Add better physical simulation, solved 1. tas
This commit is contained in:
parent
03b9d3a5a5
commit
0ff8e6f736
@ -3,6 +3,7 @@
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#include <glib/gstdio.h>
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#include <glib/gstdio.h>
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#undef CMPEPS
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#undef CMPEPS
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// #define CMPEPS
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void ovm_free(ovm_t *ovm) {
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void ovm_free(ovm_t *ovm) {
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if (!ovm) return;
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if (!ovm) return;
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@ -82,7 +83,7 @@ void ovm_print_c(ovm_t *ovm, const gchar *filename) {
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break;
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break;
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case SOP_CMPZ:
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case SOP_CMPZ:
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switch (instr_sop_cmp(oi[i])) {
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switch (instr_sop_cmp(oi[i])) {
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#if CMPEPS /* cmp with eps */
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#ifdef CMPEPS /* cmp with eps */
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case CMP_LTZ:
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case CMP_LTZ:
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g_string_printf(str, "\tovm_status = (v%u.d < -eps);\n", USED(instr_sop_r1(oi[i])));
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g_string_printf(str, "\tovm_status = (v%u.d < -eps);\n", USED(instr_sop_r1(oi[i])));
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break;
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break;
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@ -142,7 +143,7 @@ void ovm_print_c(ovm_t *ovm, const gchar *filename) {
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g_string_printf(str, "\tv%u.d = v%u.d * v%u.d;\n", USED(i), USED(instr_dop_r1(oi[i])), USED(instr_dop_r2(oi[i])));
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g_string_printf(str, "\tv%u.d = v%u.d * v%u.d;\n", USED(i), USED(instr_dop_r1(oi[i])), USED(instr_dop_r2(oi[i])));
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break;
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break;
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case OP_DIV:
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case OP_DIV:
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#if CMPEPS
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#ifdef CMPEPS
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g_string_printf(str, "\tv%u.d = (fabs(v%u.d) < eps) ? 0.0 : v%u.d / v%u.d;\n", USED(i), USED(instr_dop_r2(oi[i])), USED(instr_dop_r1(oi[i])), instr_dop_r2(oi[i]));
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g_string_printf(str, "\tv%u.d = (fabs(v%u.d) < eps) ? 0.0 : v%u.d / v%u.d;\n", USED(i), USED(instr_dop_r2(oi[i])), USED(instr_dop_r1(oi[i])), instr_dop_r2(oi[i]));
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#else
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#else
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g_string_printf(str, "\tv%u.d = (v%u.d == 0) ? 0.0 : v%u.d / v%u.d;\n", USED(i), USED(instr_dop_r2(oi[i])), USED(instr_dop_r1(oi[i])), instr_dop_r2(oi[i]));
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g_string_printf(str, "\tv%u.d = (v%u.d == 0) ? 0.0 : v%u.d / v%u.d;\n", USED(i), USED(instr_dop_r2(oi[i])), USED(instr_dop_r1(oi[i])), instr_dop_r2(oi[i]));
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@ -173,7 +174,7 @@ void ovm_print_c(ovm_t *ovm, const gchar *filename) {
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"static gboolean ovm_status;\n"
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"static gboolean ovm_status;\n"
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"\n"
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"\n"
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));
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));
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#if CMPEPS
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#ifdef CMPEPS
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write(f, CONST_STR_LEN(
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write(f, CONST_STR_LEN(
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"static const gdouble eps = 1e-300;\n"
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"static const gdouble eps = 1e-300;\n"
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"\n"
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"\n"
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@ -9,5 +9,57 @@
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#define Me 6.0e24
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#define Me 6.0e24
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#define Re 6.357e6
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#define Re 6.357e6
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typedef struct {
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gdouble x, y;
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} vector_t;
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typedef struct {
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vector_t g, v;
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gdouble v_abs;
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} move_data_t;
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typedef struct {
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vector_t pos_old, pos;
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gdouble rad2_old, rad_old, rad2, rad;
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vector_t dv_old, dv;
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gboolean b_old, b; /* whether the following was calculated */
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move_data_t move_old, move;
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} satellite_t;
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static inline void satellite_update_pos(satellite_t *s, gdouble x, gdouble y) {
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s->pos_old = s->pos;
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s->rad2_old = s->rad2;
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s->rad_old = s->rad;
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s->dv_old = s->dv;
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s->b_old = s->b;
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s->move_old = s->move;
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s->pos.x = x; s->pos.y = y;
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s->rad2 = s->pos.x*s->pos.x + s->pos.y*s->pos.y;
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s->rad = sqrt(s->rad2);
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s->dv.x = 0.0; s->dv.y = 0.0;
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s->b = FALSE;
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}
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static inline void satellite_update_move(satellite_t *s) {
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if (!s->b_old) {
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s->move_old.g.x = -(G*Me/(s->rad2_old*s->rad_old)) * s->pos_old.x;
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s->move_old.g.y = -(G*Me/(s->rad2_old*s->rad_old)) * s->pos_old.y;
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s->move_old.v.x = s->pos.x - s->pos_old.x - 0.5*(s->move_old.g.x + s->dv_old.x);
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s->move_old.v.y = s->pos.y - s->pos_old.y - 0.5*(s->move_old.g.y + s->dv_old.y);
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s->move_old.v_abs = sqrt(s->move_old.v.x*s->move_old.v.x+s->move_old.v.y*s->move_old.v.y);
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s->b_old = TRUE;
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}
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if (!s->b) {
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s->move.g.x = -(G*Me/(s->rad2*s->rad)) * s->pos.x;
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s->move.g.y = -(G*Me/(s->rad2*s->rad)) * s->pos.y;
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s->move.v.x = s->move_old.v.x + s->dv_old.x + 0.5*(s->move_old.g.x + s->move.g.x);
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s->move.v.y = s->move_old.v.y + s->dv_old.y + 0.5*(s->move_old.g.y + s->move.g.y);
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s->move.v_abs = sqrt(s->move.v.x*s->move.v.x+s->move.v.y*s->move.v.y);
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s->b = TRUE;
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}
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}
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#endif
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#endif
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@ -9,6 +9,7 @@ typedef struct {
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guint in_size, out_size;
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guint in_size, out_size;
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gdouble *in, *out, *in_old;
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gdouble *in, *out, *in_old;
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int tracefd;
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int tracefd;
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gboolean finished;
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} task_t;
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} task_t;
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task_t* task_new(guint scenario);
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task_t* task_new(guint scenario);
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96
ovm/task1.c
96
ovm/task1.c
@ -14,8 +14,8 @@ Address Sensor
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#define SCORE (task->out[0])
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#define SCORE (task->out[0])
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#define FUEL (task->out[1])
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#define FUEL (task->out[1])
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#define S_X (task->out[2])
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#define S_X (-task->out[2])
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#define S_Y (task->out[3])
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#define S_Y (-task->out[3])
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#define RADIUS (task->out[4])
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#define RADIUS (task->out[4])
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#define DV_X (task->in[2])
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#define DV_X (task->in[2])
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@ -30,44 +30,84 @@ static void debug(task_t * task) {
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task->timestamp, SCORE, FUEL, S_X, S_Y, RADIUS, rad);
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task->timestamp, SCORE, FUEL, S_X, S_Y, RADIUS, rad);
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}
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}
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gdouble init_rad, last_x, last_y;
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gboolean running = FALSE, started = FALSE;
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gdouble dv, dv_tic;
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static void run(task_t *task, gpointer userdata) {
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static void run(task_t *task, gpointer userdata) {
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gdouble cur_rad;
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static satellite_t sat;
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static gdouble init_rad, target_v;
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static gdouble dv, dv_tic;
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static gboolean reached = FALSE, outoffuel = TRUE;
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static guint32 reached_ts = 0;
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UNUSED(userdata);
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UNUSED(userdata);
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if (0 == task->timestamp) return;
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if (task->finished) debug(task);
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if (0 == task->timestamp || task->finished) return;
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satellite_update_pos(&sat, S_X, S_Y);
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cur_rad = sqrt(S_X*S_X+S_Y*S_Y);
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DV_X = DV_Y = 0.0;
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DV_X = DV_Y = 0.0;
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if (!running) {
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if (!reached) {
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running = TRUE;
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if (1 == task->timestamp) {
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started = TRUE;
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debug(task);
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init_rad = cur_rad;
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init_rad = sat.rad;
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/* v^2/r == G*M_e/r^2 => v^2 = mu/r */
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target_v = sqrt(mu/RADIUS);
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dv = sqrt(mu/init_rad)*(sqrt(2*RADIUS/(init_rad + RADIUS))-1);
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dv = sqrt(mu/init_rad)*(sqrt(2*RADIUS/(init_rad + RADIUS))-1);
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dv_tic = sqrt(mu/RADIUS)*(1-sqrt(2*init_rad/(init_rad + RADIUS)));
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dv_tic = sqrt(mu/RADIUS)*(1-sqrt(2*init_rad/(init_rad + RADIUS)));
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printf("Orbit: %f -> %f; dv = %f, dv' = %f\n", init_rad, RADIUS, dv, dv_tic);
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printf("-- Orbit: %f -> %f; dv = %f, dv' = %f\n", init_rad, RADIUS, dv, dv_tic);
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} else if (started) {
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} else if (2 == task->timestamp) {
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gdouble vx = S_X - last_x, vy = S_Y - last_y, v = sqrt(vx*vx+vy*vy);
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debug(task);
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started = FALSE;
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satellite_update_move(&sat);
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DV_X = -vx * (dv / v);
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if (sat.move.v.x * S_Y > 0.0 && sat.move.v.y * S_X < 0.0) target_v = -target_v;
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DV_Y = -vy * (dv / v);
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DV_X = sat.move.v.x * (dv / sat.move.v_abs);
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// printf("v: %f / %f\n", vx, vy);
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DV_Y = sat.move.v.y * (dv / sat.move.v_abs);
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printf("-- Leaving initial orbit at %u\n", (guint) task->timestamp);
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debug(task);
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printf("v: %f / %f\n", sat.move.v.x, sat.move.v.y);
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printf("Dv: %f / %f\n", DV_X, DV_Y);
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printf("Dv: %f / %f\n", DV_X, DV_Y);
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} else if (fabs(cur_rad - RADIUS) < 1000.0) {
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} else if (fabs(sat.rad - RADIUS) < 100.0) {
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gdouble vx = S_X - last_x, vy = S_Y - last_y, v = sqrt(vx*vx+vy*vy);
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satellite_update_move(&sat);
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running = FALSE;
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debug(task);
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printf("Reached target radius\n");
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reached = TRUE;
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DV_X = -vx * (dv_tic / v);
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DV_X = sat.move.v.x * (dv_tic / sat.move.v_abs);
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DV_Y = -vy * (dv_tic / v);
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DV_Y = sat.move.v.y * (dv_tic / sat.move.v_abs);
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printf("-- Reached target orbit at %u\n", (guint) task->timestamp);
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printf("v: %f / %f\n", sat.move.v.x, sat.move.v.y);
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printf("Dv: %f / %f\n", DV_X, DV_Y);
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printf("Dv: %f / %f\n", DV_X, DV_Y);
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}
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}
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} else if (!outoffuel) {
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/* target_v is clockwise (TODO) */
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gdouble tar_dv_x = -target_v * S_Y / sat.rad;
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gdouble tar_dv_y = target_v * S_X / sat.rad;
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satellite_update_move(&sat);
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DV_X = tar_dv_x - sat.move.v.x;
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if (fabs(DV_X) < 0.5) DV_X = 0.0;
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DV_Y = tar_dv_y - sat.move.v.y;
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if (fabs(DV_Y) < 0.5) DV_Y = 0.0;
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if (DV_X*DV_X + DV_Y*DV_Y > FUEL*FUEL) {
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printf("-- Out of fuel\n");
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printf("v: %f / %f\n", sat.move.v.x, sat.move.v.y);
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printf("Dv: %f / %f\n", DV_X, DV_Y);
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DV_X = 0.0; DV_Y = 0.0;
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outoffuel = TRUE;
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}
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}
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last_x = S_X;
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if (reached_ts > 0 && fabs(sat.rad - RADIUS) >= 1000.0) {
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last_y = S_Y;
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// debug(task);
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printf("-- Left target radius at %u (duration: %u)\n", (guint) task->timestamp, (guint) task->timestamp - reached_ts);
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reached_ts = 0;
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} else if (reached_ts == 0 && fabs(sat.rad - RADIUS) < 1000.0) {
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// debug(task);
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reached_ts = (guint) task->timestamp;
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printf("-- Reached target radius at %u\n", (guint) task->timestamp);
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}
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if (fabs(DV_X) < 0.1) DV_X = 0.0;
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if (fabs(DV_Y) < 0.1) DV_Y = 0.0;
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sat.dv.x = DV_X; sat.dv.y = DV_Y;
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}
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}
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static void run_debug(task_t *task, gpointer userdata) {
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static void run_debug(task_t *task, gpointer userdata) {
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@ -20,6 +20,7 @@ static inline void trace_simulate(task_t *task, gpointer userdata) {
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guint32 i;
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guint32 i;
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trace->pos++;
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trace->pos++;
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for (i = 0; i < te->count; i++) {
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for (i = 0; i < te->count; i++) {
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if (te->data[i].addr != 0x3e80)
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task->in[te->data[i].addr] = te->data[i].value;
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task->in[te->data[i].addr] = te->data[i].value;
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}
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}
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}
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}
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@ -36,6 +37,8 @@ static inline gdouble task_run(task_t *task, task_app_t app, gpointer userdata,
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if (dotrace) task_trace_step(task);
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if (dotrace) task_trace_step(task);
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ovm_step(task->scenario, task->in, task->out);
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ovm_step(task->scenario, task->in, task->out);
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}
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}
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task->finished = TRUE;
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app(task, userdata);
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if (dotrace) task_trace_end(task);
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if (dotrace) task_trace_end(task);
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return task->out[0];
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return task->out[0];
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}
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}
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10
ovm/trace.h
10
ovm/trace.h
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#include "base.h"
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#include "base.h"
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typedef struct {
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guint32 addr;
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gdouble value __attribute__ ((__packed__));
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} trace_entry_point_t;
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typedef struct {
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typedef struct {
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guint32 timestamp;
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guint32 timestamp;
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guint32 count;
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guint32 count;
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struct {
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trace_entry_point_t data[];
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guint32 addr;
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gdouble value;
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} data[];
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} trace_entry_t;
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} trace_entry_t;
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typedef struct {
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typedef struct {
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