third_party/llvm-7.0/llvm/test/CodeGen/SystemZ/Large/branch-range-10.py - SwiftShader - Git at Google

 # Test 64-bit COMPARE LOGICAL AND BRANCH in cases where the sheer number of
 # instructions causes some branches to be out of range.
 # RUN: python %s | llc -mtriple=s390x-linux-gnu | FileCheck %s

 # Construct:
 #
 # before0:
 #   conditional branch to after0
 #   ...
 # beforeN:
 #   conditional branch to after0
 # main:
 #   0xffcc bytes, from MVIY instructions
 #   conditional branch to main
 # after0:
 #   ...
 #   conditional branch to main
 # afterN:
 #
 # Each conditional branch sequence occupies 12 bytes if it uses a short
 # branch and 16 if it uses a long one.  The ones before "main:" have to
 # take the branch length into account, which is 6 for short branches,
 # so the final (0x34 - 6) / 12 == 3 blocks can use short branches.
 # The ones after "main:" do not, so the first 0x34 / 12 == 4 blocks
 # can use short branches.  The conservative algorithm we use makes
 # one of the forward branches unnecessarily long, as noted in the
 # check output below.
 #
 # CHECK: lgb [[REG:%r[0-5]]], 0(%r3)
 # CHECK: clgr %r4, [[REG]]
 # CHECK: jgl [[LABEL:\.L[^ ]*]]
 # CHECK: lgb [[REG:%r[0-5]]], 1(%r3)
 # CHECK: clgr %r4, [[REG]]
 # CHECK: jgl [[LABEL]]
 # CHECK: lgb [[REG:%r[0-5]]], 2(%r3)
 # CHECK: clgr %r4, [[REG]]
 # CHECK: jgl [[LABEL]]
 # CHECK: lgb [[REG:%r[0-5]]], 3(%r3)
 # CHECK: clgr %r4, [[REG]]
 # CHECK: jgl [[LABEL]]
 # CHECK: lgb [[REG:%r[0-5]]], 4(%r3)
 # CHECK: clgr %r4, [[REG]]
 # CHECK: jgl [[LABEL]]
 # ...as mentioned above, the next one could be a CLGRJL instead...
 # CHECK: lgb [[REG:%r[0-5]]], 5(%r3)
 # CHECK: clgr %r4, [[REG]]
 # CHECK: jgl [[LABEL]]
 # CHECK: lgb [[REG:%r[0-5]]], 6(%r3)
 # CHECK: clgrjl %r4, [[REG]], [[LABEL]]
 # CHECK: lgb [[REG:%r[0-5]]], 7(%r3)
 # CHECK: clgrjl %r4, [[REG]], [[LABEL]]
 # ...main goes here...
 # CHECK: lgb [[REG:%r[0-5]]], 25(%r3)
 # CHECK: clgrjl %r4, [[REG]], [[LABEL:\.L[^ ]*]]
 # CHECK: lgb [[REG:%r[0-5]]], 26(%r3)
 # CHECK: clgrjl %r4, [[REG]], [[LABEL]]
 # CHECK: lgb [[REG:%r[0-5]]], 27(%r3)
 # CHECK: clgrjl %r4, [[REG]], [[LABEL]]
 # CHECK: lgb [[REG:%r[0-5]]], 28(%r3)
 # CHECK: clgrjl %r4, [[REG]], [[LABEL]]
 # CHECK: lgb [[REG:%r[0-5]]], 29(%r3)
 # CHECK: clgr %r4, [[REG]]
 # CHECK: jgl [[LABEL]]
 # CHECK: lgb [[REG:%r[0-5]]], 30(%r3)
 # CHECK: clgr %r4, [[REG]]
 # CHECK: jgl [[LABEL]]
 # CHECK: lgb [[REG:%r[0-5]]], 31(%r3)
 # CHECK: clgr %r4, [[REG]]
 # CHECK: jgl [[LABEL]]
 # CHECK: lgb [[REG:%r[0-5]]], 32(%r3)
 # CHECK: clgr %r4, [[REG]]
 # CHECK: jgl [[LABEL]]

 branch_blocks = 8
 main_size = 0xffcc

 print '@global = global i32 0'

 print 'define void @f1(i8 *%base, i8 *%stop, i64 %limit) {'
 print 'entry:'
 print '  br label %before0'
 print ''

 for i in xrange(branch_blocks):
     next = 'before%d' % (i + 1) if i + 1 < branch_blocks else 'main'
     print 'before%d:' % i
     print '  %%bstop%d = getelementptr i8, i8 *%%stop, i64 %d' % (i, i)
     print '  %%bcur%d = load i8 , i8 *%%bstop%d' % (i, i)
     print '  %%bext%d = sext i8 %%bcur%d to i64' % (i, i)
     print '  %%btest%d = icmp ult i64 %%limit, %%bext%d' % (i, i)
     print '  br i1 %%btest%d, label %%after0, label %%%s' % (i, next)
     print ''

 print '%s:' % next
 a, b = 1, 1
 for i in xrange(0, main_size, 6):
     a, b = b, a + b
     offset = 4096 + b % 500000
     value = a % 256
     print '  %%ptr%d = getelementptr i8, i8 *%%base, i64 %d' % (i, offset)
     print '  store volatile i8 %d, i8 *%%ptr%d' % (value, i)

 for i in xrange(branch_blocks):
     print '  %%astop%d = getelementptr i8, i8 *%%stop, i64 %d' % (i, i + 25)
     print '  %%acur%d = load i8 , i8 *%%astop%d' % (i, i)
     print '  %%aext%d = sext i8 %%acur%d to i64' % (i, i)
     print '  %%atest%d = icmp ult i64 %%limit, %%aext%d' % (i, i)
     print '  br i1 %%atest%d, label %%main, label %%after%d' % (i, i)
     print ''
     print 'after%d:' % i

 print '  %dummy = load volatile i32, i32 *@global'
 print '  ret void'
 print '}'
	# Test 64-bit COMPARE LOGICAL AND BRANCH in cases where the sheer number of
	# instructions causes some branches to be out of range.
	# RUN: python %s \| llc -mtriple=s390x-linux-gnu \| FileCheck %s

	# Construct:
	#
	# before0:
	# conditional branch to after0
	# ...
	# beforeN:
	# conditional branch to after0
	# main:
	# 0xffcc bytes, from MVIY instructions
	# conditional branch to main
	# after0:
	# ...
	# conditional branch to main
	# afterN:
	#
	# Each conditional branch sequence occupies 12 bytes if it uses a short
	# branch and 16 if it uses a long one. The ones before "main:" have to
	# take the branch length into account, which is 6 for short branches,
	# so the final (0x34 - 6) / 12 == 3 blocks can use short branches.
	# The ones after "main:" do not, so the first 0x34 / 12 == 4 blocks
	# can use short branches. The conservative algorithm we use makes
	# one of the forward branches unnecessarily long, as noted in the
	# check output below.
	#
	# CHECK: lgb [[REG:%r[0-5]]], 0(%r3)
	# CHECK: clgr %r4, [[REG]]
	# CHECK: jgl [[LABEL:\.L[^ ]*]]
	# CHECK: lgb [[REG:%r[0-5]]], 1(%r3)
	# CHECK: clgr %r4, [[REG]]
	# CHECK: jgl [[LABEL]]
	# CHECK: lgb [[REG:%r[0-5]]], 2(%r3)
	# CHECK: clgr %r4, [[REG]]
	# CHECK: jgl [[LABEL]]
	# CHECK: lgb [[REG:%r[0-5]]], 3(%r3)
	# CHECK: clgr %r4, [[REG]]
	# CHECK: jgl [[LABEL]]
	# CHECK: lgb [[REG:%r[0-5]]], 4(%r3)
	# CHECK: clgr %r4, [[REG]]
	# CHECK: jgl [[LABEL]]
	# ...as mentioned above, the next one could be a CLGRJL instead...
	# CHECK: lgb [[REG:%r[0-5]]], 5(%r3)
	# CHECK: clgr %r4, [[REG]]
	# CHECK: jgl [[LABEL]]
	# CHECK: lgb [[REG:%r[0-5]]], 6(%r3)
	# CHECK: clgrjl %r4, [[REG]], [[LABEL]]
	# CHECK: lgb [[REG:%r[0-5]]], 7(%r3)
	# CHECK: clgrjl %r4, [[REG]], [[LABEL]]
	# ...main goes here...
	# CHECK: lgb [[REG:%r[0-5]]], 25(%r3)
	# CHECK: clgrjl %r4, [[REG]], [[LABEL:\.L[^ ]*]]
	# CHECK: lgb [[REG:%r[0-5]]], 26(%r3)
	# CHECK: clgrjl %r4, [[REG]], [[LABEL]]
	# CHECK: lgb [[REG:%r[0-5]]], 27(%r3)
	# CHECK: clgrjl %r4, [[REG]], [[LABEL]]
	# CHECK: lgb [[REG:%r[0-5]]], 28(%r3)
	# CHECK: clgrjl %r4, [[REG]], [[LABEL]]
	# CHECK: lgb [[REG:%r[0-5]]], 29(%r3)
	# CHECK: clgr %r4, [[REG]]
	# CHECK: jgl [[LABEL]]
	# CHECK: lgb [[REG:%r[0-5]]], 30(%r3)
	# CHECK: clgr %r4, [[REG]]
	# CHECK: jgl [[LABEL]]
	# CHECK: lgb [[REG:%r[0-5]]], 31(%r3)
	# CHECK: clgr %r4, [[REG]]
	# CHECK: jgl [[LABEL]]
	# CHECK: lgb [[REG:%r[0-5]]], 32(%r3)
	# CHECK: clgr %r4, [[REG]]
	# CHECK: jgl [[LABEL]]

	branch_blocks = 8
	main_size = 0xffcc

	print '@global = global i32 0'

	print 'define void @f1(i8 %base, i8 %stop, i64 %limit) {'
	print 'entry:'
	print ' br label %before0'
	print ''

	for i in xrange(branch_blocks):
	next = 'before%d' % (i + 1) if i + 1 < branch_blocks else 'main'
	print 'before%d:' % i
	print ' %%bstop%d = getelementptr i8, i8 *%%stop, i64 %d' % (i, i)
	print ' %%bcur%d = load i8 , i8 *%%bstop%d' % (i, i)
	print ' %%bext%d = sext i8 %%bcur%d to i64' % (i, i)
	print ' %%btest%d = icmp ult i64 %%limit, %%bext%d' % (i, i)
	print ' br i1 %%btest%d, label %%after0, label %%%s' % (i, next)
	print ''

	print '%s:' % next
	a, b = 1, 1
	for i in xrange(0, main_size, 6):
	a, b = b, a + b
	offset = 4096 + b % 500000
	value = a % 256
	print ' %%ptr%d = getelementptr i8, i8 *%%base, i64 %d' % (i, offset)
	print ' store volatile i8 %d, i8 *%%ptr%d' % (value, i)

	for i in xrange(branch_blocks):
	print ' %%astop%d = getelementptr i8, i8 *%%stop, i64 %d' % (i, i + 25)
	print ' %%acur%d = load i8 , i8 *%%astop%d' % (i, i)
	print ' %%aext%d = sext i8 %%acur%d to i64' % (i, i)
	print ' %%atest%d = icmp ult i64 %%limit, %%aext%d' % (i, i)
	print ' br i1 %%atest%d, label %%main, label %%after%d' % (i, i)
	print ''
	print 'after%d:' % i

	print ' %dummy = load volatile i32, i32 *@global'
	print ' ret void'
	print '}'