#include <babeltrace/ctf-ir/fields.h>
#include <babeltrace/ctf-ir/trace.h>
#include <babeltrace/bitfield.h>
+#include <babeltrace/common-internal.h>
#include <inttypes.h>
#include "text.h"
#define NSEC_PER_SEC 1000000000LL
+#define COLOR_NAME BT_COMMON_COLOR_BOLD
+#define COLOR_FIELD_NAME BT_COMMON_COLOR_FG_CYAN
+#define COLOR_RST BT_COMMON_COLOR_RESET
+#define COLOR_STRING_VALUE BT_COMMON_COLOR_BOLD BT_COMMON_COLOR_FG_GREEN
+#define COLOR_NUMBER_VALUE BT_COMMON_COLOR_BOLD BT_COMMON_COLOR_FG_RED
+#define COLOR_ENUM_MAPPING_NAME BT_COMMON_COLOR_BOLD BT_COMMON_COLOR_FG_CYAN
+#define COLOR_UNKNOWN BT_COMMON_COLOR_BOLD BT_COMMON_COLOR_FG_RED
+#define COLOR_EVENT_NAME BT_COMMON_COLOR_BOLD BT_COMMON_COLOR_FG_MAGENTA
+#define COLOR_TIMESTAMP BT_COMMON_COLOR_BOLD BT_COMMON_COLOR_FG_YELLOW
+
static inline
const char *rem_(const char *str)
{
enum bt_component_status print_field(struct text_component *text,
struct bt_ctf_field *field, bool print_names);
+static
+void print_name_equal(struct text_component *text, const char *name)
+{
+ if (text->use_colors) {
+ fprintf(text->out, "%s%s%s = ", COLOR_NAME, name, COLOR_RST);
+ } else {
+ fputs(name, text->out);
+ }
+}
+
+static
+void print_field_name_equal(struct text_component *text, const char *name)
+{
+ if (text->use_colors) {
+ fprintf(text->out, "%s%s%s = ", COLOR_FIELD_NAME, name,
+ COLOR_RST);
+ } else {
+ fputs(name, text->out);
+ }
+}
+
static
void print_timestamp_cycles(struct text_component *text,
struct bt_ctf_clock_class *clock_class,
goto end;
}
- fputs(print_names ? "timestamp = " : "[", out);
+ if (print_names) {
+ print_name_equal(text, "timestamp");
+ } else {
+ fputs("[", out);
+ }
+ if (text->use_colors) {
+ fputs(COLOR_TIMESTAMP, text->out);
+ }
if (text->options.print_timestamp_cycles) {
print_timestamp_cycles(text, clock_class, event);
} else {
print_timestamp_wall(text, clock_class, event);
}
+ if (text->use_colors) {
+ fputs(COLOR_RST, text->out);
+ }
if (!print_names)
fputs("] ", out);
if (text->options.print_delta_field) {
- if (print_names)
- fputs(", delta = ", text->out);
- else
+ if (print_names) {
+ fputs(", ", text->out);
+ print_name_equal(text, "delta");
+ } else {
fputs("(", text->out);
+ }
if (text->options.print_timestamp_cycles) {
if (text->delta_cycles == -1ULL) {
fputs("+??????????\?\?) ", text->out); /* Not a trigraph. */
}
text->start_line = false;
if (print_names) {
- fputs("trace = ", text->out);
+ print_name_equal(text, "trace");
}
fprintf(text->out, "%s", name);
}
}
text->start_line = false;
if (print_names) {
- fputs("trace:hostname = ", text->out);
+ print_name_equal(text, "trace:hostname");
}
if (bt_value_string_get(hostname_str, &str)
== BT_VALUE_STATUS_OK) {
}
text->start_line = false;
if (print_names) {
- fputs("trace:domain = ", text->out);
+ print_name_equal(text, "trace:domain");
}
if (bt_value_string_get(domain_str, &str)
== BT_VALUE_STATUS_OK) {
}
text->start_line = false;
if (print_names) {
- fputs("trace:procname = ", text->out);
+ print_name_equal(text, "trace:procname");
}
if (bt_value_string_get(procname_str, &str)
== BT_VALUE_STATUS_OK) {
}
text->start_line = false;
if (print_names) {
- fputs("trace:vpid = ", text->out);
+ print_name_equal(text, "trace:vpid");
}
if (bt_value_integer_get(vpid_value, &value)
== BT_VALUE_STATUS_OK) {
}
text->start_line = false;
if (print_names) {
- fputs("loglevel = ", text->out);
+ print_name_equal(text, "loglevel");
}
if (loglevel_str) {
const char *str;
}
text->start_line = false;
if (print_names) {
- fputs("model.emf.uri = ", text->out);
+ print_name_equal(text, "model.emf.uri");
}
if (uri_str) {
const char *str;
}
text->start_line = false;
if (print_names) {
- fputs("name = ", text->out);
+ print_name_equal(text, "name");
+ }
+ if (text->use_colors) {
+ fputs(COLOR_EVENT_NAME, text->out);
}
fputs(bt_ctf_event_class_get_name(event_class), text->out);
+ if (text->use_colors) {
+ fputs(COLOR_RST, text->out);
+ }
end:
bt_put(trace_class);
bt_put(stream_class);
uint64_t u;
int64_t s;
} v;
+ bool rst_color = false;
field_type = bt_ctf_field_get_type(field);
if (!field_type) {
goto end;
}
+ if (text->use_colors) {
+ fputs(COLOR_NUMBER_VALUE, text->out);
+ rst_color = true;
+ }
+
base = bt_ctf_field_type_integer_get_base(field_type);
switch (base) {
case BT_CTF_INTEGER_BASE_BINARY:
goto end;
}
end:
+ if (rst_color) {
+ fputs(COLOR_RST, text->out);
+ }
bt_put(field_type);
return ret;
}
}
if (nr_mappings++)
fprintf(text->out, ", ");
+ if (text->use_colors) {
+ fputs(COLOR_ENUM_MAPPING_NAME, text->out);
+ }
+ // TODO: escape string
fprintf(text->out, "\"%s\"", mapping_name);
+ if (text->use_colors) {
+ fputs(COLOR_RST, text->out);
+ }
if (bt_ctf_field_type_enumeration_mapping_iterator_next(iter) < 0) {
break;
}
}
if (!nr_mappings) {
+ if (text->use_colors) {
+ fputs(COLOR_UNKNOWN, text->out);
+ }
fprintf(text->out, "<unknown>");
+ if (text->use_colors) {
+ fputs(COLOR_RST, text->out);
+ }
}
fprintf(text->out, " : container = ");
ret = print_integer(text, container_field);
fprintf(text->out, " ");
}
if (print_names) {
- fprintf(text->out, "%s = ", rem_(field_name));
+ print_field_name_equal(text, rem_(field_name));
}
ret = print_field(text, field, print_names);
end:
text->depth--;
if (is_string) {
+ if (text->use_colors) {
+ fputs(COLOR_STRING_VALUE, text->out);
+ }
+ // TODO: escape string
fprintf(text->out, "\"%s\"", text->string->str);
+ if (text->use_colors) {
+ fputs(COLOR_RST, text->out);
+ }
} else {
fprintf(text->out, " ]");
}
text->depth--;
if (is_string) {
+ if (text->use_colors) {
+ fputs(COLOR_STRING_VALUE, text->out);
+ }
+ // TODO: escape string
fprintf(text->out, "\"%s\"", text->string->str);
+ if (text->use_colors) {
+ fputs(COLOR_RST, text->out);
+ }
} else {
fprintf(text->out, " ]");
}
ret = BT_COMPONENT_STATUS_ERROR;
goto end;
}
- fprintf(text->out, "%s = ", rem_(tag_choice));
+ print_field_name_equal(text, rem_(tag_choice));
bt_put(tag_field);
bt_put(iter);
}
if (bt_ctf_field_floating_point_get_value(field, &v)) {
return BT_COMPONENT_STATUS_ERROR;
}
+ if (text->use_colors) {
+ fputs(COLOR_NUMBER_VALUE, text->out);
+ }
fprintf(text->out, "%g", v);
+ if (text->use_colors) {
+ fputs(COLOR_RST, text->out);
+ }
return BT_COMPONENT_STATUS_OK;
}
case CTF_TYPE_ENUM:
return print_enum(text, field);
case CTF_TYPE_STRING:
- fprintf(text->out, "\"%s\"", bt_ctf_field_string_get_value(field));
+ if (text->use_colors) {
+ fputs(COLOR_STRING_VALUE, text->out);
+ }
+ // TODO: escape the string value
+ fprintf(text->out, "\"%s\"",
+ bt_ctf_field_string_get_value(field));
+ if (text->use_colors) {
+ fputs(COLOR_RST, text->out);
+ }
return BT_COMPONENT_STATUS_OK;
case CTF_TYPE_STRUCT:
return print_struct(text, field, print_names);
}
text->start_line = false;
if (text->options.print_scope_field_names) {
- fputs("stream.packet.context = ", text->out);
+ print_name_equal(text, "stream.packet.context");
}
ret = print_field(text, main_field,
text->options.print_context_field_names);
}
text->start_line = false;
if (text->options.print_scope_field_names) {
- fputs("stream.event.header = ", text->out);
+ print_name_equal(text, "stream.event.header");
}
ret = print_field(text, main_field,
text->options.print_header_field_names);
}
text->start_line = false;
if (text->options.print_scope_field_names) {
- fputs("stream.event.context = ", text->out);
+ print_name_equal(text, "stream.event.context");
}
ret = print_field(text, main_field,
text->options.print_context_field_names);
}
text->start_line = false;
if (text->options.print_scope_field_names) {
- fputs("event.context = ", text->out);
+ print_name_equal(text, "event.context");
}
ret = print_field(text, main_field,
text->options.print_context_field_names);
}
text->start_line = false;
if (text->options.print_scope_field_names) {
- fputs("event.fields = ", text->out);
+ print_name_equal(text, "event.fields");
}
ret = print_field(text, main_field,
text->options.print_payload_field_names);