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Unified Diff: discovery/googleapis_beta/toolresults__v1beta3.json

Issue 2226653002: Api-roll 40: 2016-08-08 (Closed) Base URL: git@github.com:dart-lang/googleapis.git@master
Patch Set: Addressed review comments Created 4 years, 4 months ago
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Index: discovery/googleapis_beta/toolresults__v1beta3.json
diff --git a/discovery/googleapis_beta/toolresults__v1beta3.json b/discovery/googleapis_beta/toolresults__v1beta3.json
index 289debad3626a28d2c6a52f4b62272e393c0c6a3..f191bf688c92d670936645a5f45af0ba4de156f0 100644
--- a/discovery/googleapis_beta/toolresults__v1beta3.json
+++ b/discovery/googleapis_beta/toolresults__v1beta3.json
@@ -15,7 +15,7 @@
"description": "Reads and publishes results from Cloud Test Lab.",
"discoveryVersion": "v1",
"documentationLink": "https://developers.google.com/cloud-test-lab/",
- "etag": "\"C5oy1hgQsABtYOYIOXWcR3BgYqU/24RiHeeznw3XkPH7TIR188r4N0M\"",
+ "etag": "\"C5oy1hgQsABtYOYIOXWcR3BgYqU/dcuwhJF8v2eGhAkOhN_qdalBHBw\"",
"icons": {
"x16": "http://www.google.com/images/icons/product/search-16.gif",
"x32": "http://www.google.com/images/icons/product/search-32.gif"
@@ -699,7 +699,7 @@
}
}
},
- "revision": "20160715",
+ "revision": "20160805",
"rootUrl": "https://www.googleapis.com/",
"schemas": {
"Any": {
@@ -719,7 +719,7 @@
"type": "object"
},
"Duration": {
- "description": "A Duration represents a signed, fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like \"day\" or \"month\". It is related to Timestamp in that the difference between two Timestamp values is a Duration and it can be added or subtracted from a Timestamp. Range is approximately +-10,000 years.\n\nExample 1: Compute Duration from two Timestamps in pseudo code.\n\nTimestamp start = ...; Timestamp end = ...; Duration duration = ...;\n\nduration.seconds = end.seconds - start.seconds; duration.nanos = end.nanos - start.nanos;\n\nif (duration.seconds 0) { duration.seconds += 1; duration.nanos -= 1000000000; } else if (durations.seconds > 0 && duration.nanos < 0) { duration.seconds -= 1; duration.nanos += 1000000000; }\n\nExample 2: Compute Timestamp from Timestamp + Duration in pseudo code.\n\nTimestamp start = ...; Duration duration = ...; Timestamp end = ...;\n\nend.seconds = start.seconds + duration.seconds; end.nanos = start.nanos + duration.nanos;\n\nif (end.nanos = 1000000000) { end.seconds += 1; end.nanos -= 1000000000; }",
+ "description": "A Duration represents a signed, fixed-length span of time represented as a count of seconds and fractions of seconds at nanosecond resolution. It is independent of any calendar and concepts like \"day\" or \"month\". It is related to Timestamp in that the difference between two Timestamp values is a Duration and it can be added or subtracted from a Timestamp. Range is approximately +-10,000 years.\n\nExample 1: Compute Duration from two Timestamps in pseudo code.\n\nTimestamp start = ...; Timestamp end = ...; Duration duration = ...;\n\nduration.seconds = end.seconds - start.seconds; duration.nanos = end.nanos - start.nanos;\n\nif (duration.seconds 0) { duration.seconds += 1; duration.nanos -= 1000000000; } else if (durations.seconds > 0 && duration.nanos < 0) { duration.seconds -= 1; duration.nanos += 1000000000; }\n\nExample 2: Compute Timestamp from Timestamp + Duration in pseudo code.\n\nTimestamp start = ...; Duration duration = ...; Timestamp end = ...;\n\nend.seconds = start.seconds + duration.seconds; end.nanos = start.nanos + duration.nanos;\n\nif (end.nanos = 1000000000) { end.seconds += 1; end.nanos -= 1000000000; }\n\nExample 3: Compute Duration from datetime.timedelta in Python.\n\ntd = datetime.timedelta(days=3, minutes=10) duration = Duration() duration.FromTimedelta(td)",
"id": "Duration",
"properties": {
"nanos": {
@@ -1315,7 +1315,7 @@
"type": "object"
},
"Timestamp": {
- "description": "A Timestamp represents a point in time independent of any time zone or calendar, represented as seconds and fractions of seconds at nanosecond resolution in UTC Epoch time. It is encoded using the Proleptic Gregorian Calendar which extends the Gregorian calendar backwards to year one. It is encoded assuming all minutes are 60 seconds long, i.e. leap seconds are \"smeared\" so that no leap second table is needed for interpretation. Range is from 0001-01-01T00:00:00Z to 9999-12-31T23:59:59.999999999Z. By restricting to that range, we ensure that we can convert to and from RFC 3339 date strings. See [https://www.ietf.org/rfc/rfc3339.txt](https://www.ietf.org/rfc/rfc3339.txt).\n\nExample 1: Compute Timestamp from POSIX `time()`.\n\nTimestamp timestamp; timestamp.set_seconds(time(NULL)); timestamp.set_nanos(0);\n\nExample 2: Compute Timestamp from POSIX `gettimeofday()`.\n\nstruct timeval tv; gettimeofday(&tv, NULL);\n\nTimestamp timestamp; timestamp.set_seconds(tv.tv_sec); timestamp.set_nanos(tv.tv_usec * 1000);\n\nExample 3: Compute Timestamp from Win32 `GetSystemTimeAsFileTime()`.\n\nFILETIME ft; GetSystemTimeAsFileTime(&ft); UINT64 ticks = (((UINT64)ft.dwHighDateTime) << 32) | ft.dwLowDateTime;\n\n// A Windows tick is 100 nanoseconds. Windows epoch 1601-01-01T00:00:00Z // is 11644473600 seconds before Unix epoch 1970-01-01T00:00:00Z. Timestamp timestamp; timestamp.set_seconds((INT64) ((ticks / 10000000) - 11644473600LL)); timestamp.set_nanos((INT32) ((ticks % 10000000) * 100));\n\nExample 4: Compute Timestamp from Java `System.currentTimeMillis()`.\n\nlong millis = System.currentTimeMillis();\n\nTimestamp timestamp = Timestamp.newBuilder().setSeconds(millis / 1000) .setNanos((int) ((millis % 1000) * 1000000)).build();\n\n\n\nExample 5: Compute Timestamp from current time in Python.\n\nnow = time.time() seconds = int(now) nanos = int((now - seconds) * 10**9) timestamp = Timestamp(seconds=seconds, nanos=nanos)",
+ "description": "A Timestamp represents a point in time independent of any time zone or calendar, represented as seconds and fractions of seconds at nanosecond resolution in UTC Epoch time. It is encoded using the Proleptic Gregorian Calendar which extends the Gregorian calendar backwards to year one. It is encoded assuming all minutes are 60 seconds long, i.e. leap seconds are \"smeared\" so that no leap second table is needed for interpretation. Range is from 0001-01-01T00:00:00Z to 9999-12-31T23:59:59.999999999Z. By restricting to that range, we ensure that we can convert to and from RFC 3339 date strings. See [https://www.ietf.org/rfc/rfc3339.txt](https://www.ietf.org/rfc/rfc3339.txt).\n\nExample 1: Compute Timestamp from POSIX `time()`.\n\nTimestamp timestamp; timestamp.set_seconds(time(NULL)); timestamp.set_nanos(0);\n\nExample 2: Compute Timestamp from POSIX `gettimeofday()`.\n\nstruct timeval tv; gettimeofday(&tv, NULL);\n\nTimestamp timestamp; timestamp.set_seconds(tv.tv_sec); timestamp.set_nanos(tv.tv_usec * 1000);\n\nExample 3: Compute Timestamp from Win32 `GetSystemTimeAsFileTime()`.\n\nFILETIME ft; GetSystemTimeAsFileTime(&ft); UINT64 ticks = (((UINT64)ft.dwHighDateTime) << 32) | ft.dwLowDateTime;\n\n// A Windows tick is 100 nanoseconds. Windows epoch 1601-01-01T00:00:00Z // is 11644473600 seconds before Unix epoch 1970-01-01T00:00:00Z. Timestamp timestamp; timestamp.set_seconds((INT64) ((ticks / 10000000) - 11644473600LL)); timestamp.set_nanos((INT32) ((ticks % 10000000) * 100));\n\nExample 4: Compute Timestamp from Java `System.currentTimeMillis()`.\n\nlong millis = System.currentTimeMillis();\n\nTimestamp timestamp = Timestamp.newBuilder().setSeconds(millis / 1000) .setNanos((int) ((millis % 1000) * 1000000)).build();\n\n\n\nExample 5: Compute Timestamp from current time in Python.\n\ntimestamp = Timestamp() timestamp.GetCurrentTime()",
"id": "Timestamp",
"properties": {
"nanos": {
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