412 lines
13 KiB
C++
412 lines
13 KiB
C++
//
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// Pixmap (and other images) label support for the Fast Light Tool Kit (FLTK).
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//
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// Copyright 1998-2022 by Bill Spitzak and others.
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//
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// This library is free software. Distribution and use rights are outlined in
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// the file "COPYING" which should have been included with this file. If this
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// file is missing or damaged, see the license at:
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//
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// https://www.fltk.org/COPYING.php
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//
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// Please see the following page on how to report bugs and issues:
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//
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// https://www.fltk.org/bugs.php
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//
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#include "Fluid_Image.h"
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#include "fluid.h"
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#include "Fl_Group_Type.h"
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#include "Fl_Window_Type.h"
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#include "file.h"
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#include "code.h"
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#include <FL/Fl.H>
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#include <FL/Fl_Widget.H>
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#include <FL/Fl_Window.H>
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#include <FL/filename.H>
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#include <FL/fl_string_functions.h>
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#include <FL/fl_utf8.h> // fl_fopen()
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#include <FL/Fl_File_Chooser.H>
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#include <FL/Fl_SVG_Image.H>
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#include "../src/flstring.h"
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#include <stdio.h>
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#include <errno.h>
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#include <stdlib.h>
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#include <stdarg.h>
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void Fluid_Image::image(Fl_Widget *o) {
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if (o->window() != o) o->image(img);
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}
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void Fluid_Image::deimage(Fl_Widget *o) {
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if (o->window() != o) o->deimage(img);
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}
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static int pixmap_header_written = 0;
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static int bitmap_header_written = 0;
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static int image_header_written = 0;
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static int jpeg_header_written = 0;
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static int png_header_written = 0;
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static int gif_header_written = 0;
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static int bmp_header_written = 0;
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static int svg_header_written = 0;
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/** Write the contents of the name() file as binary source code.
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\param fmt short name of file contents for error message
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\return 0 if the file could not be opened or read */
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size_t Fluid_Image::write_static_binary(const char* fmt) {
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size_t nData = 0;
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enter_project_dir();
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FILE *f = fl_fopen(name(), "rb");
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leave_project_dir();
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if (!f) {
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write_file_error(fmt);
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return 0;
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} else {
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fseek(f, 0, SEEK_END);
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nData = ftell(f);
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fseek(f, 0, SEEK_SET);
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if (nData) {
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char *data = (char*)calloc(nData, 1);
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if (fread(data, nData, 1, f)==0) { /* ignore */ }
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write_cdata(data, (int)nData);
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free(data);
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}
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fclose(f);
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}
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return nData;
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}
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/** Write the contents of the name() file as textual source code.
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\param fmt short name of file contents for error message
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\return 0 if the file could not be opened or read */
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size_t Fluid_Image::write_static_text(const char* fmt) {
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size_t nData = 0;
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enter_project_dir();
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FILE *f = fl_fopen(name(), "rb");
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leave_project_dir();
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if (!f) {
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write_file_error(fmt);
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return 0;
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} else {
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fseek(f, 0, SEEK_END);
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nData = ftell(f);
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fseek(f, 0, SEEK_SET);
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if (nData) {
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char *data = (char*)calloc(nData+1, 1);
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if (fread(data, nData, 1, f)==0) { /* ignore */ }
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write_cstring(data, (int)nData);
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free(data);
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}
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fclose(f);
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}
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return nData;
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}
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void Fluid_Image::write_static_rgb(const char* idata_name) {
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// Write image data...
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write_c("\n");
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if (image_header_written != write_number) {
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write_c("#include <FL/Fl_Image.H>\n");
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image_header_written = write_number;
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}
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write_c("static const unsigned char %s[] =\n", idata_name);
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const int extra_data = img->ld() ? (img->ld()-img->w()*img->d()) : 0;
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write_cdata(img->data()[0], (img->w() * img->d() + extra_data) * img->h());
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write_c(";\n");
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write_initializer("Fl_RGB_Image", "%s, %d, %d, %d, %d", idata_name, img->w(), img->h(), img->d(), img->ld());
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}
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/**
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Write the static image data into the soutrce file.
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If \p compressed is set, write the original image format, which requires
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linking the matching image reader at runtime, or if we want to store the raw
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uncompressed pixels, which makes images fast, needs no reader, but takes a
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lot of memory (current default for PNG)
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\param compressed write data in the original compressed file format
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*/
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void Fluid_Image::write_static(int compressed) {
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if (!img) return;
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const char *idata_name = unique_id(this, "idata", fl_filename_name(name()), 0);
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function_name_ = unique_id(this, "image", fl_filename_name(name()), 0);
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// TODO: GIF, ICO, BMP
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if (compressed && strcmp(fl_filename_ext(name()), ".gif")==0) {
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// Write gif image data...
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write_c("\n");
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if (gif_header_written != write_number) {
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write_c("#include <FL/Fl_GIF_Image.H>\n");
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gif_header_written = write_number;
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}
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write_c("static const unsigned char %s[] =\n", idata_name);
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size_t nData = write_static_binary("GIF");
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write_c(";\n");
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write_initializer("Fl_GIF_Image", "\"%s\", %s, %d", fl_filename_name(name()), idata_name, nData);
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} else if (compressed && strcmp(fl_filename_ext(name()), ".bmp")==0) {
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// Write bmp image data...
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write_c("\n");
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if (bmp_header_written != write_number) {
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write_c("#include <FL/Fl_BMP_Image.H>\n");
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bmp_header_written = write_number;
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}
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write_c("static const unsigned char %s[] =\n", idata_name);
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size_t nData = write_static_binary("BMP");
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write_c(";\n");
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write_initializer("Fl_BMP_Image", "\"%s\", %s, %d", fl_filename_name(name()), idata_name, nData);
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} else if (img->count() > 1) {
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// Write Pixmap data...
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write_c("\n");
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if (pixmap_header_written != write_number) {
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write_c("#include <FL/Fl_Pixmap.H>\n");
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pixmap_header_written = write_number;
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}
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write_c("static const char *%s[] = {\n", idata_name);
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write_cstring(img->data()[0], (int)strlen(img->data()[0]));
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int i;
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int ncolors, chars_per_color;
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sscanf(img->data()[0], "%*d%*d%d%d", &ncolors, &chars_per_color);
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if (ncolors < 0) {
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write_c(",\n");
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write_cstring(img->data()[1], ncolors * -4);
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i = 2;
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} else {
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for (i = 1; i <= ncolors; i ++) {
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write_c(",\n");
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write_cstring(img->data()[i], (int)strlen(img->data()[i]));
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}
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}
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for (; i < img->count(); i ++) {
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write_c(",\n");
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write_cstring(img->data()[i], img->w() * chars_per_color);
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}
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write_c("\n};\n");
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write_initializer("Fl_Pixmap", "%s", idata_name);
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} else if (img->d() == 0) {
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// Write Bitmap data...
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write_c("\n");
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if (bitmap_header_written != write_number) {
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write_c("#include <FL/Fl_Bitmap.H>\n");
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bitmap_header_written = write_number;
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}
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write_c("static const unsigned char %s[] =\n", idata_name);
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write_cdata(img->data()[0], ((img->w() + 7) / 8) * img->h());
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write_c(";\n");
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write_initializer( "Fl_Bitmap", "%s, %d, %d, %d", idata_name, ((img->w() + 7) / 8) * img->h(), img->w(), img->h());
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} else if (compressed && strcmp(fl_filename_ext(name()), ".jpg")==0) {
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// Write jpeg image data...
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write_c("\n");
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if (jpeg_header_written != write_number) {
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write_c("#include <FL/Fl_JPEG_Image.H>\n");
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jpeg_header_written = write_number;
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}
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write_c("static const unsigned char %s[] =\n", idata_name);
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size_t nData = write_static_binary("JPEG");
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write_c(";\n");
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write_initializer("Fl_JPEG_Image", "\"%s\", %s, %d", fl_filename_name(name()), idata_name, nData);
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} else if (compressed && strcmp(fl_filename_ext(name()), ".png")==0) {
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// Write png image data...
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write_c("\n");
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if (png_header_written != write_number) {
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write_c("#include <FL/Fl_PNG_Image.H>\n");
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png_header_written = write_number;
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}
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write_c("static const unsigned char %s[] =\n", idata_name);
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size_t nData = write_static_binary("PNG");
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write_c(";\n");
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write_initializer("Fl_PNG_Image", "\"%s\", %s, %d", fl_filename_name(name()), idata_name, nData);
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} else if (strcmp(fl_filename_ext(name()), ".svg")==0 || strcmp(fl_filename_ext(name()), ".svgz")==0) {
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bool gzipped = (strcmp(fl_filename_ext(name()), ".svgz") == 0);
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// Write svg image data...
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if (compressed) {
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write_c("\n");
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if (svg_header_written != write_number) {
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write_c("#include <FL/Fl_SVG_Image.H>\n");
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svg_header_written = write_number;
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}
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if (gzipped) {
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write_c("static const unsigned char %s[] =\n", idata_name);
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size_t nData = write_static_binary("SVGZ");
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write_c(";\n");
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write_initializer("Fl_SVG_Image", "\"%s\", %s, %ld", fl_filename_name(name()), idata_name, nData);
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} else {
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write_c("static const char %s[] =\n", idata_name);
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write_static_text("SVG");
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write_c(";\n");
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write_initializer("Fl_SVG_Image", "\"%s\", %s", fl_filename_name(name()), idata_name);
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}
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} else {
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// if FLUID runs from the command line, make sure that the image is not
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// only loade but also rasterized, so we can write the RGB image data
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Fl_RGB_Image* rgb_image = NULL;
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Fl_SVG_Image* svg_image = NULL;
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if (img->d()>0)
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rgb_image = (Fl_RGB_Image*)img->image();
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if (rgb_image)
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svg_image = rgb_image->as_svg_image();
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if (svg_image) {
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svg_image->resize(svg_image->w(), svg_image->h());
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write_static_rgb(idata_name);
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} else {
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write_file_error("RGB_from_SVG");
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}
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}
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} else {
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write_static_rgb(idata_name);
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}
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}
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void Fluid_Image::write_file_error(const char *fmt) {
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write_c("#warning Cannot read %s file \"%s\": %s\n", fmt, name(), strerror(errno));
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enter_project_dir();
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write_c("// Searching in path \"%s\"\n", fl_getcwd(0, FL_PATH_MAX));
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leave_project_dir();
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}
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void Fluid_Image::write_initializer(const char *type_name, const char *format, ...) {
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/* Outputs code that returns (and initializes if needed) an Fl_Image as follows:
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static Fl_Image *'function_name_'() {
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static Fl_Image *image = NULL;
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if (!image)
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image = new 'type_name'('product of format and remaining args');
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return image;
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} */
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va_list ap;
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va_start(ap, format);
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write_c("static Fl_Image *%s() {\n", function_name_);
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write_c("%sstatic Fl_Image *image = NULL;\n", indent(1));
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write_c("%sif (!image)\n", indent(1));
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write_c("%simage = new %s(", indent(2), type_name);
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vwrite_c(format, ap);
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write_c(");\n");
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write_c("%sreturn image;\n", indent(1));
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write_c("}\n");
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va_end(ap);
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}
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void Fluid_Image::write_code(int bind, const char *var, int inactive) {
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/* Outputs code that attaches an image to an Fl_Widget or Fl_Menu_Item.
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This code calls a function output before by Fluid_Image::write_initializer() */
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if (img) write_c("%s%s->%s%s( %s() );\n", indent(), var, bind ? "bind_" : "", inactive ? "deimage" : "image", function_name_);
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}
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void Fluid_Image::write_inline(int inactive) {
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if (img)
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write_c("%s()", function_name_);
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}
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////////////////////////////////////////////////////////////////
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static Fluid_Image** images = 0; // sorted list
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static int numimages = 0;
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static int tablesize = 0;
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Fluid_Image* Fluid_Image::find(const char *iname) {
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if (!iname || !*iname) return 0;
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// first search to see if it exists already:
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int a = 0;
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int b = numimages;
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while (a < b) {
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int c = (a+b)/2;
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int i = strcmp(iname,images[c]->name_);
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if (i < 0) b = c;
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else if (i > 0) a = c+1;
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else return images[c];
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}
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// no, so now see if the file exists:
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enter_project_dir();
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FILE *f = fl_fopen(iname,"rb");
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if (!f) {
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read_error("%s : %s",iname,strerror(errno));
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leave_project_dir();
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return 0;
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}
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fclose(f);
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Fluid_Image *ret = new Fluid_Image(iname);
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if (!ret->img || !ret->img->w() || !ret->img->h()) {
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delete ret;
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ret = 0;
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read_error("%s : unrecognized image format", iname);
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}
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leave_project_dir();
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if (!ret) return 0;
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// make a new entry in the table:
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numimages++;
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if (numimages > tablesize) {
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tablesize = tablesize ? 2*tablesize : 16;
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if (images) images = (Fluid_Image**)realloc(images, tablesize*sizeof(Fluid_Image*));
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else images = (Fluid_Image**)malloc(tablesize*sizeof(Fluid_Image*));
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}
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for (b = numimages-1; b > a; b--) images[b] = images[b-1];
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images[a] = ret;
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return ret;
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}
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Fluid_Image::Fluid_Image(const char *iname) {
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name_ = fl_strdup(iname);
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written = 0;
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refcount = 0;
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img = Fl_Shared_Image::get(iname);
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function_name_ = NULL;
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}
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void Fluid_Image::increment() {
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++refcount;
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}
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void Fluid_Image::decrement() {
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--refcount;
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if (refcount > 0) return;
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delete this;
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}
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Fluid_Image::~Fluid_Image() {
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int a;
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if (images) {
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for (a = 0; a<numimages; a++) {
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if (images[a] == this) {
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numimages--;
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for (; a < numimages; a++) {
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images[a] = images[a+1];
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}
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break;
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}
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}
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}
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if (img) img->release();
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free((void*)name_);
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}
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////////////////////////////////////////////////////////////////
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const char *ui_find_image_name;
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Fluid_Image *ui_find_image(const char *oldname) {
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enter_project_dir();
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fl_file_chooser_ok_label("Use Image");
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const char *name = fl_file_chooser("Image?",
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"Image Files (*.{bm,bmp,gif,jpg,pbm,pgm,png,ppm,xbm,xpm,svg"
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#ifdef HAVE_LIBZ
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",svgz"
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#endif
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"})",
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oldname,1);
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fl_file_chooser_ok_label(NULL);
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ui_find_image_name = name;
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Fluid_Image *ret = (name && *name) ? Fluid_Image::find(name) : 0;
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leave_project_dir();
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return ret;
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}
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