/* vector.c - Creates vector image objects
libzint - the open source barcode library
Copyright (C) 2018 - 2021 Robin Stuart <rstuart114@gmail.com>
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
1. Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
3. Neither the name of the project nor the names of its contributors
may be used to endorse or promote products derived from this software
without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
SUCH DAMAGE.
*/
/* vim: set ts=4 sw=4 et : */
#ifdef _MSC_VER
#include <malloc.h>
#endif
#include "common.h"
#include "output.h"
#include "zfiletypes.h"
INTERNAL int ps_plot(struct zint_symbol *symbol);
INTERNAL int svg_plot(struct zint_symbol *symbol);
INTERNAL int emf_plot(struct zint_symbol *symbol, int rotate_angle);
static struct zint_vector_rect *vector_plot_create_rect(struct zint_symbol *symbol,
const float x, const float y, const float width, const float height) {
struct zint_vector_rect *rect;
rect = (struct zint_vector_rect *) malloc(sizeof(struct zint_vector_rect));
if (!rect) {
strcpy(symbol->errtxt, "691: Insufficient memory for vector rectangle");
return NULL;
}
rect->next = NULL;
rect->x = x;
rect->y = y;
rect->width = width;
rect->height = height;
rect->colour = -1; // Default colour
return rect;
}
static void vector_plot_add_rect(struct zint_symbol *symbol, struct zint_vector_rect *rect,
struct zint_vector_rect **last_rect) {
if (*last_rect)
(*last_rect)->next = rect;
else
symbol->vector->rectangles = rect; // first rectangle
*last_rect = rect;
}
static struct zint_vector_hexagon *vector_plot_create_hexagon(struct zint_symbol *symbol,
const float x, const float y, const float diameter) {
struct zint_vector_hexagon *hexagon;
hexagon = (struct zint_vector_hexagon *) malloc(sizeof(struct zint_vector_hexagon));
if (!hexagon) {
strcpy(symbol->errtxt, "692: Insufficient memory for vector hexagon");
return NULL;
}
hexagon->next = NULL;
hexagon->x = x;
hexagon->y = y;
hexagon->diameter = diameter;
hexagon->rotation = 0;
return hexagon;
}
static void vector_plot_add_hexagon(struct zint_symbol *symbol, struct zint_vector_hexagon *hexagon,
struct zint_vector_hexagon **last_hexagon) {
if (*last_hexagon)
(*last_hexagon)->next = hexagon;
else
symbol->vector->hexagons = hexagon; // first hexagon
*last_hexagon = hexagon;
}
static struct zint_vector_circle *vector_plot_create_circle(struct zint_symbol *symbol,
const float x, const float y, const float diameter, const float width,
const int colour) {
struct zint_vector_circle *circle;
circle = (struct zint_vector_circle *) malloc(sizeof(struct zint_vector_circle));
if (!circle) {
strcpy(symbol->errtxt, "693: Insufficient memory for vector circle");
return NULL;
}
circle->next = NULL;
circle->x = x;
circle->y = y;
circle->diameter = diameter;
circle->width = width;
circle->colour = colour;
return circle;
}
static void vector_plot_add_circle(struct zint_symbol *symbol, struct zint_vector_circle *circle,
struct zint_vector_circle **last_circle) {
if (*last_circle)
(*last_circle)->next = circle;
else
symbol->vector->circles = circle; // first circle
*last_circle = circle;
}
static int vector_plot_add_string(struct zint_symbol *symbol, const unsigned char *text,
const float x, const float y, const float fsize, const float width, const int halign,
struct zint_vector_string **last_string) {
struct zint_vector_string *string;
string = (struct zint_vector_string *) malloc(sizeof(struct zint_vector_string));
if (!string) {
strcpy(symbol->errtxt, "694: Insufficient memory for vector string");
return 0;
}
string->next = NULL;
string->x = x;
string->y = y;
string->width = width;
string->fsize = fsize;
string->length = (int) ustrlen(text);
string->rotation = 0;
string->halign = halign;
string->text = (unsigned char *) malloc(string->length + 1);
if (!string->text) {
free(string);
strcpy(symbol->errtxt, "695: Insufficient memory for vector string text");
return 0;
}
ustrcpy(string->text, text);
if (*last_string)
(*last_string)->next = string;
else
symbol->vector->strings = string; // First text portion
*last_string = string;
return 1;
}
INTERNAL void vector_free(struct zint_symbol *symbol) {
if (symbol->vector != NULL) {
struct zint_vector_rect *rect;
struct zint_vector_hexagon *hex;
struct zint_vector_circle *circle;
struct zint_vector_string *string;
// Free Rectangles
rect = symbol->vector->rectangles;
while (rect) {
struct zint_vector_rect *r = rect;
rect = rect->next;
free(r);
}
// Free Hexagons
hex = symbol->vector->hexagons;
while (hex) {
struct zint_vector_hexagon *h = hex;
hex = hex->next;
free(h);
}
// Free Circles
circle = symbol->vector->circles;
while (circle) {
struct zint_vector_circle *c = circle;
circle = circle->next;
free(c);
}
// Free Strings
string = symbol->vector->strings;
while (string) {
struct zint_vector_string *s = string;
string = string->next;
free(s->text);
free(s);
}
// Free vector
free(symbol->vector);
symbol->vector = NULL;
}
}
static void vector_scale(struct zint_symbol *symbol, const int file_type) {
struct zint_vector_rect *rect;
struct zint_vector_hexagon *hex;
struct zint_vector_circle *circle;
struct zint_vector_string *string;
float scale = symbol->scale * 2.0f;
if (scale < 0.2f) { // Minimum vector scale 0.1
scale = 0.2f;
}
if ((file_type == OUT_EMF_FILE) && (symbol->symbology == BARCODE_MAXICODE)) {
// Increase size to overcome limitations in EMF file format
scale *= 20;
}
symbol->vector->width = stripf(symbol->vector->width * scale);
symbol->vector->height = stripf(symbol->vector->height * scale);
rect = symbol->vector->rectangles;
while (rect) {
rect->x = stripf(rect->x * scale);
rect->y = stripf(rect->y * scale);
rect->height = stripf(rect->height * scale);
rect->width = stripf(rect->width * scale);
rect = rect->next;
}
hex = symbol->vector->hexagons;
while (hex) {
hex->x = stripf(hex->x * scale);
hex->y = stripf(hex->y * scale);
hex->diameter = stripf(hex->diameter * scale);
hex = hex->next;
}
circle = symbol->vector->circles;
while (circle) {
circle->x = stripf(circle->x * scale);
circle->y = stripf(circle->y * scale);
circle->diameter = stripf(circle->diameter * scale);
circle->width = stripf(circle->width * scale);
circle = circle->next;
}
string = symbol->vector->strings;
while (string) {
string->x = stripf(string->x * scale);
string->y = stripf(string->y * scale);
string->width = stripf(string->width * scale);
string->fsize = stripf(string->fsize * scale);
string = string->next;
}
}
static void vector_rotate(struct zint_symbol *symbol, const int rotate_angle) {
// Rotates the image
struct zint_vector_rect *rect;
struct zint_vector_hexagon *hex;
struct zint_vector_circle *circle;
struct zint_vector_string *string;
float temp;
if (rotate_angle == 0) {
// No rotation needed
return;
}
rect = symbol->vector->rectangles;
while (rect) {
if (rotate_angle == 90) {
temp = rect->x;
rect->x = stripf(symbol->vector->height - (rect->y + rect->height));
rect->y = temp;
temp = rect->width;
rect->width = rect->height;
rect->height = temp;
} else if (rotate_angle == 180) {
rect->x = stripf(symbol->vector->width - (rect->x + rect->width));
rect->y = stripf(symbol->vector->height - (rect->y + rect->height));
} else if (rotate_angle == 270) {
temp = rect->x;
rect->x = rect->y;
rect->y = stripf(symbol->vector->width - (temp + rect->width));
temp = rect->width;
rect->width = rect->height;
rect->height = temp;
}
rect = rect->next;
}
hex = symbol->vector->hexagons;
while (hex) {
if (rotate_angle == 90) {
temp = hex->x;
hex->x = stripf(symbol->vector->height - hex->y);
hex->y = temp;
hex->rotation = 90;
} else if (rotate_angle == 180) {
hex->x = stripf(symbol->vector->width - hex->x);
hex->y = stripf(symbol->vector->height - hex->y);
hex->rotation = 180;
} else if (rotate_angle == 270) {
temp = hex->x;
hex->x = hex->y;
hex->y = stripf(symbol->vector->width - temp);
hex->rotation = 270;
}
hex = hex->next;
}
circle = symbol->vector->circles;
while (circle) {
if (rotate_angle == 90) {
temp = circle->x;
circle->x = stripf(symbol->vector->height - circle->y);
circle->y = temp;
} else if (rotate_angle == 180) {
circle->x = stripf(symbol->vector->width - circle->x);
circle->y = stripf(symbol->vector->height - circle->y);
} else if (rotate_angle == 270) {
temp = circle->x;
circle->x = circle->y;
circle->y = stripf(symbol->vector->width - temp);
}
circle = circle->next;
}
string = symbol->vector->strings;
while (string) {
if (rotate_angle == 90) {
temp = string->x;
string->x = stripf(symbol->vector->height - string->y);
string->y = temp;
string->rotation = 90;
} else if (rotate_angle == 180) {
string->x = stripf(symbol->vector->width - string->x);
string->y = stripf(symbol->vector->height - string->y);
string->rotation = 180;
} else if (rotate_angle == 270) {
temp = string->x;
string->x = string->y;
string->y = stripf(symbol->vector->width - temp);
string->rotation = 270;
}
string = string->next;
}
if ((rotate_angle == 90) || (rotate_angle == 270)) {
temp = symbol->vector->height;
symbol->vector->height = symbol->vector->width;
symbol->vector->width = temp;
}
}
static void vector_reduce_rectangles(struct zint_symbol *symbol) {
// Looks for vertically aligned rectangles and merges them together
struct zint_vector_rect *rect, *target, *prev;
rect = symbol->vector->rectangles;
while (rect) {
prev = rect;
target = prev->next;
while (target) {
if ((rect->x == target->x) && (rect->width == target->width)
&& (stripf(rect->y + rect->height) == target->y) && (rect->colour == target->colour)) {
rect->height += target->height;
prev->next = target->next;
free(target);
} else {
prev = target;
}
target = prev->next;
}
rect = rect->next;
}
}
INTERNAL int plot_vector(struct zint_symbol *symbol, int rotate_angle, int file_type) {
int error_number;
float large_bar_height;
int main_width;
int comp_xoffset = 0;
unsigned char addon[6];
int addon_gap = 0;
float addon_text_yposn = 0.0f;
float xoffset, yoffset, roffset, boffset;
float textoffset;
float yposn;
int upceanflag = 0;
int addon_latch = 0;
unsigned char textpart1[5], textpart2[7], textpart3[7], textpart4[2];
int hide_text;
int i, r;
int text_height; /* Font pixel size (so whole integers) */
float text_gap; /* Gap between barcode and text */
float guard_descent;
int upcae_outside_text_height = 0; /* UPC-A/E outside digits font size */
float digit_ascent_factor = 0.25f; /* Assuming digit ascent roughly 25% less than font size */
float dot_overspill = 0.0f;
float dot_offset = 0.0f;
int rect_count, last_row_start = 0;
struct zint_vector *vector;
struct zint_vector_rect *rect, *last_rectangle = NULL;
struct zint_vector_hexagon *hexagon, *last_hexagon = NULL;
struct zint_vector_string *last_string = NULL;
struct zint_vector_circle *circle, *last_circle = NULL;
// Free any previous rendering structures
vector_free(symbol);
// Sanity check colours
error_number = output_check_colour_options(symbol);
if (error_number != 0) {
return error_number;
}
// Allocate memory
vector = symbol->vector = (struct zint_vector *) malloc(sizeof(struct zint_vector));
if (!vector) {
strcpy(symbol->errtxt, "696: Insufficient memory for vector header");
return ZINT_ERROR_MEMORY;
}
vector->rectangles = NULL;
vector->hexagons = NULL;
vector->circles = NULL;
vector->strings = NULL;
large_bar_height = output_large_bar_height(symbol, 0 /*No rounding to scale*/);
main_width = symbol->width;
if (is_extendable(symbol->symbology)) {
upceanflag = output_process_upcean(symbol, &main_width, &comp_xoffset, addon, &addon_gap);
}
hide_text = ((!symbol->show_hrt) || (ustrlen(symbol->text) == 0));
output_set_whitespace_offsets(symbol, hide_text, &xoffset, &yoffset, &roffset, &boffset, 0 /*scaler*/,
NULL, NULL, NULL, NULL);
/* Note font sizes scaled by 2 so really twice these values */
if (upceanflag) {
/* Note BOLD_TEXT ignored for UPCEAN by svg/emf/ps/qzint */
text_height = symbol->output_options & SMALL_TEXT ? 7 : 10;
upcae_outside_text_height = symbol->output_options & SMALL_TEXT ? 6 : 7;
/* Negative to move close to barcode (less digit ascent, then add 0.5X) */
text_gap = -text_height * digit_ascent_factor + 0.5f;
/* Guard bar height (none for EAN-2 and EAN-5) */
guard_descent = upceanflag != 2 && upceanflag != 5 ? symbol->guard_descent : 0.0f;
} else {
text_height = symbol->output_options & SMALL_TEXT ? 6 : 7;
text_gap = text_height * 0.1f;
guard_descent = 0.0f;
}
if (hide_text) {
textoffset = guard_descent;
} else {
if (upceanflag) {
/* Add fudge for anti-aliasing of digits */
if (text_height + 0.2f + text_gap > guard_descent) {
textoffset = text_height + 0.2f + text_gap;
} else {
textoffset = guard_descent;
}
} else {
textoffset = text_height * 1.25f + text_gap; /* Allow +25% for characters descending below baseline */
}
}
if ((symbol->symbology != BARCODE_MAXICODE) && (symbol->output_options & BARCODE_DOTTY_MODE)) {
if (symbol->dot_size < 1.0f) {
dot_overspill = 0.0f;
/* Offset (1 - dot_size) / 2 + dot_radius == (1 - dot_size + dot_size) / 2 == 1 / 2 */
dot_offset = 0.5f;
} else { /* Allow for exceeding 1X */
dot_overspill = symbol->dot_size - 1.0f + 0.1f; /* Fudge for anti-aliasing */
dot_offset = symbol->dot_size / 2.0f + 0.05f; /* Fudge for anti-aliasing */
}
}
vector->width = symbol->width + dot_overspill + (xoffset + roffset);
vector->height = symbol->height + textoffset + dot_overspill + (yoffset + boffset);
// Plot Maxicode symbols
if (symbol->symbology == BARCODE_MAXICODE) {
float bull_x, bull_y, bull_d_incr, bull_width;
const float two_div_sqrt3 = 1.1547f; /* 2 / √3 */
const float sqrt3_div_two = 0.866f; /* √3 / 2 == 1.5 / √3 */
/* `hex_diameter` is short diameter, X in ISO/IEC 16023:2000 Figure 8 (same as W) */
const float hex_diameter = 1.0f;
const float hex_radius = hex_diameter / 2.0f;
const float hex_ydiameter = two_div_sqrt3 * hex_diameter; /* Long diameter, V in Figure 8 */
const float hex_yradius = hex_ydiameter / 2.0f;
const float yposn_offset = sqrt3_div_two * hex_diameter; /* Vertical distance between rows, Y in Figure 8 */
vector->width = 30 * hex_diameter + (xoffset + roffset);
/* 32 rows drawn yposn_offset apart + final hexagon */
vector->height = 32 * yposn_offset + hex_ydiameter + (yoffset + boffset);
// Bullseye (ISO/IEC 16023:2000 4.2.1.1 and 4.11.4)
bull_x = 14.5f * hex_diameter + xoffset; /* 14W right from leftmost centre = 14.5X */
bull_y = vector->height / 2.0f; /* 16Y above bottom-most centre = halfway */
/* Total finder diameter is 9X, so diametric increment for 5 diameters d2 to d6 is (9X - d1) / 5 */
bull_d_incr = (hex_diameter * 9 - hex_ydiameter) / 5.0f;
bull_width = bull_d_incr / 2.0f;
circle = vector_plot_create_circle(symbol, bull_x, bull_y,
hex_ydiameter + bull_d_incr * 5 - bull_width, bull_width, 0);
if (!circle) return ZINT_ERROR_MEMORY;
vector_plot_add_circle(symbol, circle, &last_circle);
circle = vector_plot_create_circle(symbol, bull_x, bull_y,
hex_ydiameter + bull_d_incr * 3 - bull_width, bull_width, 0);
if (!circle) return ZINT_ERROR_MEMORY;
vector_plot_add_circle(symbol, circle, &last_circle);
circle = vector_plot_create_circle(symbol, bull_x, bull_y,
hex_ydiameter + bull_d_incr - bull_width, bull_width, 0);
if (!circle) return ZINT_ERROR_MEMORY;
vector_plot_add_circle(symbol, circle, &last_circle);
/* Hexagons */
for (r = 0; r < symbol->rows; r++) {
const int odd_row = r & 1; /* Odd (reduced) row, even (full) row */
const float yposn = r * yposn_offset + hex_yradius + yoffset;
const float xposn_offset = (odd_row ? hex_diameter : hex_radius) + xoffset;
for (i = 0; i < symbol->width - odd_row; i++) {
if (module_is_set(symbol, r, i)) {
const float xposn = i * hex_diameter + xposn_offset;
hexagon = vector_plot_create_hexagon(symbol, xposn, yposn, hex_diameter);
if (!hexagon) return ZINT_ERROR_MEMORY;
vector_plot_add_hexagon(symbol, hexagon, &last_hexagon);
}
}
}
// Dotty mode
} else if (symbol->output_options & BARCODE_DOTTY_MODE) {
for (r = 0; r < symbol->rows; r++) {
for (i = 0; i < symbol->width; i++) {
if (module_is_set(symbol, r, i)) {
circle = vector_plot_create_circle(symbol, i + dot_offset + xoffset, r + dot_offset + yoffset,
symbol->dot_size, 0, 0);
if (!circle) return ZINT_ERROR_MEMORY;
vector_plot_add_circle(symbol, circle, &last_circle);
}
}
}
// Plot rectangles - most symbols created here
} else {
rect_count = 0;
yposn = yoffset;
for (r = 0; r < symbol->rows; r++) {
float row_height = symbol->row_height[r] ? symbol->row_height[r] : large_bar_height;
last_row_start = rect_count;
i = 0;
if (symbol->symbology == BARCODE_ULTRA) {
do {
int module_fill = module_colour_is_set(symbol, r, i);
int block_width = 0;
do {
block_width++;
} while (i + block_width < symbol->width
&& module_colour_is_set(symbol, r, i + block_width) == module_fill);
if (module_fill) {
/* a colour block */
rect = vector_plot_create_rect(symbol, i + xoffset, yposn, block_width, row_height);
if (!rect) return ZINT_ERROR_MEMORY;
rect->colour = module_colour_is_set(symbol, r, i);
vector_plot_add_rect(symbol, rect, &last_rectangle);
rect_count++;
}
i += block_width;
} while (i < symbol->width);
} else {
do {
float addon_row_height;
int module_fill = module_is_set(symbol, r, i);
int block_width = 0;
do {
block_width++;
} while (i + block_width < symbol->width
&& module_is_set(symbol, r, i + block_width) == module_fill);
if (upceanflag && (addon_latch == 0) && (r == (symbol->rows - 1)) && (i > main_width)) {
addon_text_yposn = yposn + text_height - text_height * digit_ascent_factor;
if (addon_text_yposn < 0.0f) {
addon_text_yposn = 0.0f;
}
addon_row_height = row_height - (addon_text_yposn - yposn) + text_gap;
if (upceanflag != 12 && upceanflag != 6) { /* UPC-A/E add-ons don't descend */
addon_row_height += guard_descent;
}
if (addon_row_height < 0.5f) {
addon_row_height = 0.5f;
}
addon_latch = 1;
}
if (module_fill) {
/* a bar */
if (addon_latch == 0) {
rect = vector_plot_create_rect(symbol, i + xoffset, yposn, block_width, row_height);
} else {
rect = vector_plot_create_rect(symbol, i + xoffset, addon_text_yposn - text_gap,
block_width, addon_row_height);
}
if (!rect) return ZINT_ERROR_MEMORY;
vector_plot_add_rect(symbol, rect, &last_rectangle);
rect_count++;
}
i += block_width;
} while (i < symbol->width);
}
yposn += row_height;
}
}
if (upceanflag) {
/* Guard bar extension */
if (upceanflag == 6) { /* UPC-E */
i = 0;
for (rect = symbol->vector->rectangles; rect != NULL; rect = rect->next) {
switch (i - last_row_start) {
case 0:
case 1:
case 14:
case 15:
case 16:
rect->height += guard_descent;
break;
}
i++;
}
} else if (upceanflag == 8) { /* EAN-8 */
i = 0;
for (rect = symbol->vector->rectangles; rect != NULL; rect = rect->next) {
switch (i - last_row_start) {
case 0:
case 1:
case 10:
case 11:
case 20:
case 21:
rect->height += guard_descent;
break;
}
i++;
}
} else if (upceanflag == 12) { /* UPC-A */
i = 0;
for (rect = symbol->vector->rectangles; rect != NULL; rect = rect->next) {
switch (i - last_row_start) {
case 0:
case 1:
case 2:
case 3:
case 14:
case 15:
case 26:
case 27:
case 28:
case 29:
rect->height += guard_descent;
break;
}
i++;
}
} else if (upceanflag == 13) { /* EAN-13 */
i = 0;
for (rect = symbol->vector->rectangles; rect != NULL; rect = rect->next) {
switch (i - last_row_start) {
case 0:
case 1:
case 14:
case 15:
case 28:
case 29:
rect->height += guard_descent;
break;
}
i++;
}
}
}
/* Add the text */
if (!hide_text) {
int textdone = 0;
float text_xposn;
float text_yposn;
xoffset += comp_xoffset;
text_yposn = yoffset + symbol->height + text_height + text_gap; /* Calculated to bottom of text */
if (symbol->border_width > 0 && (symbol->output_options & (BARCODE_BOX | BARCODE_BIND))) {
text_yposn += symbol->border_width;
}
if (upceanflag) {
float textwidth;
output_upcean_split_text(upceanflag, symbol->text, textpart1, textpart2, textpart3, textpart4);
if (upceanflag == 6) { /* UPC-E */
text_xposn = -5.0f + xoffset;
textwidth = 6.2f;
if (!vector_plot_add_string(symbol, textpart1, text_xposn, text_yposn, upcae_outside_text_height,
textwidth, 2 /*right align*/, &last_string)) return ZINT_ERROR_MEMORY;
text_xposn = 24.0f + xoffset;
textwidth = 6.0f * 8.5f;
if (!vector_plot_add_string(symbol, textpart2, text_xposn, text_yposn, text_height,
textwidth, 0, &last_string)) return ZINT_ERROR_MEMORY;
text_xposn = 51.0f + 3.0f + xoffset;
textwidth = 6.2f;
if (!vector_plot_add_string(symbol, textpart3, text_xposn, text_yposn, upcae_outside_text_height,
textwidth, 1 /*left align*/, &last_string)) return ZINT_ERROR_MEMORY;
textdone = 1;
switch (ustrlen(addon)) {
case 2:
text_xposn = 61.0f + xoffset + addon_gap;
textwidth = 2.0f * 8.5f;
if (!vector_plot_add_string(symbol, addon, text_xposn, addon_text_yposn,
text_height, textwidth, 0, &last_string)) return ZINT_ERROR_MEMORY;
break;
case 5:
text_xposn = 75.0f + xoffset + addon_gap;
textwidth = 5.0f * 8.5f;
if (!vector_plot_add_string(symbol, addon, text_xposn, addon_text_yposn,
text_height, textwidth, 0, &last_string)) return ZINT_ERROR_MEMORY;
break;
}
} else if (upceanflag == 8) { /* EAN-8 */
text_xposn = 17.0f + xoffset;
textwidth = 4.0f * 8.5f;
if (!vector_plot_add_string(symbol, textpart1, text_xposn, text_yposn,
text_height, textwidth, 0, &last_string)) return ZINT_ERROR_MEMORY;
text_xposn = 50.0f + xoffset;
if (!vector_plot_add_string(symbol, textpart2, text_xposn, text_yposn,
text_height, textwidth, 0, &last_string)) return ZINT_ERROR_MEMORY;
textdone = 1;
switch (ustrlen(addon)) {
case 2:
text_xposn = 77.0f + xoffset + addon_gap;
textwidth = 2.0f * 8.5f;
if (!vector_plot_add_string(symbol, addon, text_xposn, addon_text_yposn,
text_height, textwidth, 0, &last_string)) return ZINT_ERROR_MEMORY;
break;
case 5:
text_xposn = 91.0f + xoffset + addon_gap;
textwidth = 5.0f * 8.5f;
if (!vector_plot_add_string(symbol, addon, text_xposn, addon_text_yposn,
text_height, textwidth, 0, &last_string)) return ZINT_ERROR_MEMORY;
break;
}
} else if (upceanflag == 12) { /* UPC-A */
text_xposn = -5.0f + xoffset;
textwidth = 6.2f;
if (!vector_plot_add_string(symbol, textpart1, text_xposn, text_yposn, upcae_outside_text_height,
textwidth, 2 /*right align*/, &last_string)) return ZINT_ERROR_MEMORY;
text_xposn = 27.0f + xoffset;
textwidth = 5.0f * 8.5f;
if (!vector_plot_add_string(symbol, textpart2, text_xposn, text_yposn, text_height,
textwidth, 0, &last_string)) return ZINT_ERROR_MEMORY;
text_xposn = 67.0f + xoffset;
if (!vector_plot_add_string(symbol, textpart3, text_xposn, text_yposn, text_height,
textwidth, 0, &last_string)) return ZINT_ERROR_MEMORY;
text_xposn = 95.0f + 5.0f + xoffset;
textwidth = 6.2f;
if (!vector_plot_add_string(symbol, textpart4, text_xposn, text_yposn, upcae_outside_text_height,
textwidth, 1 /*left align*/, &last_string)) return ZINT_ERROR_MEMORY;
textdone = 1;
switch (ustrlen(addon)) {
case 2:
text_xposn = 105.0f + xoffset + addon_gap;
textwidth = 2.0f * 8.5f;
if (!vector_plot_add_string(symbol, addon, text_xposn, addon_text_yposn,
text_height, textwidth, 0, &last_string)) return ZINT_ERROR_MEMORY;
break;
case 5:
text_xposn = 119.0f + xoffset + addon_gap;
textwidth = 5.0f * 8.5f;
if (!vector_plot_add_string(symbol, addon, text_xposn, addon_text_yposn,
text_height, textwidth, 0, &last_string)) return ZINT_ERROR_MEMORY;
break;
}
} else if (upceanflag == 13) { /* EAN-13 */
text_xposn = -5.0f + xoffset;
textwidth = 8.5f;
if (!vector_plot_add_string(symbol, textpart1, text_xposn, text_yposn,
text_height, textwidth, 2 /*right align*/, &last_string)) return ZINT_ERROR_MEMORY;
text_xposn = 24.0f + xoffset;
textwidth = 6.0f * 8.5f;
if (!vector_plot_add_string(symbol, textpart2, text_xposn, text_yposn,
text_height, textwidth, 0, &last_string)) return ZINT_ERROR_MEMORY;
text_xposn = 71.0f + xoffset;
if (!vector_plot_add_string(symbol, textpart3, text_xposn, text_yposn,
text_height, textwidth, 0, &last_string)) return ZINT_ERROR_MEMORY;
textdone = 1;
switch (ustrlen(addon)) {
case 2:
text_xposn = 105.0f + xoffset + addon_gap;
textwidth = 2.0f * 8.5f;
if (!vector_plot_add_string(symbol, addon, text_xposn, addon_text_yposn,
text_height, textwidth, 0, &last_string)) return ZINT_ERROR_MEMORY;
break;
case 5:
text_xposn = 119.0f + xoffset + addon_gap;
textwidth = 5.0f * 8.5f;
if (!vector_plot_add_string(symbol, addon, text_xposn, addon_text_yposn,
text_height, textwidth, 0, &last_string)) return ZINT_ERROR_MEMORY;
break;
}
}
}
if (!textdone) {
/* Put normal human readable text at the bottom (and centered) */
// calculate start xoffset to center text
text_xposn = main_width / 2.0f + xoffset;
if (!vector_plot_add_string(symbol, symbol->text, text_xposn, text_yposn,
text_height, symbol->width, 0, &last_string)) return ZINT_ERROR_MEMORY;
}
xoffset -= comp_xoffset; // Restore xoffset
}
// Separator binding for stacked barcodes
if ((symbol->output_options & BARCODE_BIND) && (symbol->rows > 1) && is_stackable(symbol->symbology)) {
float sep_xoffset = xoffset;
float sep_width = symbol->width;
float sep_height = 1.0f, sep_yoffset;
if (symbol->option_3 > 0 && symbol->option_3 <= 4) {
sep_height = symbol->option_3;
}
sep_yoffset = yoffset - sep_height / 2;
if (symbol->symbology == BARCODE_CODABLOCKF || symbol->symbology == BARCODE_HIBC_BLOCKF) {
/* Avoid 11-module start and 13-module stop chars */
sep_xoffset += 11;
sep_width -= 11 + 13;
}
for (r = 1; r < symbol->rows; r++) {
float row_height = symbol->row_height[r - 1] ? symbol->row_height[r - 1] : large_bar_height;
rect = vector_plot_create_rect(symbol, sep_xoffset, (r * row_height) + sep_yoffset,
sep_width, sep_height);
if (!rect) return ZINT_ERROR_MEMORY;
vector_plot_add_rect(symbol, rect, &last_rectangle);
}
}
// Bind/box
if (symbol->border_width > 0) {
if (symbol->output_options & (BARCODE_BOX | BARCODE_BIND)) {
const float ybind_top = yoffset - symbol->border_width;
// Following equivalent to yoffset + symbol->height + dot_overspill except for BARCODE_MAXICODE
const float ybind_bot = vector->height - textoffset - boffset;
// Top
rect = vector_plot_create_rect(symbol, 0.0f, ybind_top, vector->width, symbol->border_width);
if (!rect) return ZINT_ERROR_MEMORY;
if (!(symbol->output_options & BARCODE_BOX)
&& (symbol->symbology == BARCODE_CODABLOCKF || symbol->symbology == BARCODE_HIBC_BLOCKF)) {
/* CodaBlockF bind - does not extend over horizontal whitespace */
rect->x = xoffset;
rect->width -= xoffset + roffset;
}
vector_plot_add_rect(symbol, rect, &last_rectangle);
// Bottom
rect = vector_plot_create_rect(symbol, 0.0f, ybind_bot, vector->width, symbol->border_width);
if (!rect) return ZINT_ERROR_MEMORY;
if (!(symbol->output_options & BARCODE_BOX)
&& (symbol->symbology == BARCODE_CODABLOCKF || symbol->symbology == BARCODE_HIBC_BLOCKF)) {
/* CodaBlockF bind - does not extend over horizontal whitespace */
rect->x = xoffset;
rect->width -= xoffset + roffset;
}
vector_plot_add_rect(symbol, rect, &last_rectangle);
}
if (symbol->output_options & BARCODE_BOX) {
float xbox_right = vector->width - symbol->border_width;
// Following equivalent to symbol->height except for BARCODE_MAXICODE
float box_height = vector->height - textoffset - dot_overspill - yoffset - boffset;
// Left
rect = vector_plot_create_rect(symbol, 0.0f, yoffset, symbol->border_width, box_height);
if (!rect) return ZINT_ERROR_MEMORY;
vector_plot_add_rect(symbol, rect, &last_rectangle);
// Right
rect = vector_plot_create_rect(symbol, xbox_right, yoffset, symbol->border_width, box_height);
if (!rect) return ZINT_ERROR_MEMORY;
vector_plot_add_rect(symbol, rect, &last_rectangle);
}
}
vector_reduce_rectangles(symbol);
vector_scale(symbol, file_type);
if (file_type != OUT_EMF_FILE) {
/* EMF does its own rotation (with mixed results in various apps) */
vector_rotate(symbol, rotate_angle);
}
switch (file_type) {
case OUT_EPS_FILE:
error_number = ps_plot(symbol);
break;
case OUT_SVG_FILE:
error_number = svg_plot(symbol);
break;
case OUT_EMF_FILE:
error_number = emf_plot(symbol, rotate_angle);
break;
/* case OUT_BUFFER: No more work needed */
}
return error_number;
}