.

    1 - overall linear:

    The overall grade for the symbols of the group LINEAR, the linear 1D symbols. This grade returns the minimum of all grades belonging to the group.

    2 - overall composite:

    The overall grade for the symbols of the group COMPOSITE, the composite 2D symbols. This grade returns the minimum of all grades belonging to the group.

  • The group LINEAR: The interpretation of the grades in the LINEAR group correspond to those for simple 1D bar codes described above.

    3 - decode
    4 - symbol contrast
    5 - minimal reflectance
    6 - minimal edge contrast
    7 - modulation
    8 - defects
    9 - decodability
    10 - additional requirements
  • The group COMPOSITE: these grades are equivalent to the quality grades for PDF 417 data code symbols, thus of two-dimensional symbols according to ICO/IEC 15415:2011 (see 'quality_isoiec15415'"quality_isoiec15415""quality_isoiec15415""quality_isoiec15415""quality_isoiec15415""quality_isoiec15415" in get_data_code_2d_resultsget_data_code_2d_resultsGetDataCode2dResultsGetDataCode2dResultsGetDataCode2dResultsget_data_code_2d_results). However, there is a difference: For PDF 417 data code symbols a start/stop pattern is used for the evaluation concerning the quality of the reflectance profile. In contrast, for composite bar codes so-called Raw Address Patterns (RAP) are used instead of a start/stop pattern. The grades of the respective RAP symbols are organized in the sub group COMPOSITE RAP and are consistent with the grades for simple 1D bar codes.

    11 - decode:

    Grade for the decodability of the composite symbol part. Its meaning and determination is equivalent to the one for simple 1D bar codes described above.

    12 - RAP overall:

    Minimum of all individual grades of the sub group COMPOSITE RAP.

    13 - RAP contrast:

    Grade of the COMPOSITE RAP sub group, corresponds to the one for simple 1D bar codes as described above.

    14 - RAP minimal reflectance:

    Grade of the COMPOSITE RAP sub group, corresponds to the one for simple 1D bar codes as described above.

    15 - RAP minimal edge contrast:

    Grade of the COMPOSITE RAP sub group, corresponds to the one for simple 1D bar codes as described above.

    16 - RAP modulation:

    Grade of the COMPOSITE RAP sub group, corresponds to the one for simple 1D bar codes as described above.

    17 - RAP defects:

    Grade of the COMPOSITE RAP sub group, corresponds to the one for simple 1D bar codes as described above.

    18 - RAP decodability:

    Grade of the COMPOSITE RAP sub group, corresponds to the one for simple 1D bar codes as described above.

    19 - codeword yield:

    Counts and evaluates the relative number of correct decoded words acquired by the set of scan profiles.

    20 - unused error correction:

    Counts and evaluates the relative number of false decoded words within the error correction blocks.

    21 - modulation:

    Grades the ratio of the minimum edge contrast to the symbol contrast. indicates how strong the amplitudes, i.e., the extremal intensities, of the bars and spaces are.

    22 - decodability:

    Grades the uniformity of reflectance of the dark and light modules, respectively.

    23 - defects:

    Refers to a measurement of how perfect the reflectance profiles of bars and spaces are.

'quality_isoiec15416_float_grades'"quality_isoiec15416_float_grades""quality_isoiec15416_float_grades""quality_isoiec15416_float_grades""quality_isoiec15416_float_grades""quality_isoiec15416_float_grades":

returns a tuple with the same assessment of print quality like 'quality_isoiec15416'"quality_isoiec15416""quality_isoiec15416""quality_isoiec15416""quality_isoiec15416""quality_isoiec15416". In compliance with the international standard ISO/IEC 15416:2016 the grades are returned with one decimal place. The names of the grades can be queried by setting ResultNameResultNameResultNameResultNameresultNameresult_name to 'quality_isoiec15416_labels'"quality_isoiec15416_labels""quality_isoiec15416_labels""quality_isoiec15416_labels""quality_isoiec15416_labels""quality_isoiec15416_labels", see below.

Note that the print quality of a bar code can only be evaluated if the bar code was decoded by find_bar_codefind_bar_codeFindBarCodeFindBarCodeFindBarCodefind_bar_code in 'persistence'"persistence""persistence""persistence""persistence""persistence" mode (see set_bar_code_paramset_bar_code_paramSetBarCodeParamSetBarCodeParamSetBarCodeParamset_bar_code_param for further details).

'quality_isoiec15416_values'"quality_isoiec15416_values""quality_isoiec15416_values""quality_isoiec15416_values""quality_isoiec15416_values""quality_isoiec15416_values":

returns a tuple with the raw values for all 'directly measurable' grades (returned with ResultNameResultNameResultNameResultNameresultNameresult_name to 'quality_isoiec15416'"quality_isoiec15416""quality_isoiec15416""quality_isoiec15416""quality_isoiec15416""quality_isoiec15416"). These are the grades, whose definition in the ISO/IEC 15416:2016 standard is a 'direct derivative' of the reflectance (i.e., the gray values) properties of the symbol or grades that are the result of a 'direct counting'. Additionally the three overall grades overall quality, overall linear, and overall composite are returned (see their explanation above in 'quality_isoiec15416'"quality_isoiec15416""quality_isoiec15416""quality_isoiec15416""quality_isoiec15416""quality_isoiec15416"). Note that the print quality of a bar code can only be evaluated if the bar code was decoded by find_bar_codefind_bar_codeFindBarCodeFindBarCodeFindBarCodefind_bar_code in 'persistence'"persistence""persistence""persistence""persistence""persistence" mode (see set_bar_code_paramset_bar_code_paramSetBarCodeParamSetBarCodeParamSetBarCodeParamset_bar_code_param for further details).

The names of the tuple elements can be queried by setting ResultNameResultNameResultNameResultNameresultNameresult_name to 'quality_isoiec15416_labels'"quality_isoiec15416_labels""quality_isoiec15416_labels""quality_isoiec15416_labels""quality_isoiec15416_labels""quality_isoiec15416_labels", see below.

All values (not grades) are normalized between 0.0 and 1.0. Hence, for example, a symbol contrast value of 0.75 will correspond to a gray value of 191.25 (for byte images).

Which values make up the tuple depends on whether the bar code is a simple 1D or a composite bar code:

simple 1D bar codes:

The following values are returned by the respective index:

0 - overall quality
2 - symbol contrast
3 - minimal reflectance
4 - minimal edge contrast
5 - modulation
6 - defects
7 - decodability
composite bar codes:

The following values are returned by the respective index:

0 - overall quality
1 - overall linear
2 - overall composite
4 - symbol contrast
5 - minimal reflectance
6 - minimal edge contrast
7 - modulation
8 - defects
9 - decodability
13 - RAP contrast
14 - RAP minimal reflectance
15 - RAP minimal edge contrast
16 - RAP modulation
17 - RAP defects
18 - RAP decodability
19 - codeword yield
20 - unused error correction

These tuples have the same length as the tuple with the grades returned when setting ResultNameResultNameResultNameResultNameresultNameresult_name to 'quality_isoiec15416'"quality_isoiec15416""quality_isoiec15416""quality_isoiec15416""quality_isoiec15416""quality_isoiec15416" and 'quality_isoiec15416_float_grades'"quality_isoiec15416_float_grades""quality_isoiec15416_float_grades""quality_isoiec15416_float_grades""quality_isoiec15416_float_grades""quality_isoiec15416_float_grades", respectively. For the entries not listed above, the operator reports 'N/A'"N/A""N/A""N/A""N/A""N/A". In case of simple 1D bar codes, the grades decode and additional requirements do not have any interpretation in the reflectance profile and as a consequence the value 'N/A'"N/A""N/A""N/A""N/A""N/A" is returned. For composite bar codes this is the case for the grades decode (LINEAR), additional requirements (LINEAR), decode (COMPOSITE), and RAP overall (COMPOSITE). Note that although the grades modulation (COMPOSITE), decodability (COMPOSITE), and defects (COMPOSITE) are grading the gray value reflectance profile of a composite symbol, 'N/A'"N/A""N/A""N/A""N/A""N/A" is reported for them as well. This is because they are computed in a complicated scheme involving the symbology decoding routine and the error correction mechanism. As a consequence they do not have a direct raw measurement interpretation.

'quality_isoiec15416_labels'"quality_isoiec15416_labels""quality_isoiec15416_labels""quality_isoiec15416_labels""quality_isoiec15416_labels""quality_isoiec15416_labels":

returns convenience grade labels of the elements of the tuple returned when calling get_bar_code_resultget_bar_code_resultGetBarCodeResultGetBarCodeResultGetBarCodeResultget_bar_code_result with 'quality_isoiec15416'"quality_isoiec15416""quality_isoiec15416""quality_isoiec15416""quality_isoiec15416""quality_isoiec15416". Note, that in order to be able to discriminate the composite from the linear grading case, the operator needs a handle of a valid result to be passed in CandidateHandleCandidateHandleCandidateHandleCandidateHandlecandidateHandlecandidate_handle.

'status'"status""status""status""status""status":

determines and returns additional information about scanlines of a given candidate region in a human-readable format. Here, CandidateHandleCandidateHandleCandidateHandleCandidateHandlecandidateHandlecandidate_handle can take numbers from 0 to (m-1), where m is the total number of candidates. Note in order to evaluate the status of the bar code scanlines the preceding call of the operator find_bar_codefind_bar_codeFindBarCodeFindBarCodeFindBarCodefind_bar_code or decode_bar_code_rectangle2decode_bar_code_rectangle2DecodeBarCodeRectangle2DecodeBarCodeRectangle2DecodeBarCodeRectangle2decode_bar_code_rectangle2 needs to be done in the mode 'persistence'"persistence""persistence""persistence""persistence""persistence", see set_bar_code_paramset_bar_code_paramSetBarCodeParamSetBarCodeParamSetBarCodeParamset_bar_code_param.

For the calculation of additional information the given candidate region is scanned again. In doing so, the bar code reader exits only after evaluation of all scanlines and not usual after a successful decoding. This is computationally expensive and should be queried only if additional information is needed. For further information on setting scanline parameters, see set_bar_code_paramset_bar_code_paramSetBarCodeParamSetBarCodeParamSetBarCodeParamset_bar_code_param.

The operator returns for every scanline of the candidate region a status message and possible warning message, which will be added to the string containing the status message. These messages are sorted in the same order as the scanlines themselves are returned by get_bar_code_objectget_bar_code_objectGetBarCodeObjectGetBarCodeObjectGetBarCodeObjectget_bar_code_object with the parameter 'scanlines_all'"scanlines_all""scanlines_all""scanlines_all""scanlines_all""scanlines_all". The possible messages of these categories are listed below.

'status_id'"status_id""status_id""status_id""status_id""status_id":

returns additional information about scanlines in a numeric format that can be easily parsed. The description of this functionality and the message numbers are described with the parameter 'status'"status""status""status""status""status" above. The numbers of the warnings can be returned together with other status numbers. The single status message and warning numbers for each scanline are returned as a string, separated by a semicolon, e.g., '1;1000;1004'.

'status_small_elements_robustness'"status_small_elements_robustness""status_small_elements_robustness""status_small_elements_robustness""status_small_elements_robustness""status_small_elements_robustness":

determines the status of an optional decoding attempt, which is described in the section about 'small_elements_robustness'"small_elements_robustness""small_elements_robustness""small_elements_robustness""small_elements_robustness""small_elements_robustness" in set_bar_code_paramset_bar_code_paramSetBarCodeParamSetBarCodeParamSetBarCodeParamset_bar_code_param. Additionally to the messages listed for 'status'"status""status""status""status""status", 'status_small_elements_robustness'"status_small_elements_robustness""status_small_elements_robustness""status_small_elements_robustness""status_small_elements_robustness""status_small_elements_robustness" can return the status 'small_elements_robustness: no scan.'"small_elements_robustness: no scan.""small_elements_robustness: no scan.""small_elements_robustness: no scan.""small_elements_robustness: no scan.""small_elements_robustness: no scan." if for some reason the algorithm was not executed or failed.

Execution Information

Parameters

BarCodeHandleBarCodeHandleBarCodeHandleBarCodeHandlebarCodeHandlebar_code_handle (input_control)  barcode HBarCode, HTupleHHandleHTupleHtuple (handle) (IntPtr) (HHandle) (handle)

Handle of the bar code model.

CandidateHandleCandidateHandleCandidateHandleCandidateHandlecandidateHandlecandidate_handle (input_control)  integer HTupleUnion[int, str]HTupleHtuple (string / integer) (string / int / long) (HString / Hlong) (char* / Hlong)

Indicating the bar code results respectively candidates for which the data is required.

Default value: 'all' "all" "all" "all" "all" "all"

Suggested values: 0, 1, 2, 'all'"all""all""all""all""all"

ResultNameResultNameResultNameResultNameresultNameresult_name (input_control)  attribute.name HTuplestrHTupleHtuple (string) (string) (HString) (char*)

Names of the resulting data to return.

Default value: 'decoded_types' "decoded_types" "decoded_types" "decoded_types" "decoded_types" "decoded_types"

Suggested values: 'decoded_types'"decoded_types""decoded_types""decoded_types""decoded_types""decoded_types", 'decoded_strings'"decoded_strings""decoded_strings""decoded_strings""decoded_strings""decoded_strings", 'decoded_data'"decoded_data""decoded_data""decoded_data""decoded_data""decoded_data", 'decoded_reference'"decoded_reference""decoded_reference""decoded_reference""decoded_reference""decoded_reference", 'element_size'"element_size""element_size""element_size""element_size""element_size", 'orientation'"orientation""orientation""orientation""orientation""orientation", 'composite_strings'"composite_strings""composite_strings""composite_strings""composite_strings""composite_strings", 'composite_reference'"composite_reference""composite_reference""composite_reference""composite_reference""composite_reference", 'aborted'"aborted""aborted""aborted""aborted""aborted", 'quality_isoiec15416'"quality_isoiec15416""quality_isoiec15416""quality_isoiec15416""quality_isoiec15416""quality_isoiec15416", 'quality_isoiec15416_labels'"quality_isoiec15416_labels""quality_isoiec15416_labels""quality_isoiec15416_labels""quality_isoiec15416_labels""quality_isoiec15416_labels", 'quality_isoiec15416_values'"quality_isoiec15416_values""quality_isoiec15416_values""quality_isoiec15416_values""quality_isoiec15416_values""quality_isoiec15416_values", 'quality_isoiec15416_float_grades'"quality_isoiec15416_float_grades""quality_isoiec15416_float_grades""quality_isoiec15416_float_grades""quality_isoiec15416_float_grades""quality_isoiec15416_float_grades", 'status'"status""status""status""status""status", 'status_id'"status_id""status_id""status_id""status_id""status_id", 'status_small_elements_robustness'"status_small_elements_robustness""status_small_elements_robustness""status_small_elements_robustness""status_small_elements_robustness""status_small_elements_robustness"

BarCodeResultsBarCodeResultsBarCodeResultsBarCodeResultsbarCodeResultsbar_code_results (output_control)  attribute.value(-array) HTupleSequence[Union[int, float, str]]HTupleHtuple (string / integer / real) (string / int / long / double) (HString / Hlong / double) (char* / Hlong / double)

List with the results.

Result

The operator get_bar_code_resultget_bar_code_resultGetBarCodeResultGetBarCodeResultGetBarCodeResultget_bar_code_result returns the value TRUE if the given parameters are correct and the requested results are available for the last symbol search. Otherwise, an exception will be raised.

Possible Predecessors

find_bar_codefind_bar_codeFindBarCodeFindBarCodeFindBarCodefind_bar_code

See also

get_bar_code_objectget_bar_code_objectGetBarCodeObjectGetBarCodeObjectGetBarCodeObjectget_bar_code_object

Module

Bar Code