fish-shell/output.c

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/** \file output.c
Generic output functions
*/
#include "config.h"
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <errno.h>
#include <termios.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/ioctl.h>
#include <sys/time.h>
#include <unistd.h>
#include <wctype.h>
#if HAVE_NCURSES_H
#include <ncurses.h>
#else
#include <curses.h>
#endif
#if HAVE_TERMIO_H
#include <termio.h>
#endif
#include <term.h>
#include <signal.h>
#include <fcntl.h>
#include <dirent.h>
#include <time.h>
#include <wchar.h>
#include "util.h"
#include "wutil.h"
#include "expand.h"
#include "common.h"
#include "output.h"
#include "highlight.h"
/**
Number of color names in the col array
*/
#define COLORS (sizeof(col)/sizeof(wchar_t *))
/**
Names of different colors.
*/
static wchar_t *col[]=
{
L"black",
L"red",
L"green",
L"brown",
L"yellow",
L"blue",
L"magenta",
L"purple",
L"cyan",
L"white"
L"normal"
}
;
/**
Mapping from color name (the 'col' array) to color index as used in
ANSI color terminals, and also the fish_color_* constants defined
in highlight.h. Non-ANSI terminals will display the wrong colors,
since they use a different mapping.
*/
static int col_idx[]=
{
0,
1,
2,
3,
3,
4,
5,
5,
6,
7,
FISH_COLOR_NORMAL,
}
;
/**
Size of writestr_buff
*/
static size_t writestr_buff_sz=0;
/**
Temp buffer used for converting from wide to narrow strings
*/
static char *writestr_buff = 0;
void output_init()
{
}
void output_destroy()
{
free( writestr_buff );
}
void set_color( int c, int c2 )
{
static int last_color = FISH_COLOR_NORMAL;
static int last_color2 = FISH_COLOR_NORMAL;
int bg_set=0, last_bg_set=0;
char *fg = 0, *bg=0;
if( (set_a_foreground != 0) && (strlen( set_a_foreground) != 0 ) )
{
fg = set_a_foreground;
bg = set_a_background;
}
else if( (set_foreground != 0) && (strlen( set_foreground) != 0 ) )
{
fg = set_foreground;
bg = set_background;
}
if( (c == FISH_COLOR_RESET) || (c2 == FISH_COLOR_RESET))
{
c = c2 = FISH_COLOR_NORMAL;
if( fg )
writembs( tparm( set_a_foreground, 0 ) );
writembs( exit_attribute_mode );
return;
}
if( last_color2 != FISH_COLOR_NORMAL &&
last_color2 != FISH_COLOR_RESET &&
last_color2 != FISH_COLOR_IGNORE )
{
/*
Background was set
*/
last_bg_set=1;
}
if( c2 != FISH_COLOR_NORMAL &&
c2 != FISH_COLOR_RESET &&
c2 != FISH_COLOR_IGNORE )
{
/*
Background is set
*/
bg_set=1;
c = (c2==FISH_COLOR_WHITE)?FISH_COLOR_BLACK:FISH_COLOR_WHITE;
}
if( (enter_bold_mode != 0) && (strlen(enter_bold_mode) > 0))
{
if(bg_set && !last_bg_set)
{
/*
Background color changed and is set, so we enter bold
mode to make reading easier
*/
writembs( enter_bold_mode );
}
if(!bg_set && last_bg_set)
{
/*
Background color changed and is no longer set, so we
exit bold mode
*/
writembs( exit_attribute_mode );
/*
We don't know if exit_attribute_mode resets colors, so
we set it to something known.
*/
if( fg )
{
writembs( tparm( fg, 0 ) );
last_color=0;
}
}
}
if( last_color != c )
{
if( c==FISH_COLOR_NORMAL )
{
if( fg )
writembs( tparm( fg, 0 ) );
writembs( exit_attribute_mode );
last_color2 = FISH_COLOR_NORMAL;
}
else if( ( c >= 0) && ( c < FISH_COLOR_NORMAL ) )
{
if( fg )
{
writembs( tparm( fg, c ) );
}
}
}
last_color = c;
if( last_color2 != c2 )
{
if( c2 == FISH_COLOR_NORMAL )
{
if( bg )
{
writembs( tparm( bg, 0 ) );
}
writembs(exit_attribute_mode);
if(( last_color != FISH_COLOR_NORMAL ) && fg )
{
writembs(tparm( fg, last_color ));
}
last_color2 = c2;
}
else if ((c2 >= 0 ) &&(c2 < FISH_COLOR_NORMAL))
{
if( bg )
{
writembs( tparm( bg, c2 ) );
}
last_color2 = c2;
}
}
}
int writembs( char *str )
{
#ifdef TPUTS_KLUDGE
write( 1, str, strlen(str));
#else
tputs(str,1,&writeb);
#endif
return 0;
}
int writech( wint_t ch )
{
static mbstate_t out_state;
char buff[MB_CUR_MAX];
size_t bytes = wcrtomb( buff, ch, &out_state );
int err;
while( (err =write( 1, buff, bytes ) ) )
{
if( err >= 0 )
break;
if( errno == EINTR )
continue;
wperror( L"write" );
return 1;
}
return 0;
}
void writestr( const wchar_t *str )
{
// while( *str )
// writech( *str++ );
/*
Check amount of needed space
*/
size_t len = wcstombs( 0, str, 0 );
if( len == (size_t)-1 )
{
debug( 1, L"Tried to print invalid wide character string" );
return;
}
len++;
/*
Reallocate if needed
*/
if( writestr_buff_sz < len )
{
writestr_buff = realloc( writestr_buff, len );
if( !writestr_buff )
die_mem();
writestr_buff_sz = len;
}
/*
Convert
*/
wcstombs( writestr_buff,
str,
writestr_buff_sz );
/*
Write
*/
write( 1, writestr_buff, strlen( writestr_buff ) );
}
void writestr_ellipsis( const wchar_t *str, int max_width )
{
int written=0;
int tot = my_wcswidth(str);
if( tot <= max_width )
{
writestr( str );
return;
}
while( *str != 0 )
{
int w = wcwidth( *str );
if( written+w+wcwidth( ellipsis_char )>max_width )
break;
written+=w;
writech( *(str++) );
}
written += wcwidth( ellipsis_char );
writech( ellipsis_char );
while( written < max_width )
{
written++;
writestr( L" " );
}
}
int write_escaped_str( const wchar_t *str, int max_len )
{
wchar_t *out = escape( str, 1 );
int i;
int len = my_wcswidth( out );
int written=0;
if( max_len && (max_len < len))
{
for( i=0; (written+wcwidth(out[i]))<=(max_len-1); i++ )
{
writech( out[i] );
written += wcwidth( out[i] );
}
writech( ellipsis_char );
written += wcwidth( ellipsis_char );
for( i=written; i<max_len; i++ )
{
writech( L' ' );
written++;
}
}
else
{
written = len;
writestr( out );
}
free( out );
return written;
}
int writespace( int c )
{
if( repeat_char && strlen(repeat_char) )
{
writembs( tparm( repeat_char, ' ', c ) );
}
else
{
write( 1, " ", mini(c,8) );
if( c>8)
{
writespace( c-8);
}
}
return 0;
}
int output_color_code( const wchar_t *val )
{
int i, color=-1;
for( i=0; i<COLORS; i++ )
{
if( wcscasecmp( col[i], val ) == 0 )
{
color = col_idx[i];
break;
}
}
if( color >= 0 )
return color;
else
return FISH_COLOR_NORMAL;
}