/*************************************************************************** * Copyright (C) 2008 by BogDan Vatra * * bogdan@licentia.eu * * Copyright (C) 2010-2024 Robin Stuart * * * * This program is free software: you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation, either version 3 of the License, or * * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * * along with this program. If not, see . * ***************************************************************************/ /* SPDX-License-Identifier: GPL-3.0-or-later */ #ifdef _MSC_VER #if _MSC_VER >= 1900 /* MSVC 2015 */ #pragma warning(disable: 4996) /* function or variable may be unsafe */ #endif #endif //#include #include #include /* The following include is necessary to compile with Qt 5.15 on Windows; Qt 5.7 did not require it */ #include #include #include #include #include "qzint.h" #include "../backend/fonts/normal_ttf.h" /* Arimo */ #include "../backend/fonts/upcean_ttf.h" /* OCR-B subset (digits, "<", ">") */ // Shorthand #define QSL QStringLiteral #define QSEmpty QLatin1String("") namespace Zint { static const int maxSegs = 256; static const int maxCLISegs = 10; /* CLI restricted to 10 segments (including main data) */ /* Matches RGB(A) hex string or CMYK decimal "C,M,Y,K" percentage string */ static const QString colorREstr( QSL("^([0-9A-Fa-f]{6}([0-9A-Fa-f]{2})?)|(((100|[0-9]{0,2}),){3}(100|[0-9]{0,2}))$")); Q_GLOBAL_STATIC_WITH_ARGS(QRegularExpression, colorRE, (colorREstr)) static const QString normalFontFamily = QSL("Arimo"); /* Sans-serif metrically compatible with Arial */ static const QString upceanFontFamily = QSL("OCRB"); /* Monospace OCR-B */ static const QString fontFamilyError = QSL("Arimo"); static const int fontSizeError = 14; /* Point size */ static int normalFontID = -2; /* Use -2 as `addApplicationFontFromData()` returns -1 on error */ /* Load Arimo from static array */ static int loadNormalFont() { static const QByteArray normalFontArray = QByteArray::fromRawData((const char *) normal_ttf, sizeof(normal_ttf)); normalFontID = QFontDatabase::addApplicationFontFromData(normalFontArray); return normalFontID; } static int upceanFontID = -2; /* Use -2 as `addApplicationFontFromData()` returns -1 on error */ /* Load OCR-B EAN/UPC subset from static array */ static int loadUpceanFont() { static const QByteArray upceanFontArray = QByteArray::fromRawData((const char *) upcean_ttf, sizeof(upcean_ttf)); upceanFontID = QFontDatabase::addApplicationFontFromData(upceanFontArray); return upceanFontID; } /* Helper to convert QColor to RGB(A) hex string */ static QString qcolor_to_str(const QColor &color) { if (color.alpha() == 0xFF) { return QString::asprintf("%02X%02X%02X", color.red(), color.green(), color.blue()); } return QString::asprintf("%02X%02X%02X%02X", color.red(), color.green(), color.blue(), color.alpha()); } /* Helper to convert RGB(A) hex string or CMYK decimal "C,M,Y,K" percentage string) to QColor */ static QColor str_to_qcolor(const QString &text) { QColor color; int r, g, b, a; if (text.contains(',')) { int comma1 = text.indexOf(','); int comma2 = text.indexOf(',', comma1 + 1); int comma3 = text.indexOf(',', comma2 + 1); int black = 100 - text.mid(comma3 + 1).toInt(); int val = 100 - text.mid(0, comma1).toInt(); r = (int) roundf((0xFF * val * black) / 10000.0f); val = 100 - text.mid(comma1 + 1, comma2 - comma1 - 1).toInt(); g = (int) roundf((0xFF * val * black) / 10000.0f); val = 100 - text.mid(comma2 + 1, comma3 - comma2 - 1).toInt(); b = (int) roundf((0xFF * val * black) / 10000.0f); a = 0xFF; } else { r = text.mid(0, 2).toInt(nullptr, 16); g = text.mid(2, 2).toInt(nullptr, 16); b = text.mid(4, 2).toInt(nullptr, 16); a = text.length() == 8 ? text.mid(6, 2).toInt(nullptr, 16) : 0xFF; } color.setRgb(r, g, b, a); return color; } /* Helper to convert ECI combo index to ECI value */ static int ECIIndexToECI(const int ECIIndex) { int ret; if (ECIIndex >= 1 && ECIIndex <= 11) { ret = ECIIndex + 2; } else if (ECIIndex >= 12 && ECIIndex <= 15) { ret = ECIIndex + 3; } else if (ECIIndex >= 16 && ECIIndex <= 31) { ret = ECIIndex + 4; } else if (ECIIndex == 32) { ret = 170; /* ISO 646 Invariant */ } else if (ECIIndex == 33) { ret = 899; /* 8-bit binary data */ } else { ret = 0; } return ret; } /* Helper to calculate max right and bottom of elements for fudging `render()` */ static void getMaxRectsRightBottom(struct zint_vector *vector, int &maxRight, int &maxBottom) { struct zint_vector_rect *rect; struct zint_vector_hexagon *hex; struct zint_vector_circle *circle; maxRight = maxBottom = -1; for (rect = vector->rectangles; rect; rect = rect->next) { if (rect->x + rect->width > maxRight) { maxRight = rect->x + rect->width; } if (rect->y + rect->height > maxBottom) { maxBottom = rect->y + rect->height; } } for (hex = vector->hexagons; hex; hex = hex->next) { if (hex->x + hex->diameter > maxRight) { maxRight = hex->x + hex->diameter; } if (hex->y + hex->diameter > maxBottom) { maxBottom = hex->y + hex->diameter; } } for (circle = vector->circles; circle; circle = circle->next) { if (circle->x + circle->diameter + circle->width > maxRight) { maxRight = circle->x + circle->diameter + circle->width; } if (circle->y + circle->diameter + circle->width > maxBottom) { maxBottom = circle->y + circle->diameter + circle->width; } } // TODO: Strings? } /* Segment constructors */ QZintSeg::QZintSeg() : m_eci(0) {} QZintSeg::QZintSeg(const QString& text, const int ECIIndex) : m_text(text), m_eci(ECIIndexToECI(ECIIndex)) {} QZint::QZint() : m_zintSymbol(nullptr), m_symbol(BARCODE_CODE128), m_input_mode(UNICODE_MODE), m_height(0.0f), m_option_1(-1), m_option_2(0), m_option_3(0), m_dpmm(0.0f), m_scale(1.0f), m_dotty(false), m_dot_size(4.0f / 5.0f), m_guardDescent(5.0f), m_textGap(1.0f), m_fgStr(QSL("000000")), m_bgStr(QSL("FFFFFF")), m_cmyk(false), m_borderType(0), m_borderWidth(0), m_whitespace(0), m_vwhitespace(0), m_fontSetting(0), m_show_hrt(true), m_gssep(false), m_quiet_zones(false), m_no_quiet_zones(false), m_compliant_height(false), m_rotate_angle(0), m_eci(0), m_gs1parens(false), m_gs1nocheck(false), m_reader_init(false), m_guard_whitespace(false), m_embed_vector_font(false), m_warn_level(WARN_DEFAULT), m_debug(false), m_encodedWidth(0), m_encodedRows(0), m_encodedHeight(0.0f), m_vectorWidth(0.0f), m_vectorHeight(0.0f), m_error(0), target_size_horiz(0), target_size_vert(0) // Legacy { memset(&m_structapp, 0, sizeof(m_structapp)); } QZint::~QZint() { if (m_zintSymbol) ZBarcode_Delete(m_zintSymbol); } bool QZint::resetSymbol() { m_error = 0; m_lastError.clear(); if (m_zintSymbol) { ZBarcode_Reset(m_zintSymbol); } else if (!(m_zintSymbol = ZBarcode_Create())) { m_error = ZINT_ERROR_MEMORY; m_lastError = QSL("Insufficient memory for Zint structure"); return false; } m_zintSymbol->symbology = m_symbol; m_zintSymbol->height = m_height; m_zintSymbol->scale = m_scale; m_zintSymbol->whitespace_width = m_whitespace; m_zintSymbol->whitespace_height = m_vwhitespace; m_zintSymbol->border_width = m_borderWidth; m_zintSymbol->output_options = m_borderType | m_fontSetting; if (m_dotty) { m_zintSymbol->output_options |= BARCODE_DOTTY_MODE; } if (m_cmyk) { m_zintSymbol->output_options |= CMYK_COLOUR; } if (m_gssep) { m_zintSymbol->output_options |= GS1_GS_SEPARATOR; } if (m_quiet_zones) { m_zintSymbol->output_options |= BARCODE_QUIET_ZONES; } if (m_no_quiet_zones) { m_zintSymbol->output_options |= BARCODE_NO_QUIET_ZONES; } if (m_compliant_height) { m_zintSymbol->output_options |= COMPLIANT_HEIGHT; } if (m_reader_init) { m_zintSymbol->output_options |= READER_INIT; } if (m_guard_whitespace) { m_zintSymbol->output_options |= EANUPC_GUARD_WHITESPACE; } if (m_embed_vector_font) { m_zintSymbol->output_options |= EMBED_VECTOR_FONT; } strcpy(m_zintSymbol->fgcolour, m_fgStr.toLatin1().left(15)); strcpy(m_zintSymbol->bgcolour, m_bgStr.toLatin1().left(15)); strcpy(m_zintSymbol->primary, m_primaryMessage.toLatin1().left(127)); m_zintSymbol->option_1 = m_option_1; m_zintSymbol->option_2 = m_option_2; m_zintSymbol->option_3 = m_option_3; m_zintSymbol->show_hrt = m_show_hrt ? 1 : 0; m_zintSymbol->input_mode = m_input_mode; if (m_gs1parens) { m_zintSymbol->input_mode |= GS1PARENS_MODE; } if (m_gs1nocheck) { m_zintSymbol->input_mode |= GS1NOCHECK_MODE; } m_zintSymbol->eci = m_eci; m_zintSymbol->dpmm = m_dpmm; m_zintSymbol->dot_size = m_dot_size; m_zintSymbol->guard_descent = m_guardDescent; m_zintSymbol->text_gap = m_textGap; m_zintSymbol->structapp = m_structapp; m_zintSymbol->warn_level = m_warn_level; m_zintSymbol->debug = m_debug ? ZINT_DEBUG_PRINT : 0; return true; } void QZint::encode() { if (resetSymbol()) { if (m_segs.empty()) { QByteArray bstr = m_text.toUtf8(); /* Note do our own rotation */ m_error = ZBarcode_Encode_and_Buffer_Vector(m_zintSymbol, (unsigned char *) bstr.data(), bstr.length(), 0); } else { struct zint_seg segs[maxSegs]; std::vector bstrs; int seg_count = convertSegs(segs, bstrs); /* Note do our own rotation */ m_error = ZBarcode_Encode_Segs_and_Buffer_Vector(m_zintSymbol, segs, seg_count, 0); } m_lastError = m_zintSymbol->errtxt; } if (m_error < ZINT_ERROR) { m_borderType = m_zintSymbol->output_options & (BARCODE_BIND | BARCODE_BOX | BARCODE_BIND_TOP); m_height = m_zintSymbol->height; m_borderWidth = m_zintSymbol->border_width; m_whitespace = m_zintSymbol->whitespace_width; m_vwhitespace = m_zintSymbol->whitespace_height; m_encodedWidth = m_zintSymbol->width; m_encodedRows = m_zintSymbol->rows; m_encodedHeight = m_zintSymbol->height; m_vectorWidth = m_zintSymbol->vector->width; m_vectorHeight = m_zintSymbol->vector->height; emit encoded(); } else { m_encodedWidth = m_encodedRows = 0; m_encodedHeight = m_vectorWidth = m_vectorHeight = 0.0f; emit errored(); } } /* Symbology to use (see BARCODE_XXX) */ int QZint::symbol() const { return m_symbol; } void QZint::setSymbol(int symbol) { m_symbol = symbol; } /* Input data encoding. Default UNICODE_MODE */ int QZint::inputMode() const { return m_input_mode; } void QZint::setInputMode(int input_mode) { m_input_mode = input_mode; } /* Input data (segment 0 text) */ QString QZint::text() const { return m_text; } /* Set input data. Note: clears segs */ void QZint::setText(const QString& text) { m_text = text; m_segs.clear(); } /* Input segments. */ std::vector QZint::segs() const { return m_segs; } /* Set segments. Note: clears text and sets eci */ void QZint::setSegs(const std::vector& segs) { m_segs = segs; m_text.clear(); if (m_segs.size()) { /* Make sure `symbol->eci` synced */ m_eci = m_segs[0].m_eci; } } /* Primary message (Maxicode, Composite) */ QString QZint::primaryMessage() const { return m_primaryMessage; } void QZint::setPrimaryMessage(const QString& primaryMessage) { m_primaryMessage = primaryMessage; } /* Symbol height in X-dimensions */ float QZint::height() const { return m_height; } void QZint::setHeight(float height) { m_height = height; } /* Symbol-specific options (see "../docs/manual.txt") */ int QZint::option1() const { return m_option_1; } void QZint::setOption1(int option_1) { m_option_1 = option_1; } /* Symbol-specific options */ int QZint::option2() const { return m_option_2; } void QZint::setOption2(int option) { m_option_2 = option; } int QZint::option3() const { return m_option_3; } void QZint::setOption3(int option) { m_option_3 = option; } /* Scale factor when printing barcode, i.e. adjusts X-dimension */ float QZint::scale() const { return m_scale; } void QZint::setScale(float scale) { m_scale = scale; } /* Resolution of output in dots per mm (BMP/EMF/PCX/PNG/TIF only) */ float QZint::dpmm() const { return m_dpmm; } void QZint::setDPMM(float dpmm) { m_dpmm = dpmm; } /* Dotty mode */ bool QZint::dotty() const { return m_dotty; } void QZint::setDotty(bool dotty) { m_dotty = dotty; } /* Size of dots used in BARCODE_DOTTY_MODE */ float QZint::dotSize() const { return m_dot_size; } void QZint::setDotSize(float dotSize) { m_dot_size = dotSize; } /* Height in X-dimensions that EAN/UPC guard bars descend */ float QZint::guardDescent() const { return m_guardDescent; } void QZint::setGuardDescent(float guardDescent) { m_guardDescent = guardDescent; } /* Structured Append info */ int QZint::structAppCount() const { return m_structapp.count; } int QZint::structAppIndex() const { return m_structapp.index; } QString QZint::structAppID() const { return m_structapp.id; } void QZint::setStructApp(const int count, const int index, const QString& id) { if (count) { m_structapp.count = count; m_structapp.index = index; memset(m_structapp.id, 0, sizeof(m_structapp.id)); if (!id.isEmpty()) { QByteArray idArr = id.toLatin1(); #if defined(__GNUC__) && __GNUC__ >= 8 && !defined(__clang__) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wstringop-truncation" #endif strncpy(m_structapp.id, idArr, sizeof(m_structapp.id)); #if defined(__GNUC__) && !defined(__clang__) #pragma GCC diagnostic pop #endif } } else { clearStructApp(); } } void QZint::clearStructApp() { memset(&m_structapp, 0, sizeof(m_structapp)); } /* Foreground colour (may be RGB(A) hex string or CMYK decimal "C,M,Y,K" percentage string) */ QString QZint::fgStr() const { return m_fgStr; } bool QZint::setFgStr(const QString& fgStr) { if (fgStr.indexOf(*colorRE) == 0) { m_fgStr = fgStr; return true; } return false; } /* Foreground colour as QColor */ QColor QZint::fgColor() const { return str_to_qcolor(m_fgStr); } void QZint::setFgColor(const QColor& fgColor) { m_fgStr = qcolor_to_str(fgColor); } /* Background colour (may be RGB(A) hex string or CMYK decimal "C,M,Y,K" percentage string) */ QString QZint::bgStr() const { return m_bgStr; } bool QZint::setBgStr(const QString& bgStr) { if (bgStr.indexOf(*colorRE) == 0) { m_bgStr = bgStr; return true; } return false; } /* Background colour as QColor */ QColor QZint::bgColor() const { return str_to_qcolor(m_bgStr); } void QZint::setBgColor(const QColor& bgColor) { m_bgStr = qcolor_to_str(bgColor); } /* Use CMYK colour space (Encapsulated PostScript and TIF) */ bool QZint::cmyk() const { return m_cmyk; } void QZint::setCMYK(bool cmyk) { m_cmyk = cmyk; } /* Type of border above/below/around barcode */ int QZint::borderType() const { return m_borderType; } void QZint::setBorderType(int borderTypeIndex) { if (borderTypeIndex == 1) { m_borderType = BARCODE_BIND; } else if (borderTypeIndex == 2) { m_borderType = BARCODE_BOX; } else if (borderTypeIndex == 3) { m_borderType = BARCODE_BIND_TOP; } else { m_borderType = 0; } } /* Size of border in X-dimensions */ int QZint::borderWidth() const { return m_borderWidth; } void QZint::setBorderWidth(int borderWidth) { if (borderWidth < 0 || borderWidth > 16) borderWidth = 0; m_borderWidth = borderWidth; } /* Width in X-dimensions of whitespace to left & right of barcode */ int QZint::whitespace() const { return m_whitespace; } void QZint::setWhitespace(int whitespace) { m_whitespace = whitespace; } /* Height in X-dimensions of whitespace above & below the barcode */ int QZint::vWhitespace() const { return m_vwhitespace; } void QZint::setVWhitespace(int vWhitespace) { m_vwhitespace = vWhitespace; } /* Type of font to use i.e. normal, small, bold or (vector only) small bold */ int QZint::fontSetting() const { return m_fontSetting; } void QZint::setFontSetting(int fontSettingIndex) { // Sets from comboBox index if (fontSettingIndex == 1) { m_fontSetting = BOLD_TEXT; } else if (fontSettingIndex == 2) { m_fontSetting = SMALL_TEXT; } else if (fontSettingIndex == 3) { m_fontSetting = SMALL_TEXT | BOLD_TEXT; } else { m_fontSetting = 0; } } void QZint::setFontSettingValue(int fontSetting) { // Sets literal value if ((fontSetting & (BOLD_TEXT | SMALL_TEXT)) == fontSetting) { m_fontSetting = fontSetting; } else { m_fontSetting = 0; } } /* Text gap */ float QZint::textGap() const { return m_textGap; } void QZint::setTextGap(float textGap) { m_textGap = textGap; } /* Show (true) or hide (false) Human Readable Text (HRT) */ bool QZint::showText() const { return m_show_hrt; } void QZint::setShowText(bool showText) { m_show_hrt = showText; } /* Set to true to use GS (Group Separator) instead of FNC1 as GS1 separator (Data Matrix) */ bool QZint::gsSep() const { return m_gssep; } void QZint::setGSSep(bool gsSep) { m_gssep = gsSep; } /* Add compliant quiet zones (additional to any specified whitespace) Note: CODE16K, CODE49, CODABLOCKF, ITF14, EAN/UPC have default quiet zones */ bool QZint::quietZones() const { return m_quiet_zones; } void QZint::setQuietZones(bool quietZones) { m_quiet_zones = quietZones; } /* Disable quiet zones, notably those with defaults as listed above */ bool QZint::noQuietZones() const { return m_no_quiet_zones; } void QZint::setNoQuietZones(bool noQuietZones) { m_no_quiet_zones = noQuietZones; } /* Warn if height not compliant and use standard height (if any) as default */ bool QZint::compliantHeight() const { return m_compliant_height; } void QZint::setCompliantHeight(bool compliantHeight) { m_compliant_height = compliantHeight; } /* Rotate barcode by angle (degrees 0, 90, 180 and 270) */ int QZint::rotateAngle() const { return m_rotate_angle; } void QZint::setRotateAngle(int rotateIndex) { // Sets from comboBox index if (rotateIndex == 1) { m_rotate_angle = 90; } else if (rotateIndex == 2) { m_rotate_angle = 180; } else if (rotateIndex == 3) { m_rotate_angle = 270; } else { m_rotate_angle = 0; } } void QZint::setRotateAngleValue(int rotateAngle) { // Sets literal value if (rotateAngle == 90) { m_rotate_angle = 90; } else if (rotateAngle == 180) { m_rotate_angle = 180; } else if (rotateAngle == 270) { m_rotate_angle = 270; } else { m_rotate_angle = 0; } } /* Extended Channel Interpretation (segment 0 eci) */ int QZint::eci() const { return m_eci; } void QZint::setECI(int ECIIndex) { // Sets from comboBox index m_eci = ECIIndexToECI(ECIIndex); } void QZint::setECIValue(int eci) { // Sets literal value if (eci < 3 || (eci > 35 && eci != 170 && eci != 899) || eci == 14 || eci == 19) { m_eci = 0; } else { m_eci = eci; } } /* Process parentheses as GS1 AI delimiters (instead of square brackets) */ bool QZint::gs1Parens() const { return m_gs1parens; } void QZint::setGS1Parens(bool gs1Parens) { m_gs1parens = gs1Parens; } /* Do not check validity of GS1 data (except that printable ASCII only) */ bool QZint::gs1NoCheck() const { return m_gs1nocheck; } void QZint::setGS1NoCheck(bool gs1NoCheck) { m_gs1nocheck = gs1NoCheck; } /* Reader Initialisation (Programming) */ bool QZint::readerInit() const { return m_reader_init; } void QZint::setReaderInit(bool readerInit) { m_reader_init = readerInit; } /* Whether to add quiet zone indicators ("<", ">") to HRT (EAN/UPC) */ bool QZint::guardWhitespace() const { return m_guard_whitespace; } void QZint::setGuardWhitespace(bool guardWhitespace) { m_guard_whitespace = guardWhitespace; } /* Whether to embed the font in vector output - currently only for SVG output of EAN/UPC */ bool QZint::embedVectorFont() const { return m_embed_vector_font; } void QZint::setEmbedVectorFont(bool embedVectorFont) { m_embed_vector_font = embedVectorFont; } /* Affects error/warning value returned by Zint API (see `getError()` below) */ int QZint::warnLevel() const { return m_warn_level; } void QZint::setWarnLevel(int warnLevel) { m_warn_level = warnLevel; } /* Debugging flags */ bool QZint::debug() const { return m_debug; } void QZint::setDebug(bool debug) { m_debug = debug; } /* Symbol output info set by Zint on successful `render()` */ int QZint::encodedWidth() const { // Read-only, encoded width (no. of modules encoded) return m_encodedWidth; } int QZint::encodedRows() const { // Read-only, no. of rows encoded return m_encodedRows; } float QZint::encodedHeight() const { // Read-only, in X-dimensions if (m_symbol == BARCODE_MAXICODE) { // Maxicode encoded height is meaningless, so return fixed value return 33 * 0.866f; // √3 / 2 } return m_encodedHeight; } float QZint::vectorWidth() const { // Read-only, scaled width return m_vectorWidth; } float QZint::vectorHeight() const { // Read-only, scaled height return m_vectorHeight; } /* Legacy property getters/setters */ void QZint::setWidth(int width) { setOption2(width); } int QZint::width() const { return m_option_2; } void QZint::setSecurityLevel(int securityLevel) { setOption1(securityLevel); } int QZint::securityLevel() const { return m_option_1; } void QZint::setPdf417CodeWords(int /*pdf417CodeWords*/) {} int QZint::pdf417CodeWords() const { return 0; } void QZint::setHideText(bool hide) { setShowText(!hide); } void QZint::setTargetSize(int width, int height) { target_size_horiz = width; target_size_vert = height; } QString QZint::error_message() const { return m_lastError; } /* Same as lastError() */ /* Test capabilities - `ZBarcode_Cap()` */ bool QZint::hasHRT(int symbology) const { return ZBarcode_Cap(symbology ? symbology : m_symbol, ZINT_CAP_HRT); } bool QZint::isStackable(int symbology) const { return ZBarcode_Cap(symbology ? symbology : m_symbol, ZINT_CAP_STACKABLE); } bool QZint::isEANUPC(int symbology) const { return ZBarcode_Cap(symbology ? symbology : m_symbol, ZINT_CAP_EANUPC); } bool QZint::isExtendable(int symbology) const { /* Legacy - same as `isEANUPC()` */ return ZBarcode_Cap(symbology ? symbology : m_symbol, ZINT_CAP_EANUPC); } bool QZint::isComposite(int symbology) const { return ZBarcode_Cap(symbology ? symbology : m_symbol, ZINT_CAP_COMPOSITE); } bool QZint::supportsECI(int symbology) const { return ZBarcode_Cap(symbology ? symbology : m_symbol, ZINT_CAP_ECI); } bool QZint::supportsGS1(int symbology) const { return ZBarcode_Cap(symbology ? symbology : m_symbol, ZINT_CAP_GS1); } bool QZint::isDotty(int symbology) const { return ZBarcode_Cap(symbology ? symbology : m_symbol, ZINT_CAP_DOTTY); } bool QZint::hasDefaultQuietZones(int symbology) const { return ZBarcode_Cap(symbology ? symbology : m_symbol, ZINT_CAP_QUIET_ZONES); } bool QZint::isFixedRatio(int symbology) const { return ZBarcode_Cap(symbology ? symbology : m_symbol, ZINT_CAP_FIXED_RATIO); } bool QZint::supportsReaderInit(int symbology) const { return ZBarcode_Cap(symbology ? symbology : m_symbol, ZINT_CAP_READER_INIT); } bool QZint::supportsFullMultibyte(int symbology) const { return ZBarcode_Cap(symbology ? symbology : m_symbol, ZINT_CAP_FULL_MULTIBYTE); } bool QZint::hasMask(int symbology) const { return ZBarcode_Cap(symbology ? symbology : m_symbol, ZINT_CAP_MASK); } bool QZint::supportsStructApp(int symbology) const { return ZBarcode_Cap(symbology ? symbology : m_symbol, ZINT_CAP_STRUCTAPP); } bool QZint::hasCompliantHeight(int symbology) const { return ZBarcode_Cap(symbology ? symbology : m_symbol, ZINT_CAP_COMPLIANT_HEIGHT); } /* Whether takes GS1 AI-delimited data */ bool QZint::takesGS1AIData(int symbology) const { if (symbology == 0) { symbology = m_symbol; } switch (symbology) { case BARCODE_GS1_128: case BARCODE_DBAR_EXP: case BARCODE_DBAR_EXPSTK: return true; break; default: return symbology >= BARCODE_EANX_CC && symbology <= BARCODE_DBAR_EXPSTK_CC; break; } } /* Error or warning returned by Zint on `render()` or `save_to_file()` */ int QZint::getError() const { return m_error; } /* Error message returned by Zint on `render()` or `save_to_file()` */ const QString& QZint::lastError() const { return m_lastError; } /* Whether `lastError()` set */ bool QZint::hasErrors() const { return m_lastError.length(); } bool QZint::save_to_file(const QString& filename) { if (resetSymbol()) { strcpy(m_zintSymbol->outfile, filename.toUtf8().left(255)); if (m_segs.empty()) { QByteArray bstr = m_text.toUtf8(); m_error = ZBarcode_Encode_and_Print(m_zintSymbol, (unsigned char *) bstr.data(), bstr.length(), m_rotate_angle); } else { struct zint_seg segs[maxSegs]; std::vector bstrs; int seg_count = convertSegs(segs, bstrs); m_error = ZBarcode_Encode_Segs_and_Print(m_zintSymbol, segs, seg_count, m_rotate_angle); } } if (m_error >= ZINT_ERROR) { m_lastError = m_zintSymbol->errtxt; m_encodedWidth = m_encodedRows = 0; m_encodedHeight = m_vectorWidth = m_vectorHeight = 0.0f; emit errored(); return false; } return true; } /* Convert `zint_vector_rect->colour` to Qt color */ Qt::GlobalColor QZint::colourToQtColor(int colour) { switch (colour) { case 1: // Cyan return Qt::cyan; break; case 2: // Blue return Qt::blue; break; case 3: // Magenta return Qt::magenta; break; case 4: // Red return Qt::red; break; case 5: // Yellow return Qt::yellow; break; case 6: // Green return Qt::green; break; case 8: // White return Qt::white; break; default: return Qt::black; break; } } /* Helper to convert `m_segs` to `struct zint_seg[]` */ int QZint::convertSegs(struct zint_seg segs[], std::vector& bstrs) { bstrs.reserve(m_segs.size()); int i; for (i = 0; i < (int) m_segs.size() && i < maxSegs && !m_segs[i].m_text.isEmpty(); i++) { segs[i].eci = m_segs[i].m_eci; bstrs.push_back(m_segs[i].m_text.toUtf8()); segs[i].source = (unsigned char *) bstrs.back().data(); segs[i].length = bstrs.back().length(); } return i; } /* Encode and display barcode in `paintRect` using `painter`. Note: legacy argument `mode` is not used */ void QZint::render(QPainter& painter, const QRectF& paintRect, AspectRatioMode /*mode*/) { struct zint_vector_rect *rect; struct zint_vector_hexagon *hex; struct zint_vector_circle *circle; struct zint_vector_string *string; QColor fgColor = str_to_qcolor(m_fgStr); QColor bgColor = str_to_qcolor(m_bgStr); encode(); painter.save(); if (m_error >= ZINT_ERROR) { painter.setRenderHint(QPainter::Antialiasing); QFont font(fontFamilyError, fontSizeError); painter.setFont(font); painter.drawText(paintRect, Qt::AlignCenter | Qt::TextWordWrap, m_lastError); painter.restore(); return; } painter.setClipRect(paintRect, Qt::IntersectClip); qreal xtr = paintRect.x(); qreal ytr = paintRect.y(); qreal scale; qreal gwidth = m_zintSymbol->vector->width; qreal gheight = m_zintSymbol->vector->height; if (m_rotate_angle == 90 || m_rotate_angle == 270) { if (paintRect.width() / gheight < paintRect.height() / gwidth) { scale = paintRect.width() / gheight; } else { scale = paintRect.height() / gwidth; } } else { if (paintRect.width() / gwidth < paintRect.height() / gheight) { scale = paintRect.width() / gwidth; } else { scale = paintRect.height() / gheight; } } xtr += (qreal) (paintRect.width() - gwidth * scale) / 2.0; ytr += (qreal) (paintRect.height() - gheight * scale) / 2.0; if (m_rotate_angle) { painter.translate(paintRect.width() / 2.0, paintRect.height() / 2.0); // Need to rotate around centre painter.rotate(m_rotate_angle); painter.translate(-paintRect.width() / 2.0, -paintRect.height() / 2.0); // Undo } painter.translate(xtr, ytr); painter.scale(scale, scale); QBrush bgBrush(bgColor); if (bgColor.alpha() != 0) { painter.fillRect(QRectF(0, 0, gwidth, gheight), bgBrush); } // Plot rectangles rect = m_zintSymbol->vector->rectangles; if (rect) { int maxRight = -1, maxBottom = -1; // Used for fudging below getMaxRectsRightBottom(m_zintSymbol->vector, maxRight, maxBottom); QBrush brush(Qt::SolidPattern); while (rect) { if (rect->colour == -1) { brush.setColor(fgColor); } else { brush.setColor(colourToQtColor(rect->colour)); } // Allow for rounding errors on translation/scaling TODO: proper calc float fudgeW = rect->x + rect->width == maxRight ? 0.1f : 0.0f; float fudgeH = rect->y + rect->height == maxBottom ? 0.1f : 0.0f; painter.fillRect(QRectF(rect->x, rect->y, rect->width + fudgeW, rect->height + fudgeH), brush); rect = rect->next; } } // Plot hexagons hex = m_zintSymbol->vector->hexagons; if (hex) { painter.setRenderHint(QPainter::Antialiasing); QBrush fgBrush(fgColor); qreal previous_diameter = 0.0, radius = 0.0, half_radius = 0.0, half_sqrt3_radius = 0.0; while (hex) { if (previous_diameter != hex->diameter) { previous_diameter = hex->diameter; radius = 0.5 * previous_diameter; half_radius = 0.25 * previous_diameter; half_sqrt3_radius = 0.43301270189221932338 * previous_diameter; } QPainterPath pt; pt.moveTo(hex->x, hex->y + radius); pt.lineTo(hex->x + half_sqrt3_radius, hex->y + half_radius); pt.lineTo(hex->x + half_sqrt3_radius, hex->y - half_radius); pt.lineTo(hex->x, hex->y - radius); pt.lineTo(hex->x - half_sqrt3_radius, hex->y - half_radius); pt.lineTo(hex->x - half_sqrt3_radius, hex->y + half_radius); pt.lineTo(hex->x, hex->y + radius); painter.fillPath(pt, fgBrush); hex = hex->next; } } // Plot dots (circles) circle = m_zintSymbol->vector->circles; if (circle) { painter.setRenderHint(QPainter::Antialiasing); QPen p; QBrush fgBrush(fgColor); qreal previous_diameter = 0.0, radius = 0.0; while (circle) { if (previous_diameter != circle->diameter) { previous_diameter = circle->diameter; radius = 0.5 * previous_diameter; } if (circle->colour) { // Set means use background colour (legacy, no longer used) p.setColor(bgColor); p.setWidthF(circle->width); painter.setPen(p); painter.setBrush(circle->width ? Qt::NoBrush : bgBrush); } else { p.setColor(fgColor); p.setWidthF(circle->width); painter.setPen(p); painter.setBrush(circle->width ? Qt::NoBrush : fgBrush); } painter.drawEllipse(QPointF(circle->x, circle->y), radius, radius); circle = circle->next; } } // Plot text string = m_zintSymbol->vector->strings; if (string) { if (normalFontID == -2) { /* First time? */ loadNormalFont(); } if (upceanFontID == -2) { /* First time? */ loadUpceanFont(); } painter.setRenderHint(QPainter::Antialiasing); QPen p; p.setColor(fgColor); painter.setPen(p); bool bold = (m_zintSymbol->output_options & BOLD_TEXT) && !isEANUPC(); QFont font(isEANUPC() ? upceanFontFamily : normalFontFamily, -1 /*pointSize*/, bold ? QFont::Bold : -1); while (string) { font.setPixelSize(string->fsize); painter.setFont(font); QString content = QString::fromUtf8((const char *) string->text); /* string->y is baseline of font */ if (string->halign == 1) { /* Left align */ painter.drawText(QPointF(string->x, string->y), content); } else { QFontMetrics fm(painter.fontMetrics()); int width = fm.horizontalAdvance(content); if (string->halign == 2) { /* Right align */ painter.drawText(QPointF(string->x - width, string->y), content); } else { /* Centre align */ painter.drawText(QPointF(string->x - (width / 2.0), string->y), content); } } string = string->next; } } painter.restore(); } /* Returns the default X-dimension (`ZBarcode_Default_Xdim()`). If `symbology` non-zero then used instead of `symbol()` */ float QZint::defaultXdim(int symbology) const { return ZBarcode_Default_Xdim(symbology ? symbology : m_symbol); } /* Returns the scale to use for X-dimension `x_dim_mm` at `dpmm` for `filetype`. If `symbology` non-zero then used instead of `symbol()` */ float QZint::getScaleFromXdimDp(float x_dim_mm, float dpmm, const QString& fileType, int symbology) const { return ZBarcode_Scale_From_XdimDp(symbology ? symbology : m_symbol, x_dim_mm, dpmm, fileType.toLatin1()); } /* Reverse of `getScaleFromXdimDp()` above, returning the X-dimension or dot density given the scale `scale`. If `symbology` non-zero then used instead of `symbol()` */ float QZint::getXdimDpFromScale(float scale, float x_dim_mm_or_dpmm, const QString& fileType, int symbology) const { return ZBarcode_XdimDp_From_Scale(symbology ? symbology : m_symbol, scale, x_dim_mm_or_dpmm, fileType.toLatin1()); } /* Set `width_x_dim` and `height_x_dim` with estimated size of barcode based on X-dimension `x_dim`. To be called after a successful `render()`. Returns false if `scale()` zero or render is in error, otherwise true */ bool QZint::getWidthHeightXdim(float x_dim, float &width_x_dim, float &height_x_dim) const { if (m_scale == 0.0f || m_vectorWidth == 0.0f || m_vectorHeight == 0.0f) { width_x_dim = height_x_dim = 0.0f; return false; } const float scale = m_scale * 2.0f; const float width = m_vectorWidth / scale; const float height = m_vectorHeight / scale; if (rotateAngle() == 90 || rotateAngle() == 270) { // Sideways - swop width_x_dim = (height * x_dim); height_x_dim = (width * x_dim); } else { width_x_dim = (width * x_dim); height_x_dim = (height * x_dim); } return true; } /* Return the BARCODE_XXX name of `symbology` */ QString QZint::barcodeName(const int symbology) { char buf[32]; if (ZBarcode_BarcodeName(symbology, buf) == 0) { return QString(buf); } return QSEmpty; } /* Whether Zint library "libzint" built with PNG support or not */ bool QZint::noPng() { return ZBarcode_NoPng() == 1; } /* Version of Zint library "libzint" linked to */ int QZint::getVersion() { return ZBarcode_Version(); } /* Translate settings into Command Line equivalent. Set `win` to use Windows escaping of data. If `autoHeight` set then `--height=` option will not be emitted. If HEIGHTPERROW_MODE set and non-zero `heightPerRow` given then use that for height instead of internal height */ QString QZint::getAsCLI(const bool win, const bool longOptOnly, const bool barcodeNames, const bool noEXE, const bool autoHeight, const float heightPerRow, const QString& outfile, const QZintXdimDpVars *xdimdpVars) const { QString cmd(win && !noEXE ? QSL("zint.exe") : QSL("zint")); const bool nobackground = bgColor().alpha() == 0; const bool notext = hasHRT() && !showText(); char name_buf[32]; if (barcodeNames && ZBarcode_BarcodeName(m_symbol, name_buf) == 0) { QString name(name_buf + 8); // Strip "BARCODE_" prefix arg_str(cmd, longOptOnly ? "--barcode=" : "-b ", name); } else { arg_int(cmd, longOptOnly ? "--barcode=" : "-b ", m_symbol); } if (isEANUPC()) { arg_int(cmd, "--addongap=", option2()); } if (bgStr() != QSL("FFFFFF") && !nobackground) { arg_str(cmd, "--bg=", bgStr()); } bool default_bind = false, default_bind_top = false, default_box = false, default_border = false; if (m_symbol == BARCODE_ITF14) { if ((borderType() & BARCODE_BOX) && borderWidth() == 5) { default_box = default_border = true; } } else if (m_symbol == BARCODE_CODABLOCKF || m_symbol == BARCODE_HIBC_BLOCKF || m_symbol == BARCODE_CODE16K || m_symbol == BARCODE_CODE49) { if ((borderType() & BARCODE_BIND) && borderWidth() == 1) { default_bind = default_border = true; } } else if (m_symbol == BARCODE_DPD) { if ((borderType() & BARCODE_BIND_TOP) && borderWidth() == 3) { default_bind_top = default_border = true; } } arg_bool(cmd, "--binary", (inputMode() & 0x07) == DATA_MODE); if (!default_bind) { arg_bool(cmd, "--bind", borderType() & BARCODE_BIND); } if (!default_bind_top) { arg_bool(cmd, "--bindtop", borderType() & BARCODE_BIND_TOP); } arg_bool(cmd, "--bold", !notext && (fontSetting() & BOLD_TEXT) && !isEANUPC()); if (!default_border) { arg_int(cmd, "--border=", borderWidth()); } if (!default_box) { arg_bool(cmd, "--box", borderType() & BARCODE_BOX); } arg_bool(cmd, "--cmyk", cmyk()); if (m_symbol == BARCODE_DBAR_EXPSTK || m_symbol == BARCODE_DBAR_EXPSTK_CC || m_symbol == BARCODE_PDF417 || m_symbol == BARCODE_PDF417COMP || m_symbol == BARCODE_HIBC_PDF || m_symbol == BARCODE_MICROPDF417 || m_symbol == BARCODE_HIBC_MICPDF || m_symbol == BARCODE_DOTCODE || m_symbol == BARCODE_CODABLOCKF || m_symbol == BARCODE_HIBC_BLOCKF) { arg_int(cmd, "--cols=", option2()); } arg_bool(cmd, "--compliantheight", hasCompliantHeight() && compliantHeight()); if (m_segs.empty()) { if (supportsECI()) { arg_int(cmd, "--eci=", eci()); } arg_data(cmd, longOptOnly ? "--data=" : "-d ", m_text, win); } else { arg_int(cmd, "--eci=", m_segs.front().m_eci); arg_data(cmd, longOptOnly ? "--data=" : "-d ", m_segs.front().m_text, win); for (int i = 1; i < (int) m_segs.size() && i < maxCLISegs && !m_segs[i].m_text.isEmpty(); i++) { arg_seg(cmd, i, m_segs[i], win); } } if (m_symbol == BARCODE_DATAMATRIX || m_symbol == BARCODE_HIBC_DM) { arg_bool(cmd, "--dmiso144", (option3() & DM_ISO_144) == DM_ISO_144); arg_bool(cmd, "--dmre", (option3() & 0x7F) == DM_DMRE); } if ((m_symbol == BARCODE_DOTCODE || (isDotty() && dotty())) && dotSize() != 0.8f) { arg_float(cmd, "--dotsize=", dotSize()); } if (m_symbol != BARCODE_DOTCODE && isDotty() && dotty()) { arg_bool(cmd, "--dotty", dotty()); } if (showText()) { arg_bool(cmd, "--embedfont", embedVectorFont()); } arg_bool(cmd, "--esc", inputMode() & ESCAPE_MODE); arg_bool(cmd, "--extraesc", inputMode() & EXTRA_ESCAPE_MODE); arg_bool(cmd, "--fast", inputMode() & FAST_MODE); if (fgStr() != QSL("000000") && fgStr() != QSL("000000FF")) { arg_str(cmd, "--fg=", fgStr()); } arg_bool(cmd, "--fullmultibyte", supportsFullMultibyte() && (option3() & 0xFF) == ZINT_FULL_MULTIBYTE); if (supportsGS1()) { arg_bool(cmd, "--gs1", (inputMode() & 0x07) == GS1_MODE); arg_bool(cmd, "--gs1parens", gs1Parens() || (inputMode() & GS1PARENS_MODE)); arg_bool(cmd, "--gs1nocheck", gs1NoCheck() || (inputMode() & GS1NOCHECK_MODE)); arg_bool(cmd, "--gssep", gsSep()); } if (isEANUPC() && guardDescent() != 5.0f) { arg_float(cmd, "--guarddescent=", guardDescent(), true /*allowZero*/); } if (isEANUPC() && showText()) { arg_bool(cmd, "--guardwhitespace", guardWhitespace()); } if (!autoHeight && !isFixedRatio()) { if (inputMode() & HEIGHTPERROW_MODE) { arg_float(cmd, "--height=", heightPerRow ? heightPerRow : height()); arg_bool(cmd, "--heightperrow", true); } else { arg_float(cmd, "--height=", height()); } } arg_bool(cmd, "--init", supportsReaderInit() && readerInit()); if (hasMask()) { arg_int(cmd, "--mask=", (option3() >> 8) - 1, true /*allowZero*/); } if (m_symbol == BARCODE_MAXICODE || isComposite()) { arg_int(cmd, "--mode=", option1()); } arg_bool(cmd, "--nobackground", nobackground); arg_bool(cmd, "--noquietzones", hasDefaultQuietZones() && noQuietZones()); arg_bool(cmd, "--notext", notext); arg_data(cmd, longOptOnly ? "--output=" : "-o ", outfile, win); if (m_symbol == BARCODE_MAXICODE || isComposite()) { arg_data(cmd, "--primary=", primaryMessage(), win); } arg_bool(cmd, "--quietzones", !hasDefaultQuietZones() && quietZones()); arg_int(cmd, "--rotate=", rotateAngle()); if (m_symbol == BARCODE_CODE16K || m_symbol == BARCODE_CODABLOCKF || m_symbol == BARCODE_HIBC_BLOCKF || m_symbol == BARCODE_CODE49) { arg_int(cmd, "--rows=", option1()); } else if (m_symbol == BARCODE_DBAR_EXPSTK || m_symbol == BARCODE_DBAR_EXPSTK_CC || m_symbol == BARCODE_PDF417 || m_symbol == BARCODE_PDF417COMP || m_symbol == BARCODE_HIBC_PDF) { arg_int(cmd, "--rows=", option3()); } if (dpmm()) { arg_scalexdimdp(cmd, "--scalexdimdp", scale(), dpmm(), symbol(), xdimdpVars); } else if (scale() != 1.0f) { arg_float(cmd, "--scale=", scale()); } if (m_symbol == BARCODE_MAXICODE) { arg_int(cmd, "--scmvv=", option2() - 1, true /*allowZero*/); } if (m_symbol == BARCODE_PDF417 || m_symbol == BARCODE_PDF417COMP || m_symbol == BARCODE_HIBC_PDF || m_symbol == BARCODE_AZTEC || m_symbol == BARCODE_HIBC_AZTEC || m_symbol == BARCODE_QRCODE || m_symbol == BARCODE_HIBC_QR || m_symbol == BARCODE_MICROQR || m_symbol == BARCODE_RMQR || m_symbol == BARCODE_GRIDMATRIX || m_symbol == BARCODE_HANXIN || m_symbol == BARCODE_ULTRA) { arg_int(cmd, "--secure=", option1()); } if (m_symbol == BARCODE_CODE16K || m_symbol == BARCODE_CODABLOCKF || m_symbol == BARCODE_HIBC_BLOCKF || m_symbol == BARCODE_CODE49) { arg_int(cmd, "--separator=", option3()); } arg_bool(cmd, "--small", !notext && (fontSetting() & SMALL_TEXT)); if (m_symbol == BARCODE_DATAMATRIX || m_symbol == BARCODE_HIBC_DM) { arg_bool(cmd, "--square", (option3() & 0x7F) == DM_SQUARE); } if (supportsStructApp()) { arg_structapp(cmd, "--structapp=", structAppCount(), structAppIndex(), structAppID(), win); } if (!notext && textGap() != 1.0f) { arg_float(cmd, "--textgap=", textGap(), true /*allowZero*/); } arg_bool(cmd, "--verbose", debug()); if (m_symbol == BARCODE_AZTEC || m_symbol == BARCODE_HIBC_AZTEC || m_symbol == BARCODE_MSI_PLESSEY || m_symbol == BARCODE_CODE11 || m_symbol == BARCODE_C25STANDARD || m_symbol == BARCODE_C25INTER || m_symbol == BARCODE_C25IATA || m_symbol == BARCODE_C25LOGIC || m_symbol == BARCODE_C25IND || m_symbol == BARCODE_CODE39 || m_symbol == BARCODE_HIBC_39 || m_symbol == BARCODE_EXCODE39 || m_symbol == BARCODE_LOGMARS || m_symbol == BARCODE_CODABAR || m_symbol == BARCODE_DATAMATRIX || m_symbol == BARCODE_HIBC_DM || m_symbol == BARCODE_QRCODE || m_symbol == BARCODE_HIBC_QR || m_symbol == BARCODE_MICROQR || m_symbol == BARCODE_RMQR || m_symbol == BARCODE_GRIDMATRIX || m_symbol == BARCODE_HANXIN || m_symbol == BARCODE_CHANNEL || m_symbol == BARCODE_CODEONE || m_symbol == BARCODE_CODE93 || m_symbol == BARCODE_ULTRA || m_symbol == BARCODE_VIN) { arg_int(cmd, "--vers=", option2()); } else if (m_symbol == BARCODE_DAFT && option2() != 250) { arg_int(cmd, "--vers=", option2()); } arg_int(cmd, "--vwhitesp=", vWhitespace()); arg_int(cmd, longOptOnly ? "--whitesp=" : "-w ", whitespace()); arg_bool(cmd, "--werror", warnLevel() == WARN_FAIL_ALL); return cmd; } /* `getAsCLI()` helpers */ void QZint::arg_str(QString& cmd, const char *const opt, const QString& val) { if (!val.isEmpty()) { QByteArray bstr = val.toUtf8(); cmd += QString::asprintf(" %s%.*s", opt, (int) bstr.length(), bstr.data()); } } void QZint::arg_int(QString& cmd, const char *const opt, const int val, const bool allowZero) { if (val > 0 || (val == 0 && allowZero)) { cmd += QString::asprintf(" %s%d", opt, val); } } void QZint::arg_bool(QString& cmd, const char *const opt, const bool val) { if (val) { cmd += QString::asprintf(" %s", opt); } } void QZint::arg_data(QString& cmd, const char *const opt, const QString& val, const bool win) { if (!val.isEmpty()) { QString text(val); arg_data_esc(cmd, opt, text, win); } } void QZint::arg_seg(QString& cmd, const int seg_no, const QZintSeg& val, const bool win) { QString text(val.m_text); QString opt = QString::asprintf("--seg%d=%d,", seg_no, val.m_eci); arg_data_esc(cmd, opt.toUtf8(), text, win); } void QZint::arg_data_esc(QString& cmd, const char *const opt, QString& text, const bool win) { const char delim = win ? '"' : '\''; if (win) { // Difficult (impossible?) to fully escape strings on Windows, e.g. "blah%PATH%" will substitute // env var PATH, so just doing basic escaping here text.replace("\\\\", "\\\\\\\\"); // Double-up backslashed backslash `\\` -> `\\\\` text.replace("\"", "\\\""); // Backslash quote `"` -> `\"` QByteArray bstr = text.toUtf8(); cmd += QString::asprintf(" %s%c%.*s%c", opt, delim, (int) bstr.length(), bstr.data(), delim); } else { text.replace("'", "'\\''"); // Single quote `'` -> `'\''` QByteArray bstr = text.toUtf8(); cmd += QString::asprintf(" %s%c%.*s%c", opt, delim, (int) bstr.length(), bstr.data(), delim); } } void QZint::arg_float(QString& cmd, const char *const opt, const float val, const bool allowZero) { if (val > 0 || (val == 0 && allowZero)) { cmd += QString::asprintf(" %s%g", opt, val); } } void QZint::arg_structapp(QString& cmd, const char *const opt, const int count, const int index, const QString& id, const bool win) { if (count >= 2 && index >= 1) { if (id.isEmpty()) { cmd += QString::asprintf(" %s%d,%d", opt, index, count); } else { QByteArray bstr = id.toUtf8(); arg_data(cmd, opt, QString::asprintf("%d,%d,%.*s", index, count, (int) bstr.length(), bstr.data()), win); } } } void QZint::arg_scalexdimdp(QString& cmd, const char *const opt, const float scale, const float dpmm, const int symbol, const QZintXdimDpVars *xdimdpVars) { if (dpmm) { float resolution = dpmm; float x_dim; const char *x_dim_units_str = ""; const char *resolution_units_str = ""; if (xdimdpVars && xdimdpVars->set) { x_dim = xdimdpVars->x_dim; resolution = xdimdpVars->resolution; if (xdimdpVars->x_dim_units || xdimdpVars->resolution_units) { x_dim_units_str = xdimdpVars->x_dim_units ? "in" : "mm"; resolution_units_str = xdimdpVars->resolution_units ? "dpi" : "dpmm"; } } else { x_dim = ZBarcode_XdimDp_From_Scale(symbol, scale, resolution, nullptr); } cmd += QString::asprintf(" %s=%g%s,%g%s", opt, x_dim, x_dim_units_str, resolution, resolution_units_str); } } /* Helper to return "GIF"/"SVG"(/"EMF") if `msg` false, "raster"/"vector"(/"EMF") otherwise (EMF only if `symbol` is MaxiCode) */ const char *QZintXdimDpVars::getFileType(int symbol, const struct QZintXdimDpVars *vars, bool msg) { static const char *filetypes[3] = { "GIF", "SVG", "EMF" }; static const char *msg_types[3] = { "raster", "vector", "EMF" }; if (!vars) return ""; const int idx = std::max(std::min(symbol == BARCODE_MAXICODE ? vars->filetype_maxicode : vars->filetype, 2), 0); return msg ? msg_types[idx] : filetypes[idx]; } } /* namespace Zint */ /* vim: set ts=4 sw=4 et : */