; Test behavior when inlining policy grows size out of control. ; In all cases, the end result is the same: mandatory inlinings must happen. ; Also in all cases, we don't record the mandatory inlining (there's nothing to ; learn from it). ; However, when we discover we 'trip' over the artificially-low size increase ; factor, we penalize the 'bad' decision. ; REQUIRES: have_tf_api ; ; Generate mock model ; RUN: rm -rf %t ; RUN: %python %S/../../../../lib/Analysis/models/gen-inline-oz-test-model.py %t ; ; When the bounds are very wide ("no bounds"), all inlinings happen. ; RUN: opt -passes=scc-oz-module-inliner -ml-inliner-ir2native-model=%S/../../../../unittests/Analysis/Inputs/ir2native_x86_64_model -ml-inliner-model-under-training=%t -training-log=- -tfutils-text-log -enable-ml-inliner=development -ml-advisor-size-increase-threshold=10.0 -S < %s 2>&1 | FileCheck %s --check-prefix=CHECK --check-prefix=NOBOUNDS ; ; When the bounds are very restrictive, the first inlining happens but it's ; considered as "bad" (since it trips over the bounds) and its reward is a ; penalty. However, the mandatory inlining, which is considered next, happens. ; No other inlinings happend. ; RUN: opt -passes=scc-oz-module-inliner -ml-inliner-ir2native-model=%S/../../../../unittests/Analysis/Inputs/ir2native_x86_64_model -ml-inliner-model-under-training=%t -training-log=- -tfutils-text-log -enable-ml-inliner=development -ml-advisor-size-increase-threshold=1.0 -S < %s 2>&1 | FileCheck %s --check-prefix=CHECK --check-prefix=BOUNDS ; ; With more restrictive bounds, the first inlining happens and is OK. The ; mandatory inlining happens next, and it trips over the bounds, which then ; forces no further inlinings. ; RUN: opt -passes=scc-oz-module-inliner -ml-inliner-ir2native-model=%S/../../../../unittests/Analysis/Inputs/ir2native_x86_64_model -ml-inliner-model-under-training=%t -training-log=- -tfutils-text-log -enable-ml-inliner=development -ml-advisor-size-increase-threshold=1.1 -S < %s 2>&1 | FileCheck %s --check-prefix=CHECK --check-prefix=RELAXED-BOUNDS target datalayout = "e-m:e-p270:32:32-p271:32:32-p272:64:64-i64:64-f80:128-n8:16:32:64-S128" target triple = "x86_64-grtev4-linux-gnu" declare i64 @f1() define i64 @may_not_be_inlined() { %r = call i64 @f1() %r2 = add i64 13, %r ret i64 %r2 } define i64 @must_be_inlined() #0 { %r = call i64 @may_not_be_inlined() %r2 = add i64 13, %r ret i64 %r2 } define i64 @top() { %r = call i64 @must_be_inlined() %r2 = call i64 @may_not_be_inlined() %r3 = call i64 @may_not_be_inlined() %r4 = add i64 %r, %r2 %r5 = add i64 %r3, %r4 ret i64 %r5 } attributes #0 = { alwaysinline } ; CHECK: key: "delta_size" ; CHECK-NEXT: value { ; CHECK-NEXT: feature { ; CHECK-NEXT: int64_list { ; NOBOUNDS-NEXT: value: 6 ; RELAXED-BOUNDS-NEXT: value: 6 ; NOBOUNDS-NEXT: } ; NOBOUNDS-NEXT: } ; NOBOUNDS-NEXT: feature { ; NOBOUNDS-NEXT: int64_list { ; NOBOUNDS-NEXT: value: -11 ; NOBOUNDS-NEXT: } ; NOBOUNDS-NEXT: } ; NOBOUNDS-NEXT: feature { ; NOBOUNDS-NEXT: int64_list { ; NOBOUNDS-NEXT: value: 4 ; BOUNDS-NEXT: value: 2147483647 ; CHECK-NEXT: } ; CHECK-LABEL: @top ; must_be_inlined must always be inlined, so we won't find a call to it in @top() ; CHECK-NOT: call i64 @must_be_inlined ; @some-function isn't mandatory, and when we set the increase threshold too low, ; it won't be inlined. ; NOBOUNDS-NOT: @may_not_be_inlined ; RELAXED-BOUNDS: call i64 @may_not_be_inlined ; BOUNDS: call i64 @may_not_be_inlined