1 /* This file is part of the Linux Trace Toolkit viewer
2 * Copyright (C) 2003-2004 Mathieu Desnoyers
4 * This program is free software; you can redistribute it and/or modify
5 * it under the terms of the GNU General Public License Version 2 as
6 * published by the Free Software Foundation;
8 * This program is distributed in the hope that it will be useful,
9 * but WITHOUT ANY WARRANTY; without even the implied warranty of
10 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
11 * GNU General Public License for more details.
13 * You should have received a copy of the GNU General Public License
14 * along with this program; if not, write to the Free Software
15 * Foundation, Inc., 59 Temple Place - Suite 330, Boston,
27 #include <lttv/tracecontext.h>
28 #include <lttv/state.h>
29 #include <lttvwindow/lttvwindow.h>
34 #define SAFETY 50 // safety pixels at right and bottom of pixmap buffer
36 typedef enum _draw_color
{
39 COL_RUN_USER_MODE
,/* green */
40 COL_RUN_SYSCALL
, /* pale blue */
41 COL_RUN_TRAP
, /* yellow */
42 COL_RUN_IRQ
, /* orange */
43 COL_RUN_SOFT_IRQ
, /* red */
44 COL_WAIT
, /* dark red */
45 COL_WAIT_CPU
, /* dark yellow */
46 COL_ZOMBIE
, /* dark purple */
47 COL_WAIT_FORK
, /* dark green */
48 COL_EXIT
, /* "less dark" magenta */
49 COL_MODE_UNKNOWN
, /* white */
50 COL_UNNAMED
, /* white */
51 NUM_COLORS
} draw_color
;
53 typedef enum _draw_color_cpu
{
57 NUM_COLORS_CPU
} draw_color_cpu
;
59 extern GdkColor drawing_colors
[NUM_COLORS
];
60 extern GdkColor drawing_colors_cpu
[NUM_COLORS_CPU
];
62 /* This part of the viewer does :
63 * Draw horizontal lines, getting graphic context as arg.
64 * Copy region of the screen into another.
65 * Modify the boundaries to reflect a scale change. (resize)
66 * Refresh the physical screen with the pixmap
67 * A helper function is provided here to convert from time to process
68 * identifier to pixels and the contrary (will be useful for mouse selection).
69 * Insert an empty square in the drawing, moving the bottom part.
71 * Note: The last point is exactly why it would not be so easy to add the
72 * vertical line functionnality as in the original version of LTT. In order
73 * to do so, we should keep all processes in the list for the duration of
74 * all the trace instead of dynamically adding and removing them when we
75 * scroll. Another possibility is to redraw all the visible area when a new
76 * process is added to the list. The second solution seems more appropriate
80 * The pixmap used has the width of the physical window, but the height
81 * of the shown processes.
84 #ifndef TYPE_DRAWING_T_DEFINED
85 #define TYPE_DRAWING_T_DEFINED
86 typedef struct _Drawing_t Drawing_t
;
87 #endif //TYPE_DRAWING_T_DEFINED
89 #ifndef TYPE_CONTROLFLOWDATA_DEFINED
90 #define TYPE_CONTROLFLOWDATA_DEFINED
91 typedef struct _ControlFlowData ControlFlowData
;
92 #endif //TYPE_CONTROLFLOWDATA_DEFINED
96 GtkWidget
*drawing_area
;
97 //GtkWidget *scrolled_window;
100 GtkWidget
*scrollbar
;
102 GtkWidget
*ruler_hbox
;
106 ControlFlowData
*control_flow_data
;
108 PangoLayout
*pango_layout
;
110 gint height
, width
, depth
;
111 /* height and width of allocated buffer pixmap */
112 gint alloc_height
, alloc_width
;
114 /* X coordinate of damaged region */
115 gint damage_begin
, damage_end
; /* damaged region to be exposed,
120 GdkGC
*ruler_gc_butt
;
121 GdkGC
*ruler_gc_round
;
123 /* Position of the horizontal selector, -1 for none */
127 Drawing_t
*drawing_construct(ControlFlowData
*control_flow_data
);
128 void drawing_destroy(Drawing_t
*drawing
);
130 GtkWidget
*drawing_get_widget(Drawing_t
*drawing
);
131 GtkWidget
*drawing_get_drawing_area(Drawing_t
*drawing
);
134 void drawing_data_request(Drawing_t
*drawing
,
139 void drawing_draw_line( Drawing_t
*drawing
,
145 //void drawing_copy( Drawing_t *drawing,
146 // guint xsrc, guint ysrc,
147 // guint xdest, guint ydest,
148 // guint width, guint height);
150 /* Clear the drawing : make it 1xwidth. */
151 void drawing_clear(Drawing_t
*drawing
);
153 /* Insert a square corresponding to a new process in the list */
154 void drawing_insert_square(Drawing_t
*drawing
,
158 /* Remove a square corresponding to a removed process in the list */
159 void drawing_remove_square(Drawing_t
*drawing
,
163 void drawing_update_ruler(Drawing_t
*drawing
, TimeWindow
*time_window
);
165 void drawing_request_expose(EventsRequest
*events_request
,
166 LttvTracesetState
*tss
,
169 void drawing_data_request_begin(EventsRequest
*events_request
,
170 LttvTracesetState
*tss
);
171 void drawing_chunk_begin(EventsRequest
*events_request
, LttvTracesetState
*tss
);
176 tree_row_activated(GtkTreeModel
*treemodel
,
178 GtkTreeViewColumn
*arg2
,
182 /* convert_pixels_to_time
184 * Convert from window pixel and time interval to an absolute time.
186 static inline void convert_pixels_to_time(
189 TimeWindow time_window
,
194 time_d
= time_window
.time_width_double
;
195 time_d
= time_d
/ (double)width
* (double)x
;
196 *time
= ltt_time_from_double(time_d
);
197 *time
= ltt_time_add(time_window
.start_time
, *time
);
201 static inline void convert_time_to_pixels(
202 TimeWindow time_window
,
209 g_assert(ltt_time_compare(window_time_begin
, time
) <= 0 &&
210 ltt_time_compare(window_time_end
, time
) >= 0);
213 time
= ltt_time_sub(time
, time_window
.start_time
);
215 time_d
= ltt_time_to_double(time
);
217 if(time_window
.time_width_double
== 0.0) {
218 g_assert(time_d
== 0.0);
221 *x
= (guint
)(time_d
/ time_window
.time_width_double
* (double)width
);