/* windows.c */
#include "windows.h"
-#include <stdint.h> /* for uint16_t, uint32_t */
+#include <stdint.h> /* for uint8_t, uint16_t, uint32_t */
#include <ncurses.h> /* for typedefs WINDOW, chtype, wresize(), getmaxx(), */
/* getmaxy(), supbad(), delwin(), mvwaddch(), */
/* mvwaddstr(), newpad(), wnoutrefres(), erase(), */
/* Fit virtual screen's width to minimum width demanded by current windows'
- * geometries.
+ * geometries. Returns 0 on success, 1 on (pad memory allocation) error.
*/
-static void refit_pad(struct WinMeta * wmeta);
+static uint8_t refit_pad(struct WinMeta * wmeta);
/* Update geometry (sizes, positions) of window "w" and its successors in the
* window chain. For the positioning algorithm place_win() is used.
+ *
+ * update_wins() returns 0 on success, 1 on (pad/window memory alloc.) error.
*/
-static void update_wins(struct WinMeta * wmeta, struct Win * w);
+static uint8_t update_wins(struct WinMeta * wmeta, struct Win * w);
static void place_win(struct WinMeta * wmeta, struct Win * w);
-static void refit_pad(struct WinMeta * wmeta)
+static uint8_t refit_pad(struct WinMeta * wmeta)
{
/* Determine rightmost window column. */
uint16_t lastwincol = 0;
/* Only resize the pad if the rightmost window column has changed. */
if (getmaxx(wmeta->padframe.curses_win) != lastwincol)
{
- wresize(wmeta->padframe.curses_win,
- getmaxy(wmeta->padframe.curses_win), lastwincol + 2);
+ return (ERR == wresize(wmeta->padframe.curses_win,
+ getmaxy(wmeta->padframe.curses_win),
+ lastwincol + 2));
}
+ return 0;
}
-static void update_wins(struct WinMeta * wmeta, struct Win * w)
+static uint8_t update_wins(struct WinMeta * wmeta, struct Win * w)
{
if (0 != w->frame.curses_win)
{
destroy_win(w);
}
place_win(wmeta, w);
- refit_pad(wmeta);
- w->frame.curses_win = subpad(wmeta->padframe.curses_win,
- w->frame.size.y, w->frame.size.x,
- w->start.y, w->start.x);
+ if (0 != refit_pad(wmeta))
+ {
+ return 1;
+ }
+ WINDOW * test = subpad(wmeta->padframe.curses_win,
+ w->frame.size.y, w->frame.size.x,
+ w->start.y, w->start.x);
+ if (NULL == test)
+ {
+ return 1;
+ }
+ w->frame.curses_win = test;
if (0 != w->next)
{
- update_wins(wmeta, w->next);
+ return update_wins(wmeta, w->next);
}
+ return 0;
}
-static void destroy_win (struct Win * w)
+static void destroy_win(struct Win * w)
{
delwin(w->frame.curses_win);
w->frame.curses_win = 0;
-static void draw_wins (struct Win * w)
+static void draw_wins(struct Win * w)
{
w->draw(w);
if (0 != w->next)
-extern struct WinMeta init_win_meta(WINDOW * screen)
+extern uint8_t init_win_meta(WINDOW * screen, struct WinMeta * wmeta)
{
- struct WinMeta wmeta;
- wmeta.screen = screen;
- wmeta.padframe.size.y = getmaxy(screen);
- wmeta.padframe.size.x = getmaxx(screen);
- wmeta.chain_start = 0;
- wmeta.chain_end = 0;
- wmeta.pad_offset = 0;
- wmeta.padframe.curses_win = newpad(wmeta.padframe.size.y, 1);
- wmeta.active = 0;
- return wmeta;
+ wmeta->screen = screen;
+ wmeta->padframe.size.y = getmaxy(screen);
+ wmeta->padframe.size.x = getmaxx(screen);
+ wmeta->chain_start = 0;
+ wmeta->chain_end = 0;
+ wmeta->pad_offset = 0;
+ WINDOW * test;
+ test = newpad(wmeta->padframe.size.y, 1);
+ if (NULL == test)
+ {
+ return 1;
+ }
+ wmeta->padframe.curses_win = test;
+ wmeta->active = 0;
+ return 0;
}
-extern void append_win(struct WinMeta * wmeta, struct Win * w)
+extern uint8_t append_win(struct WinMeta * wmeta, struct Win * w)
{
if (0 != wmeta->chain_start)
{
wmeta->chain_start = w;
}
wmeta->chain_end = w;
- update_wins(wmeta, w);
+ return update_wins(wmeta, w);
}
-extern void suspend_win(struct WinMeta * wmeta, struct Win * w)
+extern uint8_t suspend_win(struct WinMeta * wmeta, struct Win * w)
{
destroy_win(w);
{
wmeta->active = w->next;
}
- update_wins(wmeta, w->next); /* Positioning of successor windows may */
- pad_refitted = 1; /* be affected / need correction. Note */
- } /* that update_wins() already refits the */
- else /* pad, voiding later need for that. */
+ if (0 != update_wins(wmeta, w->next)) /* Positioning of successor */
+ { /* windows may be affected / */
+ return 1; /* need correction. */
+ } /* Note that update_wins() */
+ pad_refitted = 1; /* already refits the pad, */
+ } /* voiding later need for that. */
+ else
{
wmeta->chain_end = w->prev;
if (wmeta->active == w)
if (0 == pad_refitted)
{
- refit_pad(wmeta);
+ return refit_pad(wmeta);
}
+ return 0;
}
-extern void resize_active_win(struct WinMeta * wmeta, struct yx_uint16 size)
+extern uint8_t resize_active_win(struct WinMeta * wmeta, struct yx_uint16 size)
{
if (0 != wmeta->active
&& size.x > 0 && size.y > 0
&& size.y < wmeta->padframe.size.y)
{
wmeta->active->frame.size = size;
- update_wins(wmeta, wmeta->chain_start); /* Positioning of successor */
- } /* windows may be affected. */
-}
-
+ return update_wins(wmeta, wmeta->chain_start); /* Succeeding windows' */
+ } /* positioning may be */
+ return 0; /* affected. */
+} /* TODO: Why start at */
+ /* chain_start then? */
extern void cycle_active_win(struct WinMeta * wmeta, char dir)
-extern void shift_active_win(struct WinMeta * wmeta, char dir)
+extern uint8_t shift_active_win(struct WinMeta * wmeta, char dir)
{
if (0 != wmeta->active /* No shifting with less */
&& wmeta->chain_start != wmeta->chain_end /* than one window visible. */
i_max++;
}
struct Win ** wins = malloc(i_max * sizeof(struct Win *));
+ if (NULL == wins)
+ {
+ return 1;
+ }
for (i = 0, w_p = wmeta->chain_start;
i < i_max;
i++)
{
if (dir == 'f')
{
- append_win(wmeta, w_shift);
+ if (0 != append_win(wmeta, w_shift))
+ {
+ return 1;
+ }
for (i = 0; i < i_max - 1; i++)
{
- append_win(wmeta, wins[i]);
+ if (0 != append_win(wmeta, wins[i]))
+ {
+ return 1;
+ }
}
}
else
{
for (i = 1; i < i_max; i++)
{
- append_win(wmeta, wins[i]);
+ if (0 != append_win(wmeta, wins[i]))
+ {
+ return 1;
+ }
+ }
+ if (0 != append_win(wmeta, w_shift))
+ {
+ return 1;
}
- append_win(wmeta, w_shift);
}
}
else
if ( (dir == 'f' && w_shift == wins[i])
|| (dir == 'b' && w_shift == wins[i+1]))
{
- append_win(wmeta, wins[i+1]);
- append_win(wmeta, wins[i]);
+ if ( 0 != append_win(wmeta, wins[i+1])
+ || 0 != append_win(wmeta, wins[i]))
+ {
+ return 1;
+ }
i++;
}
else
{
- append_win(wmeta, wins[i]);
+ if (0 != append_win(wmeta, wins[i]))
+ {
+ return 1;
+ }
}
}
}
wmeta->active = w_shift; /* Otherwise lastly appended win is active. */
}
+ return 0;
}
-extern void draw_scroll_hint(struct Frame * frame, uint16_t pos, uint32_t dist,
- char dir)
+extern uint8_t draw_scroll_hint(struct Frame * frame, uint16_t pos,
+ uint32_t dist, char dir)
{
/* Decide on alignment (vertical/horizontal?), thereby scroll hint text. */
char * more = "more";
}
char * scrolldsc = malloc((4 * sizeof(char)) + strlen(more) + strlen(unit)
+ 10); /* 10 = uint32 max strlen */
+ if (NULL == scrolldsc)
+ {
+ return 1;
+ }
sprintf(scrolldsc, " %d %s %s ", dist, more, unit);
/* Decide on offset of the description text inside the scroll hint line. */
}
free(scrolldsc);
+ return 0;
}
-/* Create on the terminal "screen" an empty WinMeta. Note that emptiness is
- * marked by WinMeta.chain_start=0. Other struct values are also initialized 0,
- * except for the virtual screen (terminal screen height, width = 1) and its
- * terminal-sized frame.
+/* Initialize empty WinMeta "wmeta" on the terminal "screen". Note that
+ * emptiness is marked by WinMeta.chain_start=0. Other struct values are also
+ * initialized 0, except for the virtual screen (terminal screen height, width =
+ * 1) and its terminal-sized frame.
+ *
+ * Returns 0 on success, 1 on (ncurses newpad() memory allocation) error.
*/
-extern struct WinMeta init_win_meta(WINDOW * screen);
+extern uint8_t init_win_meta(WINDOW * screen, struct WinMeta * wmeta);
* Appended windows will become active. Suspended active windows will move the
* active window selection to their successor in the window chain or, failing
* that, their predecessor; if no window remains, none will be active.
+ *
+ * Return 0 on success, and 1 on (ncurses window/pad memory allocation) error.
*/
-extern void append_win(struct WinMeta * wmeta, struct Win * w);
-extern void suspend_win(struct WinMeta * wmeta, struct Win * w);
+extern uint8_t append_win(struct WinMeta * wmeta, struct Win * w);
+extern uint8_t suspend_win(struct WinMeta * wmeta, struct Win * w);
/* Apply new size "size" to the active window, but only if it provides for at
* least one cell width/height and is in height at least one cell smaller than
* the screen's vertical height (to provide space for the title bar).
+ *
+ * Returns 0 on success, 1 on (ncurses window/pad memory allocation) error.
*/
-extern void resize_active_win(struct WinMeta * wmeta, struct yx_uint16 size);
+extern uint8_t resize_active_win(struct WinMeta * wmeta, struct yx_uint16 size);
/* Move active window forwards (set dir="f") or backwards (set dir="b"). Wrap
* around in the window chain if start / end of it is met.
+ *
+ * Return 0 on success, and 1 on (ncurses window/pad memory allocation) error.
*/
-extern void shift_active_win(struct WinMeta * wmeta, char dir);
+extern uint8_t shift_active_win(struct WinMeta * wmeta, char dir);
* a column or a row dependent on "dir" being *either* "<"/">" *or* something
* else). It will consist of a line of "dir" symbols bracketing a descriptive
* text stating the number of rows/columns further available beyond the hint.
+ *
+ * Return 0 on success, and 1 on error (of scroll hint text memory allocation).
*/
-extern void draw_scroll_hint(struct Frame * frame, uint16_t pos, uint32_t dist,
- char dir);
+extern uint8_t draw_scroll_hint(struct Frame * frame, uint16_t pos,
+ uint32_t dist, char dir);
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