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exactness/src/bin/player.c

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#define _GNU_SOURCE 1
#include <stdio.h>
#include <stdlib.h>
#include <getopt.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/sysinfo.h>
#include <dlfcn.h>
#include "config.h"
#ifndef EFL_EO_API_SUPPORT
#define EFL_EO_API_SUPPORT
#endif
#include <Eina.h>
#include <Eo.h>
#include <Evas.h>
#include <Ecore.h>
#include <Ecore_Getopt.h>
#include <Ecore_File.h>
#include <Ecore_Con.h>
#include <Elementary.h>
#include <Exactness.h>
#include "exactness_private.h"
#define MAX_PATH 1024
#define IMAGE_FILENAME_EXT ".png"
typedef struct
{
Eina_Debug_Session *session;
int srcid;
void *buffer;
unsigned int size;
} _Main_Loop_Info;
#define WRAPPER_TO_XFER_MAIN_LOOP(foo) \
static void \
_intern_main_loop ## foo(void *data) \
{ \
_Main_Loop_Info *info = data; \
_main_loop ## foo(info->session, info->srcid, info->buffer, info->size); \
free(info->buffer); \
free(info); \
} \
static Eina_Bool \
foo(Eina_Debug_Session *session, int srcid, void *buffer, int size) \
{ \
_Main_Loop_Info *info = calloc(1, sizeof(*info)); \
info->session = session; \
info->srcid = srcid; \
info->size = size; \
if (info->size) \
{ \
info->buffer = malloc(info->size); \
memcpy(info->buffer, buffer, info->size); \
} \
ecore_main_loop_thread_safe_call_async(_intern_main_loop ## foo, info); \
return EINA_TRUE; \
}
#if __BYTE_ORDER == __LITTLE_ENDIAN
#define SWAP_64(x) x
#define SWAP_32(x) x
#define SWAP_16(x) x
#define SWAP_DBL(x) x
#else
#define SWAP_64(x) eina_swap64(x)
#define SWAP_32(x) eina_swap32(x)
#define SWAP_16(x) eina_swap16(x)
#define SWAP_DBL(x) SWAP_64(x)
#endif
#define EXTRACT_INT(_buf) \
({ \
int __i; \
memcpy(&__i, _buf, sizeof(int)); \
_buf += sizeof(int); \
SWAP_32(__i); \
})
#define EXTRACT_DOUBLE(_buf) \
({ \
double __d; \
memcpy(&__d, _buf, sizeof(double)); \
_buf += sizeof(double); \
SWAP_DBL(__d); \
})
#define EXTRACT_STRING(_buf) \
({ \
char *__s = _buf ? strdup(_buf) : NULL; \
int __len = (__s ? strlen(__s) : 0) + 1; \
_buf += __len; \
__s; \
})
typedef enum
{
FTYPE_UNKNOWN,
FTYPE_DIR,
FTYPE_REC = FTYPE_DIR,
FTYPE_EXU,
FTYPE_REMOTE
} File_Type;
static File_Type _dest_type = FTYPE_UNKNOWN;
static Eina_Stringshare *_dest = NULL;
static Exactness_Unit *_dest_unit = NULL;
static File_Type _src_type = FTYPE_UNKNOWN;
static Eina_Stringshare *_src_filename = NULL;
static Exactness_Unit *_src_unit = NULL;
static const char *_test_name = NULL;
static int _verbose = 0;
static Evas *(*_evas_new)(void) = NULL;
static int _ignore_evas_creation = 0;
static Eina_List *_evas_list = NULL;
static Eina_List *_cur_event_list = NULL;
static int _cur_shot_id = 0;
static Eina_Bool _scan_objects = EINA_FALSE, _disable_shots = EINA_FALSE;
static Eina_Bool _stabilization_needed = EINA_FALSE;
static Ecore_Timer *_stabilization_timer = NULL;
static Eina_Bool _stabilization_timer_cb(void *);
static void
_printf(int verbose, const char *fmt, ...)
{
va_list ap;
if (!_verbose || verbose > _verbose) return;
va_start(ap, fmt);
vprintf(fmt, ap);
va_end(ap);
}
static void
_shot_do(Evas *e)
{
Ecore_Evas *ee_orig;
unsigned int *pixels;
int w, h;
Eina_Bool alpha;
if (!e) return;
ee_orig = ecore_evas_ecore_evas_get(e);
ecore_evas_manual_render(ee_orig);
pixels = (void *)ecore_evas_buffer_pixels_get(ee_orig);
if (!pixels) return;
alpha = ecore_evas_alpha_get(ee_orig);
ecore_evas_geometry_get(ee_orig, NULL, NULL, &w, &h);
if ((w < 1) || (h < 1)) return;
if (_dest_type == FTYPE_DIR)
{
if (!_disable_shots)
{
int dir_name_len;
char *filename;
Evas_Object *o;
Ecore_Evas *ee;
_ignore_evas_creation++;
ee = ecore_evas_buffer_new(1, 1);
_ignore_evas_creation--;
o = evas_object_image_add(ecore_evas_get(ee));
evas_object_image_alpha_set(o, alpha);
evas_object_image_size_set(o, w, h);
evas_object_image_data_set(o, pixels);
dir_name_len = strlen(_dest) + 1; /* includes space of a '/' */
filename = malloc(strlen(_test_name) + strlen(IMAGE_FILENAME_EXT) +
dir_name_len + 8); /* also space for serial */
sprintf(filename, "%s/%s%c%03d%s", _dest, _test_name,
SHOT_DELIMITER, _cur_shot_id, IMAGE_FILENAME_EXT);
_printf(1, "Shot taken (%s).\n", filename);
if (!evas_object_image_save(o, filename, NULL, NULL))
{
printf("Cannot save widget to <%s>\n", filename);
}
free(filename);
ecore_evas_free(ee);
}
}
else if (_dest_type == FTYPE_EXU)
{
if (!_disable_shots)
{
Exactness_Image *ex_img = malloc(sizeof(*ex_img));
int nb_bytes = w * h * 4;
ex_img->w = w;
ex_img->h = h;
ex_img->alpha = alpha;
ex_img->pixels = malloc(nb_bytes);
memcpy(ex_img->pixels, pixels, nb_bytes);
_dest_unit->imgs = eina_list_append(_dest_unit->imgs, ex_img);
_dest_unit->nb_shots++;
_printf(1, "Shot taken (in %s).\n", _dest);
}
if (_scan_objects)
{
Eina_Iterator *iter;
Eo *obj;
Exactness_Objects *e_objs = calloc(1, sizeof(*e_objs));
iter = eo_objects_iterator_new();
EINA_ITERATOR_FOREACH(iter, obj)
{
if (!efl_isa(obj, EFL_CANVAS_OBJECT_CLASS) &&
!efl_isa(obj, EFL_CANVAS_SCENE_INTERFACE)) continue;
Exactness_Object *e_obj = calloc(1, sizeof(*e_obj));
Eo *parent = efl_parent_get(obj);
e_obj->id = (long long) obj;
if (efl_isa(parent, EFL_CANVAS_OBJECT_CLASS) ||
efl_isa(parent, EFL_CANVAS_SCENE_INTERFACE))
{
e_obj->parent_id = (long long) efl_parent_get(obj);
}
else
{
e_obj->parent_id = 0;
}
e_obj->kl_name = eina_stringshare_add(efl_class_name_get(obj));
if (efl_isa(obj, EFL_CANVAS_OBJECT_CLASS))
{
Eina_Size2D sz = efl_gfx_entity_size_get(obj);
e_obj->w = sz.w;
e_obj->h = sz.h;
Eina_Position2D pos = efl_gfx_entity_position_get(obj);
e_obj->x = pos.x;
e_obj->y = pos.y;
}
e_objs->objs = eina_list_append(e_objs->objs, e_obj);
}
eina_iterator_free(iter);
_dest_unit->objs = eina_list_append(_dest_unit->objs, e_objs);
}
}
}
static void
_feed_event(Exactness_Action_Type type, unsigned int n_evas, void *data)
{
static Evas_Object *rect = NULL;
static unsigned int rect_evas;
Eo *e = eina_list_nth(_evas_list, n_evas);
if (rect && rect_evas != n_evas)
{
efl_del(rect);
rect = NULL;
}
if (_verbose && !rect)
{
rect = evas_object_rectangle_add(e);
evas_object_repeat_events_set(rect, EINA_TRUE);
evas_object_color_set(rect, 255, 0, 0, 255);
evas_object_resize(rect, 15, 15);
evas_object_layer_set(rect, 100);
evas_object_show(rect);
rect_evas = n_evas;
}
switch (type)
{
case EXACTNESS_ACTION_MOUSE_IN:
{
_printf(1, "Mouse in\n");
_printf(2, "%s evas_event_feed_mouse_in n_evas=<%d>\n", __func__, n_evas);
if (e) evas_event_feed_mouse_in(e, time(NULL), NULL);
break;
}
case EXACTNESS_ACTION_MOUSE_OUT:
{
_printf(1, "Mouse out\n");
_printf(2, "%s evas_event_feed_mouse_out n_evas=<%d>\n", __func__, n_evas);
if (e) evas_event_feed_mouse_out(e, time(NULL), NULL);
break;
}
case EXACTNESS_ACTION_MOUSE_WHEEL:
{
Exactness_Action_Mouse_Wheel *t = data;
_printf(1, "Mouse wheel\n");
_printf(2, "%s evas_event_feed_mouse_wheel n_evas=<%d>\n", __func__, n_evas);
if (e) evas_event_feed_mouse_wheel(e, t->direction, t->z, time(NULL), NULL);
break;
}
case EXACTNESS_ACTION_MULTI_DOWN:
{
Exactness_Action_Multi_Event *t = data;
_printf(2, "%s evas_event_feed_multi_down n_evas=<%d>\n", __func__, n_evas);
if (!t->d)
{
if (e) evas_event_feed_mouse_down(e, t->b, t->flags, time(NULL), NULL);
if (rect) evas_object_color_set(rect, 255, 255, 0, 255);
}
else
{
if (e) evas_event_feed_multi_down(e,
t->d, t->x, t->y, t->rad,
t->radx, t->rady, t->pres, t->ang, t->fx, t->fy,
t->flags, time(NULL), NULL);
}
break;
}
case EXACTNESS_ACTION_MULTI_UP:
{
Exactness_Action_Multi_Event *t = data;
_printf(2, "%s evas_event_feed_multi_up n_evas=<%d>\n", __func__, n_evas);
if (!t->d)
{
if (e) evas_event_feed_mouse_up(e, t->b, t->flags, time(NULL), NULL);
if (rect) evas_object_color_set(rect, 255, 0, 0, 255);
}
else
{
if (e) evas_event_feed_multi_up(e,
t->d, t->x, t->y, t->rad,
t->radx, t->rady, t->pres, t->ang, t->fx, t->fy,
t->flags, time(NULL), NULL);
}
break;
}
case EXACTNESS_ACTION_MULTI_MOVE:
{
Exactness_Action_Multi_Move *t = data;
_printf(2, "%s evas_event_feed_multi_move n_evas=<%d>\n", __func__, n_evas);
if (!t->d)
{
if (e) evas_event_feed_mouse_move(e, t->x, t->y, time(NULL), NULL);
if (rect)
{
evas_object_move(rect, t->x, t->y);
evas_object_color_set(rect, 255, 0, 0, 255);
}
}
else
{
if (e) evas_event_feed_multi_move(e,
t->d, t->x, t->y, t->rad,
t->radx, t->rady, t->pres, t->ang, t->fx, t->fy,
time(NULL), NULL);
}
break;
}
case EXACTNESS_ACTION_KEY_DOWN:
{
Exactness_Action_Key_Down_Up *t = data;
_printf(2, "%s evas_event_feed_key_down n_evas=<%d>\n", __func__, n_evas);
if (e)
evas_event_feed_key_down_with_keycode(e,
t->keyname, t->key, t->string,
t->compose, time(NULL), NULL, t->keycode);
break;
}
case EXACTNESS_ACTION_KEY_UP:
{
Exactness_Action_Key_Down_Up *t = data;
_printf(2, "%s evas_event_feed_key_up n_evas=<%d>\n", __func__, n_evas);
if (e) evas_event_feed_key_up_with_keycode(e,
t->keyname, t->key, t->string,
t->compose, time(NULL), NULL, t->keycode);
break;
}
case EXACTNESS_ACTION_TAKE_SHOT:
{
_printf(2, "%s take shot n_evas=<%d>\n", __func__, n_evas);
if (rect) evas_object_color_set(rect, 0, 0, 255, 255);
_cur_shot_id++;
if (_dest_type != FTYPE_UNKNOWN && e) _shot_do(e);
break;
}
case EXACTNESS_ACTION_EFL_EVENT:
{
Exactness_Action_Efl_Event *t = data;
Eina_Bool found = EINA_FALSE;
Eina_List *itr;
EINA_LIST_FOREACH(_evas_list, itr, e)
{
Eo *o = efl_name_find(e, t->wdg_name);
if (o)
{
_printf(2, "%s EFL event invoke %s on %s\n",
__func__, t->event_name, t->wdg_name);
Efl_Event_Description d;
found = EINA_TRUE;
memset(&d, 0, sizeof(d));
d.name = t->event_name;
d.legacy_is = EINA_TRUE;
efl_event_callback_legacy_call(o, &d, NULL);
#if 0
/* Remove when events stuff work well */
Eina_Size2D sz = efl_gfx_size_get(o);
Eina_Position2D pos = efl_gfx_position_get(o);
if (!strcmp(t->event_name, "clicked") ||
!strcmp(t->event_name, "clicked,double"))
{
int x = pos.x + (sz.w / 2);
int y = pos.y + (sz.h / 2);
evas_event_feed_mouse_move(e, x, y, time(NULL), NULL);
evas_event_feed_mouse_down(e, 0, EVAS_BUTTON_NONE, time(NULL), NULL);
evas_event_feed_mouse_up(e, 0, EVAS_BUTTON_NONE, time(NULL), NULL);
if (rect)
{
evas_object_move(rect, x, y);
evas_object_color_set(rect, 255, 0, 0, 255);
}
if (!strcmp(t->event_name, "clicked,double"))
{
evas_event_feed_mouse_down(e, 0, EVAS_BUTTON_DOUBLE_CLICK,
time(NULL), NULL);
evas_event_feed_mouse_up(e, 0, EVAS_BUTTON_DOUBLE_CLICK,
time(NULL), NULL);
}
}
#endif
}
}
if (!found) fprintf(stderr, "Failed finding %s.\n", t->wdg_name);
break;
}
case EXACTNESS_ACTION_STABILIZE:
{
_printf(2, "%s stabilize\n", __func__);
if (rect) evas_object_color_set(rect, 255, 165, 0, 255);
_stabilization_needed = EINA_TRUE;
_stabilization_timer = ecore_timer_add(1.0, _stabilization_timer_cb, NULL);
break;
}
default: /* All non-input events are not handeled */
break;
}
}
static Eina_Bool
_feed_event_timer_cb(void *data EINA_UNUSED)
{
Exactness_Action *act = eina_list_data_get(_cur_event_list);
_feed_event(act->type, act->n_evas, act->data);
_cur_event_list = eina_list_next(_cur_event_list);
if (!_cur_event_list)
{ /* Finished reading all events */
ecore_main_loop_quit();
}
else
{
if (act->type != EXACTNESS_ACTION_STABILIZE)
{
act = eina_list_data_get(_cur_event_list);
_printf(2, " %s timer_time=<%f>\n", __func__, act->delay_ms / 1000.0);
ecore_timer_add(act->delay_ms / 1000.0, _feed_event_timer_cb, NULL);
}
}
return ECORE_CALLBACK_CANCEL;
}
static Eina_Bool
_stabilization_timer_cb(void *data EINA_UNUSED)
{
if (!_stabilization_needed) return ECORE_CALLBACK_CANCEL;
_stabilization_needed = EINA_FALSE;
if (_src_type != FTYPE_REMOTE)
{
Exactness_Action *act = eina_list_data_get(_cur_event_list);
_printf(2, " %s timer_time=<%f>\n", __func__, act->delay_ms / 1000.0);
ecore_timer_add(act->delay_ms / 1000.0, _feed_event_timer_cb, NULL);
}
return ECORE_CALLBACK_CANCEL;
}
static void
_evas_render_post_cb(void *data EINA_UNUSED, const Efl_Event *event EINA_UNUSED)
{
if (_stabilization_needed)
{
_printf(2, "Not stable yet...\n");
ecore_timer_del(_stabilization_timer);
_stabilization_timer = ecore_timer_add(1.0, _stabilization_timer_cb, NULL);
}
}
static void
_main_loop_mouse_in_cb(Eina_Debug_Session *session EINA_UNUSED, int srcid EINA_UNUSED, void *buffer, int size EINA_UNUSED)
{
char *buf = buffer;
int n_evas = EXTRACT_INT(buf);
_feed_event(EXACTNESS_ACTION_MOUSE_IN, n_evas, NULL);
}
static void
_main_loop_mouse_out_cb(Eina_Debug_Session *session EINA_UNUSED, int srcid EINA_UNUSED, void *buffer, int size EINA_UNUSED)
{
char *buf = buffer;
int n_evas = EXTRACT_INT(buf);
_feed_event(EXACTNESS_ACTION_MOUSE_OUT, n_evas, NULL);
}
static void
_main_loop_mouse_wheel_cb(Eina_Debug_Session *session EINA_UNUSED, int srcid EINA_UNUSED, void *buffer, int size EINA_UNUSED)
{
char *buf = buffer;
Exactness_Action_Mouse_Wheel t;
int n_evas = EXTRACT_INT(buf);
t.direction = EXTRACT_INT(buf);
t.z = EXTRACT_INT(buf);
_feed_event(EXACTNESS_ACTION_MOUSE_WHEEL, n_evas, &t);
}
static void
_main_loop_multi_down_cb(Eina_Debug_Session *session EINA_UNUSED, int srcid EINA_UNUSED, void *buffer, int size EINA_UNUSED)
{
char *buf = buffer;
Exactness_Action_Multi_Event t;
int n_evas = EXTRACT_INT(buf);
t.d = EXTRACT_INT(buf);
t.b = EXTRACT_INT(buf);
t.x = EXTRACT_INT(buf);
t.y = EXTRACT_INT(buf);
t.rad = EXTRACT_DOUBLE(buf);
t.radx = EXTRACT_DOUBLE(buf);
t.rady = EXTRACT_DOUBLE(buf);
t.pres = EXTRACT_DOUBLE(buf);
t.ang = EXTRACT_DOUBLE(buf);
t.fx = EXTRACT_DOUBLE(buf);
t.fy = EXTRACT_DOUBLE(buf);
t.flags = EXTRACT_INT(buf);
_feed_event(EXACTNESS_ACTION_MULTI_DOWN, n_evas, &t);
}
static void
_main_loop_multi_up_cb(Eina_Debug_Session *session EINA_UNUSED, int srcid EINA_UNUSED, void *buffer, int size EINA_UNUSED)
{
char *buf = buffer;
Exactness_Action_Multi_Event t;
int n_evas = EXTRACT_INT(buf);
t.d = EXTRACT_INT(buf);
t.b = EXTRACT_INT(buf);
t.x = EXTRACT_INT(buf);
t.y = EXTRACT_INT(buf);
t.rad = EXTRACT_DOUBLE(buf);
t.radx = EXTRACT_DOUBLE(buf);
t.rady = EXTRACT_DOUBLE(buf);
t.pres = EXTRACT_DOUBLE(buf);
t.ang = EXTRACT_DOUBLE(buf);
t.fx = EXTRACT_DOUBLE(buf);
t.fy = EXTRACT_DOUBLE(buf);
t.flags = EXTRACT_INT(buf);
_feed_event(EXACTNESS_ACTION_MULTI_UP, n_evas, &t);
}
static void
_main_loop_multi_move_cb(Eina_Debug_Session *session EINA_UNUSED, int srcid EINA_UNUSED, void *buffer, int size EINA_UNUSED)
{
char *buf = buffer;
Exactness_Action_Multi_Move t;
int n_evas = EXTRACT_INT(buf);
t.d = EXTRACT_INT(buf);
t.x = EXTRACT_INT(buf);
t.y = EXTRACT_INT(buf);
t.rad = EXTRACT_DOUBLE(buf);
t.radx = EXTRACT_DOUBLE(buf);
t.rady = EXTRACT_DOUBLE(buf);
t.pres = EXTRACT_DOUBLE(buf);
t.ang = EXTRACT_DOUBLE(buf);
t.fx = EXTRACT_DOUBLE(buf);
t.fy = EXTRACT_DOUBLE(buf);
_feed_event(EXACTNESS_ACTION_MULTI_MOVE, n_evas, &t);
}
static void
_main_loop_key_down_cb(Eina_Debug_Session *session EINA_UNUSED, int srcid EINA_UNUSED, void *buffer, int size EINA_UNUSED)
{
char *buf = buffer;
Exactness_Action_Key_Down_Up t;
int n_evas = EXTRACT_INT(buf);
t.keyname = EXTRACT_STRING(buf);
t.key = EXTRACT_STRING(buf);
t.string = EXTRACT_STRING(buf);
t.compose = EXTRACT_STRING(buf);
t.keycode = EXTRACT_INT(buf);
_feed_event(EXACTNESS_ACTION_KEY_DOWN, n_evas, &t);
}
static void
_main_loop_key_up_cb(Eina_Debug_Session *session EINA_UNUSED, int srcid EINA_UNUSED, void *buffer, int size EINA_UNUSED)
{
char *buf = buffer;
Exactness_Action_Key_Down_Up t;
int n_evas = EXTRACT_INT(buf);
t.keyname = EXTRACT_STRING(buf);
t.key = EXTRACT_STRING(buf);
t.string = EXTRACT_STRING(buf);
t.compose = EXTRACT_STRING(buf);
t.keycode = EXTRACT_INT(buf);
_feed_event(EXACTNESS_ACTION_KEY_UP, n_evas, &t);
}
static void
_main_loop_take_shot_cb(Eina_Debug_Session *session EINA_UNUSED, int srcid EINA_UNUSED, void *buffer, int size EINA_UNUSED)
{
char *buf = buffer;
int n_evas = EXTRACT_INT(buf);
_feed_event(EXACTNESS_ACTION_TAKE_SHOT, n_evas, NULL);
}
static void
_main_loop_efl_event_cb(Eina_Debug_Session *session EINA_UNUSED, int srcid EINA_UNUSED, void *buffer, int size EINA_UNUSED)
{
char *buf = buffer;
Exactness_Action_Efl_Event t;
t.wdg_name = EXTRACT_STRING(buf);
t.event_name = EXTRACT_STRING(buf);
_feed_event(EXACTNESS_ACTION_EFL_EVENT, 0, &t);
}
static void
_main_loop_stabilize_cb(Eina_Debug_Session *session EINA_UNUSED, int srcid EINA_UNUSED, void *buffer EINA_UNUSED, int size EINA_UNUSED)
{
_feed_event(EXACTNESS_ACTION_STABILIZE, 0, NULL);
}
static void
_main_loop_finish_cb(Eina_Debug_Session *session EINA_UNUSED, int srcid EINA_UNUSED, void *buffer EINA_UNUSED, int size EINA_UNUSED)
{
ecore_main_loop_quit();
}
WRAPPER_TO_XFER_MAIN_LOOP(_mouse_in_cb)
WRAPPER_TO_XFER_MAIN_LOOP(_mouse_out_cb)
WRAPPER_TO_XFER_MAIN_LOOP(_mouse_wheel_cb)
WRAPPER_TO_XFER_MAIN_LOOP(_multi_down_cb)
WRAPPER_TO_XFER_MAIN_LOOP(_multi_up_cb)
WRAPPER_TO_XFER_MAIN_LOOP(_multi_move_cb)
WRAPPER_TO_XFER_MAIN_LOOP(_key_down_cb)
WRAPPER_TO_XFER_MAIN_LOOP(_key_up_cb)
WRAPPER_TO_XFER_MAIN_LOOP(_take_shot_cb)
WRAPPER_TO_XFER_MAIN_LOOP(_efl_event_cb)
WRAPPER_TO_XFER_MAIN_LOOP(_stabilize_cb)
WRAPPER_TO_XFER_MAIN_LOOP(_finish_cb)
EINA_DEBUG_OPCODES_ARRAY_DEFINE(_debug_ops,
{"Exactness/Actions/Mouse In", NULL, &_mouse_in_cb},
{"Exactness/Actions/Mouse Out", NULL, &_mouse_out_cb},
{"Exactness/Actions/Mouse Wheel", NULL, &_mouse_wheel_cb},
{"Exactness/Actions/Multi Down", NULL, &_multi_down_cb},
{"Exactness/Actions/Multi Up", NULL, &_multi_up_cb},
{"Exactness/Actions/Multi Move", NULL, &_multi_move_cb},
{"Exactness/Actions/Key Down", NULL, &_key_down_cb},
{"Exactness/Actions/Key Up", NULL, &_key_up_cb},
{"Exactness/Actions/Take Shot", NULL, &_take_shot_cb},
{"Exactness/Actions/EFL Event", NULL, &_efl_event_cb},
{"Exactness/Actions/Stabilize", NULL, &_stabilize_cb},
{"Exactness/Actions/Finish", NULL, &_finish_cb},
{NULL, NULL, NULL}
);
static Eina_Bool
_src_open()
{
if (_src_type != FTYPE_REMOTE)
{
_printf(2, "<%s> Source file is <%s>\n", __func__, _src_filename);
if (_src_type == FTYPE_EXU)
{
_src_unit = exactness_unit_file_read(_src_filename);
}
else if (_src_type == FTYPE_REC)
{
_src_unit = legacy_rec_file_read(_src_filename);
}
if (!_src_unit) return EINA_FALSE;
_cur_event_list = _src_unit->actions;
Exactness_Action *act = eina_list_data_get(_cur_event_list);
if (act->delay_ms)
{
_printf(2, " Waiting <%f>\n", act->delay_ms / 1000.0);
ecore_timer_add(act->delay_ms / 1000.0, _feed_event_timer_cb, NULL);
}
else
{
_feed_event_timer_cb(NULL);
}
}
else
{
eina_debug_opcodes_register(NULL, _debug_ops(), NULL, NULL);
}
return EINA_TRUE;
}
static int
_prg_invoke(const char *full_path, int argc, char **argv)
{
Eina_Value *ret__;
int real__;
void (*efl_main)(void *data, const Efl_Event *ev);
int (*elm_main)(int argc, char **argv);
int (*c_main)(int argc, char **argv);
Eina_Module *h = eina_module_new(full_path);
if (!h || !eina_module_load(h))
{
fprintf(stderr, "Failed loading %s.\n", full_path);
if (h) eina_module_free(h);
return 1;
}
efl_main = eina_module_symbol_get(h, "efl_main");
elm_main = eina_module_symbol_get(h, "elm_main");
c_main = eina_module_symbol_get(h, "main");
_evas_new = eina_module_symbol_get(h, "evas_new");
if (!_evas_new)
{
fprintf(stderr, "Failed loading symbol 'evas_new' from %s.\n", full_path);
eina_module_free(h);
return 1;
}
if (_src_open())
{
if (efl_main)
{
elm_init(argc, argv);
efl_event_callback_add(efl_main_loop_get(), EFL_LOOP_EVENT_ARGUMENTS, efl_main, NULL);
ret__ = efl_loop_begin(efl_main_loop_get());
real__ = efl_loop_exit_code_process(ret__);
elm_shutdown();
}
else if (elm_main)
{
elm_init(argc, argv);
real__ = elm_main(argc, argv);
elm_shutdown();
}
else if (c_main)
{
real__ = c_main(argc, argv);
}
else
{
fprintf(stderr, "Failed loading symbol 'efl_main', 'elm_main' or 'main' from %s.\n", full_path);
eina_module_free(h);
real__ = 1;
}
}
else real__ = 1;
return real__;
}
static Eina_Stringshare *
_prg_full_path_guess(const char *prg)
{
char full_path[MAX_PATH];
if (strchr(prg, '/')) return eina_stringshare_add(prg);
char *paths = strdup(getenv("PATH"));
Eina_Stringshare *ret = NULL;
while (paths && *paths && !ret)
{
char *real_path;
char *colon = strchr(paths, ':');
if (colon) *colon = '\0';
sprintf(full_path, "%s/%s", paths, prg);
real_path = ecore_file_realpath(full_path);
if (*real_path)
{
ret = eina_stringshare_add(real_path);
// check if executable
}
free(real_path);
paths += strlen(paths);
if (colon) paths++;
}
return ret;
}
static Eina_Bool
_mkdir(const char *path, Eina_Bool skip_last)
{
if (!ecore_file_exists(path))
{
const char *cur = path + 1;
do
{
char *slash = strchr(cur, '/');
if (slash) *slash = '\0';
else if (skip_last) return EINA_TRUE;
if (!ecore_file_exists(path) && !ecore_file_mkdir(path)) return EINA_FALSE;
if (slash) *slash = '/';
if (slash) cur = slash + 1;
else cur = NULL;
}
while (cur);
}
return EINA_TRUE;
}
static Evas *
_my_evas_new(int w EINA_UNUSED, int h EINA_UNUSED)
{
Evas *e;
if (!_evas_new) return NULL;
e = _evas_new();
if (e && !_ignore_evas_creation)
{
_printf(1, "New Evas\n");
_evas_list = eina_list_append(_evas_list, e);
efl_event_callback_add(e, EFL_CANVAS_SCENE_EVENT_RENDER_POST, _evas_render_post_cb, NULL);
}
return e;
}
static const Ecore_Getopt optdesc = {
"exactness_play",
"%prog [options] <-s|-o|-v|-t|-h> command",
PACKAGE_VERSION,
"(C) 2017 Enlightenment",
"BSD",
"A scenario player for EFL based applications.",
1,
{
ECORE_GETOPT_STORE_STR('o', "output",
" Set the destination for the shots.\n"
" If a .exu is given, the shots are stored in the file.\n"
" Otherwise the given path is considered as a directory\n"
" where shots will be stored.\n"
" If omitted, the output type (exu or dir) is determined\n"
" by the given test extension (resp. exu or rec)."),
ECORE_GETOPT_STORE_STR('t', "test", "Test to run on the given application"),
ECORE_GETOPT_STORE_TRUE('s', "show-on-screen", "Show on screen."),
ECORE_GETOPT_STORE_TRUE(0, "scan-objects", "Extract information of all the objects at every shot."),
ECORE_GETOPT_STORE_TRUE(0, "external-injection", "Expect events injection via Eina debug channel."),
ECORE_GETOPT_STORE_TRUE(0, "disable-screenshots", "Disable screenshots."),
ECORE_GETOPT_COUNT('v', "verbose", "Turn verbose messages on."),
ECORE_GETOPT_LICENSE('L', "license"),
ECORE_GETOPT_COPYRIGHT('C', "copyright"),
ECORE_GETOPT_VERSION('V', "version"),
ECORE_GETOPT_HELP('h', "help"),
ECORE_GETOPT_SENTINEL
}
};
int main(int argc, char **argv)
{
int pret = 1, opt_args = 0;
char *src = NULL, *dest = NULL, *eq;
Eina_Bool show_on_screen = EINA_FALSE;
Eina_Bool want_quit = EINA_FALSE, external_injection = EINA_FALSE;
Ecore_Getopt_Value values[] = {
ECORE_GETOPT_VALUE_STR(dest),
ECORE_GETOPT_VALUE_STR(src),
ECORE_GETOPT_VALUE_BOOL(show_on_screen),
ECORE_GETOPT_VALUE_BOOL(_scan_objects),
ECORE_GETOPT_VALUE_BOOL(external_injection),
ECORE_GETOPT_VALUE_BOOL(_disable_shots),
ECORE_GETOPT_VALUE_INT(_verbose),
ECORE_GETOPT_VALUE_BOOL(want_quit),
ECORE_GETOPT_VALUE_BOOL(want_quit),
ECORE_GETOPT_VALUE_BOOL(want_quit),
ECORE_GETOPT_VALUE_BOOL(want_quit),
ECORE_GETOPT_VALUE_NONE
};
eina_init();
eet_init();
ecore_init();
opt_args = ecore_getopt_parse(&optdesc, values, argc, argv);
if (opt_args < 0)
{
fprintf(stderr, "Failed parsing arguments.\n");
goto end;
}
if (want_quit) goto end;
/* Check for a sentinel */
if (argv[opt_args] && !strcmp(argv[opt_args], "--")) opt_args++;
/* Check for env variables */
do
{
eq = argv[opt_args] ? strchr(argv[opt_args], '=') : NULL;
if (eq)
{
char *var = malloc(eq - argv[opt_args] + 1);
memcpy(var, argv[opt_args], eq - argv[opt_args]);
var[eq - argv[opt_args]] = '\0';
setenv(var, eq + 1, 1);
opt_args++;
}
} while (eq);
if (dest)
{
_dest = eina_stringshare_add(dest);
if (!strcmp(_dest + strlen(_dest) - 4,".exu"))
{
_dest_type = FTYPE_EXU;
if (!_mkdir(_dest, EINA_TRUE))
{
fprintf(stderr, "Path for %s cannot be created\n", _dest);
goto end;
}
}
else
{
_dest_type = FTYPE_DIR;
if (!_mkdir(_dest, EINA_FALSE))
{
fprintf(stderr, "Directory %s cannot be created\n", _dest);
goto end;
}
}
}
if (!src && !external_injection)
{
fprintf(stderr, "no test file specified\n");
goto end;
}
if (src && external_injection)
{
fprintf(stderr, "Cannot inject events from a source file and from outside simultaneously\n");
goto end;
}
if (external_injection) _src_type = FTYPE_REMOTE;
if (src)
{
_src_filename = eina_stringshare_add(src);
if (!strcmp(_src_filename + strlen(_src_filename) - 4,".exu"))
{
_src_type = FTYPE_EXU;
if (_dest_type == FTYPE_UNKNOWN)
{
_dest_type = FTYPE_EXU;
_dest = "./output.exu";
}
}
else if (!strcmp(_src_filename + strlen(_src_filename) - 4,".rec"))
{
_src_type = FTYPE_REC;
if (_dest_type == FTYPE_UNKNOWN)
{
_dest_type = FTYPE_DIR;
_dest = ".";
}
}
char *slash = strrchr(_src_filename, '/');
if (slash) _test_name = strdup(slash + 1);
else _test_name = strdup(_src_filename);
char *dot = strrchr(_test_name, '.');
if (dot) *dot = '\0';
}
if (_scan_objects && _dest_type != FTYPE_EXU)
{
fprintf(stderr, "Scan objects options is available only if the destination is a EXU file\n");
goto end;
}
if (!show_on_screen) setenv("ELM_ENGINE", "buffer", 1);
if (!argv[opt_args])
{
fprintf(stderr, "no program specified\nUse -h for more information\n");
goto end;
}
if (_dest_type == FTYPE_EXU) _dest_unit = calloc(1, sizeof(*_dest_unit));
efl_object_init();
evas_init();
/* Replace the current command line to hide the Exactness part */
int len = argv[argc - 1] + strlen(argv[argc - 1]) - argv[opt_args];
memcpy(argv[0], argv[opt_args], len);
memset(argv[0] + len, 0, _POSIX_PATH_MAX - len);
for (int i = opt_args; i < argc; i++)
{
if (i != opt_args)
{
argv[i - opt_args] = argv[0] + (argv[i] - argv[opt_args]);
}
_printf(1, "%s ", argv[i - opt_args]);
}
_printf(1, "\n");
ecore_evas_callback_new_set(_my_evas_new);
pret = _prg_invoke(_prg_full_path_guess(argv[0]), argc - opt_args, argv);
if (_dest && _dest_unit)
{
if (_src_unit) _dest_unit->actions = _src_unit->actions;
exactness_unit_file_write(_dest_unit, _dest);
}
end:
eet_shutdown();
eina_shutdown();
return pret;
}
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