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convert_checked.carbon

convert_checked.carbon 20 KB
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  1. // Part of the Carbon Language project, under the Apache License v2.0 with LLVM
    2. 

  2. // Exceptions. See /LICENSE for license information.
    3. 

  3. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
    4. 

  4. //
    5. 

  5. // EXTRA-ARGS: --dump-sem-ir-ranges=only
    6. 

  6. //
    7. 

  7. // AUTOUPDATE
    8. 

  8. // TIP: To test this file alone, run:
    9. 

  9. // TIP:   bazel test //toolchain/testing:file_test --test_arg=--file_tests=toolchain/check/testdata/builtins/int/convert_checked.carbon
    10. 

  10. // TIP: To dump output, run:
    11. 

  11. // TIP:   bazel run //toolchain/testing:file_test -- --dump_output --file_tests=toolchain/check/testdata/builtins/int/convert_checked.carbon
    12. 

  12. 

  13. // --- int_ops.carbon
    14. 

  14. 

  15. library "[[@TEST_NAME]]";
    16. 

  16. 

  17. fn NegateI32(a: i32) -> i32 = "int.snegate";
    18. 

  18. fn SubI32(a: i32, b: i32) -> i32 = "int.ssub";
    19. 

  19. fn AddU32(a: u32, b: u32) -> u32 = "int.uadd";
    20. 

  20. fn IntLiteral() -> type = "int_literal.make_type";
    21. 

  21. 

  22. // Size preserving
    23. 

  23. fn Int32ToInt32(a: i32) -> i32 = "int.convert_checked";
    24. 

  24. fn Int32ToUint32(a: i32) -> u32 = "int.convert_checked";
    25. 

  25. fn Uint32ToInt32(a: u32) -> i32 = "int.convert_checked";
    26. 

  26. fn Uint32ToUint32(a: u32) -> u32 = "int.convert_checked";
    27. 

  27. fn IntLiteralToIntLiteral(a: IntLiteral()) -> IntLiteral() =
    28. 

  28.     "int.convert_checked";
    29. 

  29. 

  30. // Narrowing
    31. 

  31. fn Int32ToInt16(a: i32) -> i16 = "int.convert_checked";
    32. 

  32. fn Int32ToUint16(a: i32) -> u16 = "int.convert_checked";
    33. 

  33. fn Uint32ToInt16(a: u32) -> i16 = "int.convert_checked";
    34. 

  34. fn Uint32ToUint16(a: u32) -> u16 = "int.convert_checked";
    35. 

  35. fn IntLiteralToInt16(a: IntLiteral()) -> i16 = "int.convert_checked";
    36. 

  36. fn IntLiteralToUint16(a: IntLiteral()) -> u16 = "int.convert_checked";
    37. 

  37. 

  38. // Widening
    39. 

  39. fn Int32ToInt64(a: i32) -> i64 = "int.convert_checked";
    40. 

  40. fn Int32ToUint64(a: i32) -> u64 = "int.convert_checked";
    41. 

  41. fn Uint32ToInt64(a: u32) -> i64 = "int.convert_checked";
    42. 

  42. fn Uint32ToUint64(a: u32) -> u64 = "int.convert_checked";
    43. 

  43. fn Int32ToIntLiteral(a: i32) -> IntLiteral() = "int.convert_checked";
    44. 

  44. fn Uint32ToUintLiteral(a: u32) -> IntLiteral() = "int.convert_checked";
    45. 

  45. 

  46. // --- runtime_call.carbon
    47. 

  47. 

  48. library "[[@TEST_NAME]]";
    49. 

  49. import library "int_ops";
    50. 

  50. 

  51. //@dump-sem-ir-begin
    52. 

  52. let SizePreserving: u32 = Int32ToUint32(1);
    53. 

  53. let Narrowing: i16 = Int32ToInt16(1);
    54. 

  54. let Widening: i64 = Int32ToInt64(1);
    55. 

  55. //@dump-sem-ir-end
    56. 

  56. 

  57. // --- identity.carbon
    58. 

  58. 

  59. library "[[@TEST_NAME]]";
    60. 

  60. import library "int_ops";
    61. 

  61. 

  62. let a: i32 = Int32ToInt32(0);
    63. 

  63. let b: i32 = Int32ToInt32(0x7FFF_FFFF);
    64. 

  64. let c: i32 = Int32ToInt32(SubI32(NegateI32(0x7FFF_FFFF), 1));
    65. 

  65. let d: IntLiteral() = IntLiteralToIntLiteral(Int32ToIntLiteral(NegateI32(1)));
    66. 

  66. 

  67. // --- same_size.carbon
    68. 

  68. 

  69. library "[[@TEST_NAME]]";
    70. 

  70. import library "int_ops";
    71. 

  71. 

  72. let max: u32 = Int32ToUint32(0x7FFF_FFFF);
    73. 

  73. let max_roundtrip: i32 = Uint32ToInt32(Int32ToUint32(0x7FFF_FFFF));
    74. 

  74. 

  75. // --- truncate.carbon
    76. 

  76. 

  77. library "[[@TEST_NAME]]";
    78. 

  78. import library "int_ops";
    79. 

  79. 

  80. let a: u16 = Int32ToUint16(0);
    81. 

  81. let b: u16 = Int32ToUint16(0xFFFF);
    82. 

  82. 

  83. let c: i16 = Int32ToInt16(0x7FFF);
    84. 

  84. let d: i16 = Int32ToInt16(NegateI32(0x8000));
    85. 

  85. 

  86. let e: u16 = Uint32ToUint16(Int32ToUint32(0));
    87. 

  87. let f: u16 = Uint32ToUint16(Int32ToUint32(0xFFFF));
    88. 

  88. 

  89. let g: i16 = Uint32ToInt16(Int32ToUint32(0));
    90. 

  90. let h: i16 = Uint32ToInt16(Int32ToUint32(0x7FFF));
    91. 

  91. 

  92. let lit_i16_min: i16 = IntLiteralToInt16(Int32ToIntLiteral(NegateI32(0x8000)));
    93. 

  93. let lit_i16_max: i16 = IntLiteralToInt16(Int32ToIntLiteral(0x7FFF));
    94. 

  94. 

  95. let lit_u16_min: u16 = IntLiteralToUint16(Int32ToIntLiteral(0));
    96. 

  96. let lit_u16_max: u16 = IntLiteralToUint16(Int32ToIntLiteral(0xFFFF));
    97. 

  97. 

  98. // --- zero_extend.carbon
    99. 

  99. 

  100. library "[[@TEST_NAME]]";
    101. 

  101. import library "int_ops";
    102. 

  102. 

  103. let a: u64 = Uint32ToUint64(Int32ToUint32(0));
    104. 

  104. let b: u64 = Uint32ToUint64(
    105. 

  105.   AddU32(
    106. 

  106.     AddU32(Int32ToUint32(0x7FFF_FFFF), Int32ToUint32(0x7FFF_FFFF)),
    107. 

  107.     Int32ToUint32(1)));
    108. 

  108. 

  109. let c: i64 = Uint32ToInt64(Int32ToUint32(0));
    110. 

  110. let d: i64 = Uint32ToInt64(
    111. 

  111.   AddU32(
    112. 

  112.     AddU32(Int32ToUint32(0x7FFF_FFFF), Int32ToUint32(0x7FFF_FFFF)),
    113. 

  113.     Int32ToUint32(1)));
    114. 

  114. 

  115. // --- sign_extend.carbon
    116. 

  116. 

  117. library "[[@TEST_NAME]]";
    118. 

  118. import library "int_ops";
    119. 

  119. 

  120. let a: u64 = Int32ToUint64(0);
    121. 

  121. let b: u64 = Int32ToUint64(0x7FFF_FFFF);
    122. 

  122. 

  123. let c: i64 = Int32ToInt64(SubI32(NegateI32(0x7FFF_FFFF), 1));
    124. 

  124. let d: i64 = Int32ToInt64(0x7FFF_FFFF);
    125. 

  125. 

  126. // --- fail_too_large_u32_for_i32.carbon
    127. 

  127. 

  128. library "[[@TEST_NAME]]";
    129. 

  129. import library "int_ops";
    130. 

  130. 

  131. let max_plus_one: i32 =
    132. 

  132.   // CHECK:STDERR: fail_too_large_u32_for_i32.carbon:[[@LINE+4]]:3: error: integer value 2147483648 too large for type `i32` [IntTooLargeForType]
    133. 

  133.   // CHECK:STDERR:   Uint32ToInt32(
    134. 

  134.   // CHECK:STDERR:   ^~~~~~~~~~~~~~
    135. 

  135.   // CHECK:STDERR:
    136. 

  136.   Uint32ToInt32(
    137. 

  137.     AddU32(Int32ToUint32(0x7FFF_FFFF),
    138. 

  138.            Int32ToUint32(1)));
    139. 

  139. 

  140. // --- fail_too_large_i32_for_i16.carbon
    141. 

  141. 

  142. library "[[@TEST_NAME]]";
    143. 

  143. import library "int_ops";
    144. 

  144. 

  145. // CHECK:STDERR: fail_too_large_i32_for_i16.carbon:[[@LINE+4]]:25: error: integer value 32768 too large for type `i16` [IntTooLargeForType]
    146. 

  146. // CHECK:STDERR: let max_plus_one: i16 = Int32ToInt16(0x8000);
    147. 

  147. // CHECK:STDERR:                         ^~~~~~~~~~~~~~~~~~~~
    148. 

  148. // CHECK:STDERR:
    149. 

  149. let max_plus_one: i16 = Int32ToInt16(0x8000);
    150. 

  150. 

  151. // --- fail_too_large_i32_for_u16.carbon
    152. 

  152. 

  153. library "[[@TEST_NAME]]";
    154. 

  154. import library "int_ops";
    155. 

  155. 

  156. // CHECK:STDERR: fail_too_large_i32_for_u16.carbon:[[@LINE+4]]:25: error: integer value 65536 too large for type `u16` [IntTooLargeForType]
    157. 

  157. // CHECK:STDERR: let max_plus_one: u16 = Int32ToUint16(0x1_0000);
    158. 

  158. // CHECK:STDERR:                         ^~~~~~~~~~~~~~~~~~~~~~~
    159. 

  159. // CHECK:STDERR:
    160. 

  160. let max_plus_one: u16 = Int32ToUint16(0x1_0000);
    161. 

  161. 

  162. // --- fail_too_large_u32_for_i16.carbon
    163. 

  163. 

  164. library "[[@TEST_NAME]]";
    165. 

  165. import library "int_ops";
    166. 

  166. 

  167. // CHECK:STDERR: fail_too_large_u32_for_i16.carbon:[[@LINE+4]]:25: error: integer value 32768 too large for type `i16` [IntTooLargeForType]
    168. 

  168. // CHECK:STDERR: let max_plus_one: i16 = Uint32ToInt16(Int32ToUint32(0x8000));
    169. 

  169. // CHECK:STDERR:                         ^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
    170. 

  170. // CHECK:STDERR:
    171. 

  171. let max_plus_one: i16 = Uint32ToInt16(Int32ToUint32(0x8000));
    172. 

  172. 

  173. // --- fail_too_large_u32_for_u16.carbon
    174. 

  174. 

  175. library "[[@TEST_NAME]]";
    176. 

  176. import library "int_ops";
    177. 

  177. 

  178. // CHECK:STDERR: fail_too_large_u32_for_u16.carbon:[[@LINE+4]]:25: error: integer value 65536 too large for type `u16` [IntTooLargeForType]
    179. 

  179. // CHECK:STDERR: let max_plus_one: u16 = Uint32ToUint16(Int32ToUint32(0x1_0000));
    180. 

  180. // CHECK:STDERR:                         ^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
    181. 

  181. // CHECK:STDERR:
    182. 

  182. let max_plus_one: u16 = Uint32ToUint16(Int32ToUint32(0x1_0000));
    183. 

  183. 

  184. // --- fail_negative_i32_to_u16.carbon
    185. 

  185. 

  186. library "[[@TEST_NAME]]";
    187. 

  187. import library "int_ops";
    188. 

  188. 

  189. // CHECK:STDERR: fail_negative_i32_to_u16.carbon:[[@LINE+4]]:29: error: negative integer value -1 converted to unsigned type `u16` [NegativeIntInUnsignedType]
    190. 

  190. // CHECK:STDERR: let minus_one_to_u16: u16 = Int32ToUint16(SubI32(0, 1));
    191. 

  191. // CHECK:STDERR:                             ^~~~~~~~~~~~~~~~~~~~~~~~~~~
    192. 

  192. // CHECK:STDERR:
    193. 

  193. let minus_one_to_u16: u16 = Int32ToUint16(SubI32(0, 1));
    194. 

  194. 

  195. // --- fail_negative_i32_to_u32.carbon
    196. 

  196. 

  197. library "[[@TEST_NAME]]";
    198. 

  198. import library "int_ops";
    199. 

  199. 

  200. // CHECK:STDERR: fail_negative_i32_to_u32.carbon:[[@LINE+4]]:29: error: negative integer value -1 converted to unsigned type `u32` [NegativeIntInUnsignedType]
    201. 

  201. // CHECK:STDERR: let minus_one_to_u32: u32 = Int32ToUint32(SubI32(0, 1));
    202. 

  202. // CHECK:STDERR:                             ^~~~~~~~~~~~~~~~~~~~~~~~~~~
    203. 

  203. // CHECK:STDERR:
    204. 

  204. let minus_one_to_u32: u32 = Int32ToUint32(SubI32(0, 1));
    205. 

  205. 

  206. // --- fail_negative_i32_to_u64.carbon
    207. 

  207. 

  208. library "[[@TEST_NAME]]";
    209. 

  209. import library "int_ops";
    210. 

  210. 

  211. // CHECK:STDERR: fail_negative_i32_to_u64.carbon:[[@LINE+4]]:29: error: negative integer value -1 converted to unsigned type `u64` [NegativeIntInUnsignedType]
    212. 

  212. // CHECK:STDERR: let minus_one_to_u64: u64 = Int32ToUint64(SubI32(0, 1));
    213. 

  213. // CHECK:STDERR:                             ^~~~~~~~~~~~~~~~~~~~~~~~~~~
    214. 

  214. // CHECK:STDERR:
    215. 

  215. let minus_one_to_u64: u64 = Int32ToUint64(SubI32(0, 1));
    216. 

  216. 

  217. // --- fail_too_small_i32_for_i16.carbon
    218. 

  218. 

  219. library "[[@TEST_NAME]]";
    220. 

  220. import library "int_ops";
    221. 

  221. 

  222. // CHECK:STDERR: fail_too_small_i32_for_i16.carbon:[[@LINE+4]]:26: error: integer value -32769 too large for type `i16` [IntTooLargeForType]
    223. 

  223. // CHECK:STDERR: let min_minus_one: i16 = Int32ToInt16(NegateI32(0x8001));
    224. 

  224. // CHECK:STDERR:                          ^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
    225. 

  225. // CHECK:STDERR:
    226. 

  226. let min_minus_one: i16 = Int32ToInt16(NegateI32(0x8001));
    227. 

  227. 

  228. // --- fail_not_constant.carbon
    229. 

  229. 

  230. library "[[@TEST_NAME]]";
    231. 

  231. import library "int_ops";
    232. 

  232. 

  233. let not_constant: i32 = 0;
    234. 

  234. 

  235. // CHECK:STDERR: fail_not_constant.carbon:[[@LINE+8]]:40: error: non-constant call to compile-time-only function [NonConstantCallToCompTimeOnlyFunction]
    236. 

  236. // CHECK:STDERR: let convert_not_constant_narrow: i16 = Int32ToInt16(not_constant);
    237. 

  237. // CHECK:STDERR:                                        ^~~~~~~~~~~~~~~~~~~~~~~~~~
    238. 

  238. // CHECK:STDERR: fail_not_constant.carbon:[[@LINE-7]]:1: in import [InImport]
    239. 

  239. // CHECK:STDERR: int_ops.carbon:18:1: note: compile-time-only function declared here [CompTimeOnlyFunctionHere]
    240. 

  240. // CHECK:STDERR: fn Int32ToInt16(a: i32) -> i16 = "int.convert_checked";
    241. 

  241. // CHECK:STDERR: ^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
    242. 

  242. // CHECK:STDERR:
    243. 

  243. let convert_not_constant_narrow: i16 = Int32ToInt16(not_constant);
    244. 

  244. 

  245. // CHECK:STDERR: fail_not_constant.carbon:[[@LINE+8]]:38: error: non-constant call to compile-time-only function [NonConstantCallToCompTimeOnlyFunction]
    246. 

  246. // CHECK:STDERR: let convert_not_constant_same: i32 = Int32ToInt32(not_constant);
    247. 

  247. // CHECK:STDERR:                                      ^~~~~~~~~~~~~~~~~~~~~~~~~~
    248. 

  248. // CHECK:STDERR: fail_not_constant.carbon:[[@LINE-17]]:1: in import [InImport]
    249. 

  249. // CHECK:STDERR: int_ops.carbon:10:1: note: compile-time-only function declared here [CompTimeOnlyFunctionHere]
    250. 

  250. // CHECK:STDERR: fn Int32ToInt32(a: i32) -> i32 = "int.convert_checked";
    251. 

  251. // CHECK:STDERR: ^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
    252. 

  252. // CHECK:STDERR:
    253. 

  253. let convert_not_constant_same: i32 = Int32ToInt32(not_constant);
    254. 

  254. 

  255. // CHECK:STDERR: fail_not_constant.carbon:[[@LINE+8]]:39: error: non-constant call to compile-time-only function [NonConstantCallToCompTimeOnlyFunction]
    256. 

  256. // CHECK:STDERR: let convert_not_constant_widen: i64 = Int32ToInt64(not_constant);
    257. 

  257. // CHECK:STDERR:                                       ^~~~~~~~~~~~~~~~~~~~~~~~~~
    258. 

  258. // CHECK:STDERR: fail_not_constant.carbon:[[@LINE-27]]:1: in import [InImport]
    259. 

  259. // CHECK:STDERR: int_ops.carbon:26:1: note: compile-time-only function declared here [CompTimeOnlyFunctionHere]
    260. 

  260. // CHECK:STDERR: fn Int32ToInt64(a: i32) -> i64 = "int.convert_checked";
    261. 

  261. // CHECK:STDERR: ^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
    262. 

  262. // CHECK:STDERR:
    263. 

  263. let convert_not_constant_widen: i64 = Int32ToInt64(not_constant);
    264. 

  264. 

  265. // CHECK:STDOUT: --- runtime_call.carbon
    266. 

  266. // CHECK:STDOUT:
    267. 

  267. // CHECK:STDOUT: constants {
    268. 

  268. // CHECK:STDOUT:   %int_32: Core.IntLiteral = int_value 32 [concrete]
    269. 

  269. // CHECK:STDOUT:   %u32: type = class_type @UInt, @UInt(%int_32) [concrete]
    270. 

  270. // CHECK:STDOUT:   %pattern_type.4a9: type = pattern_type %u32 [concrete]
    271. 

  271. // CHECK:STDOUT:   %Int32ToUint32.type: type = fn_type @Int32ToUint32 [concrete]
    272. 

  272. // CHECK:STDOUT:   %Int32ToUint32: %Int32ToUint32.type = struct_value () [concrete]
    273. 

  273. // CHECK:STDOUT:   %i32: type = class_type @Int, @Int(%int_32) [concrete]
    274. 

  274. // CHECK:STDOUT:   %int_1.5b8: Core.IntLiteral = int_value 1 [concrete]
    275. 

  275. // CHECK:STDOUT:   %ImplicitAs.type.9ba: type = facet_type <@ImplicitAs, @ImplicitAs(%i32)> [concrete]
    276. 

  276. // CHECK:STDOUT:   %Convert.type.6da: type = fn_type @Convert.1, @ImplicitAs(%i32) [concrete]
    277. 

  277. // CHECK:STDOUT:   %To.c80: Core.IntLiteral = bind_symbolic_name To, 0 [symbolic]
    278. 

  278. // CHECK:STDOUT:   %Convert.type.0b2: type = fn_type @Convert.2, @impl.c81(%To.c80) [symbolic]
    279. 

  279. // CHECK:STDOUT:   %Convert.6d7: %Convert.type.0b2 = struct_value () [symbolic]
    280. 

  280. // CHECK:STDOUT:   %ImplicitAs.impl_witness.e34: <witness> = impl_witness imports.%ImplicitAs.impl_witness_table.e36, @impl.c81(%int_32) [concrete]
    281. 

  281. // CHECK:STDOUT:   %Convert.type.ed5: type = fn_type @Convert.2, @impl.c81(%int_32) [concrete]
    282. 

  282. // CHECK:STDOUT:   %Convert.16d: %Convert.type.ed5 = struct_value () [concrete]
    283. 

  283. // CHECK:STDOUT:   %ImplicitAs.facet: %ImplicitAs.type.9ba = facet_value Core.IntLiteral, (%ImplicitAs.impl_witness.e34) [concrete]
    284. 

  284. // CHECK:STDOUT:   %.d6a: type = fn_type_with_self_type %Convert.type.6da, %ImplicitAs.facet [concrete]
    285. 

  285. // CHECK:STDOUT:   %Convert.bound: <bound method> = bound_method %int_1.5b8, %Convert.16d [concrete]
    286. 

  286. // CHECK:STDOUT:   %Convert.specific_fn: <specific function> = specific_function %Convert.16d, @Convert.2(%int_32) [concrete]
    287. 

  287. // CHECK:STDOUT:   %bound_method: <bound method> = bound_method %int_1.5b8, %Convert.specific_fn [concrete]
    288. 

  288. // CHECK:STDOUT:   %int_1.47b: %i32 = int_value 1 [concrete]
    289. 

  289. // CHECK:STDOUT:   %int_1.c1d: %u32 = int_value 1 [concrete]
    290. 

  290. // CHECK:STDOUT:   %int_16: Core.IntLiteral = int_value 16 [concrete]
    291. 

  291. // CHECK:STDOUT:   %i16: type = class_type @Int, @Int(%int_16) [concrete]
    292. 

  292. // CHECK:STDOUT:   %pattern_type.88f: type = pattern_type %i16 [concrete]
    293. 

  293. // CHECK:STDOUT:   %Int32ToInt16.type: type = fn_type @Int32ToInt16 [concrete]
    294. 

  294. // CHECK:STDOUT:   %Int32ToInt16: %Int32ToInt16.type = struct_value () [concrete]
    295. 

  295. // CHECK:STDOUT:   %int_1.c22: %i16 = int_value 1 [concrete]
    296. 

  296. // CHECK:STDOUT:   %int_64: Core.IntLiteral = int_value 64 [concrete]
    297. 

  297. // CHECK:STDOUT:   %i64: type = class_type @Int, @Int(%int_64) [concrete]
    298. 

  298. // CHECK:STDOUT:   %pattern_type.a10: type = pattern_type %i64 [concrete]
    299. 

  299. // CHECK:STDOUT:   %Int32ToInt64.type: type = fn_type @Int32ToInt64 [concrete]
    300. 

  300. // CHECK:STDOUT:   %Int32ToInt64: %Int32ToInt64.type = struct_value () [concrete]
    301. 

  301. // CHECK:STDOUT:   %int_1.a95: %i64 = int_value 1 [concrete]
    302. 

  302. // CHECK:STDOUT: }
    303. 

  303. // CHECK:STDOUT:
    304. 

  304. // CHECK:STDOUT: imports {
    305. 

  305. // CHECK:STDOUT:   %Main.Int32ToUint32: %Int32ToUint32.type = import_ref Main//int_ops, Int32ToUint32, loaded [concrete = constants.%Int32ToUint32]
    306. 

  306. // CHECK:STDOUT:   %Main.Int32ToInt16: %Int32ToInt16.type = import_ref Main//int_ops, Int32ToInt16, loaded [concrete = constants.%Int32ToInt16]
    307. 

  307. // CHECK:STDOUT:   %Main.Int32ToInt64: %Int32ToInt64.type = import_ref Main//int_ops, Int32ToInt64, loaded [concrete = constants.%Int32ToInt64]
    308. 

  308. // CHECK:STDOUT:   %Core.import_ref.a86: @impl.c81.%Convert.type (%Convert.type.0b2) = import_ref Core//prelude/types/int, loc19_39, loaded [symbolic = @impl.c81.%Convert (constants.%Convert.6d7)]
    309. 

  309. // CHECK:STDOUT:   %ImplicitAs.impl_witness_table.e36 = impl_witness_table (%Core.import_ref.a86), @impl.c81 [concrete]
    310. 

  310. // CHECK:STDOUT: }
    311. 

  311. // CHECK:STDOUT:
    312. 

  312. // CHECK:STDOUT: file {
    313. 

  313. // CHECK:STDOUT:   name_binding_decl {
    314. 

  314. // CHECK:STDOUT:     %SizePreserving.patt: %pattern_type.4a9 = binding_pattern SizePreserving [concrete]
    315. 

  315. // CHECK:STDOUT:   }
    316. 

  316. // CHECK:STDOUT:   %.loc6_21: type = splice_block %u32 [concrete = constants.%u32] {
    317. 

  317. // CHECK:STDOUT:     %int_32: Core.IntLiteral = int_value 32 [concrete = constants.%int_32]
    318. 

  318. // CHECK:STDOUT:     %u32: type = class_type @UInt, @UInt(constants.%int_32) [concrete = constants.%u32]
    319. 

  319. // CHECK:STDOUT:   }
    320. 

  320. // CHECK:STDOUT:   %.loc6_42.1: ref %u32 = temporary_storage
    321. 

  321. // CHECK:STDOUT:   %.loc6_42.2: ref %u32 = temporary %.loc6_42.1, @__global_init.%int.convert_checked.loc6_42
    322. 

  322. // CHECK:STDOUT:   %SizePreserving: ref %u32 = bind_name SizePreserving, %.loc6_42.2
    323. 

  323. // CHECK:STDOUT:   name_binding_decl {
    324. 

  324. // CHECK:STDOUT:     %Narrowing.patt: %pattern_type.88f = binding_pattern Narrowing [concrete]
    325. 

  325. // CHECK:STDOUT:   }
    326. 

  326. // CHECK:STDOUT:   %.loc7_16: type = splice_block %i16 [concrete = constants.%i16] {
    327. 

  327. // CHECK:STDOUT:     %int_16: Core.IntLiteral = int_value 16 [concrete = constants.%int_16]
    328. 

  328. // CHECK:STDOUT:     %i16: type = class_type @Int, @Int(constants.%int_16) [concrete = constants.%i16]
    329. 

  329. // CHECK:STDOUT:   }
    330. 

  330. // CHECK:STDOUT:   %.loc7_36.1: ref %i16 = temporary_storage
    331. 

  331. // CHECK:STDOUT:   %.loc7_36.2: ref %i16 = temporary %.loc7_36.1, @__global_init.%int.convert_checked.loc7_36
    332. 

  332. // CHECK:STDOUT:   %Narrowing: ref %i16 = bind_name Narrowing, %.loc7_36.2
    333. 

  333. // CHECK:STDOUT:   name_binding_decl {
    334. 

  334. // CHECK:STDOUT:     %Widening.patt: %pattern_type.a10 = binding_pattern Widening [concrete]
    335. 

  335. // CHECK:STDOUT:   }
    336. 

  336. // CHECK:STDOUT:   %.loc8_15: type = splice_block %i64 [concrete = constants.%i64] {
    337. 

  337. // CHECK:STDOUT:     %int_64: Core.IntLiteral = int_value 64 [concrete = constants.%int_64]
    338. 

  338. // CHECK:STDOUT:     %i64: type = class_type @Int, @Int(constants.%int_64) [concrete = constants.%i64]
    339. 

  339. // CHECK:STDOUT:   }
    340. 

  340. // CHECK:STDOUT:   %.loc8_35.1: ref %i64 = temporary_storage
    341. 

  341. // CHECK:STDOUT:   %.loc8_35.2: ref %i64 = temporary %.loc8_35.1, @__global_init.%int.convert_checked.loc8_35
    342. 

  342. // CHECK:STDOUT:   %Widening: ref %i64 = bind_name Widening, %.loc8_35.2
    343. 

  343. // CHECK:STDOUT: }
    344. 

  344. // CHECK:STDOUT:
    345. 

  345. // CHECK:STDOUT: fn @__global_init() {
    346. 

  346. // CHECK:STDOUT: !entry:
    347. 

  347. // CHECK:STDOUT:   %Int32ToUint32.ref: %Int32ToUint32.type = name_ref Int32ToUint32, imports.%Main.Int32ToUint32 [concrete = constants.%Int32ToUint32]
    348. 

  348. // CHECK:STDOUT:   %int_1.loc6: Core.IntLiteral = int_value 1 [concrete = constants.%int_1.5b8]
    349. 

  349. // CHECK:STDOUT:   %impl.elem0.loc6: %.d6a = impl_witness_access constants.%ImplicitAs.impl_witness.e34, element0 [concrete = constants.%Convert.16d]
    350. 

  350. // CHECK:STDOUT:   %bound_method.loc6_41.1: <bound method> = bound_method %int_1.loc6, %impl.elem0.loc6 [concrete = constants.%Convert.bound]
    351. 

  351. // CHECK:STDOUT:   %specific_fn.loc6: <specific function> = specific_function %impl.elem0.loc6, @Convert.2(constants.%int_32) [concrete = constants.%Convert.specific_fn]
    352. 

  352. // CHECK:STDOUT:   %bound_method.loc6_41.2: <bound method> = bound_method %int_1.loc6, %specific_fn.loc6 [concrete = constants.%bound_method]
    353. 

  353. // CHECK:STDOUT:   %int.convert_checked.loc6_41: init %i32 = call %bound_method.loc6_41.2(%int_1.loc6) [concrete = constants.%int_1.47b]
    354. 

  354. // CHECK:STDOUT:   %.loc6_41.1: %i32 = value_of_initializer %int.convert_checked.loc6_41 [concrete = constants.%int_1.47b]
    355. 

  355. // CHECK:STDOUT:   %.loc6_41.2: %i32 = converted %int_1.loc6, %.loc6_41.1 [concrete = constants.%int_1.47b]
    356. 

  356. // CHECK:STDOUT:   %int.convert_checked.loc6_42: init %u32 = call %Int32ToUint32.ref(%.loc6_41.2) [concrete = constants.%int_1.c1d]
    357. 

  357. // CHECK:STDOUT:   %Int32ToInt16.ref: %Int32ToInt16.type = name_ref Int32ToInt16, imports.%Main.Int32ToInt16 [concrete = constants.%Int32ToInt16]
    358. 

  358. // CHECK:STDOUT:   %int_1.loc7: Core.IntLiteral = int_value 1 [concrete = constants.%int_1.5b8]
    359. 

  359. // CHECK:STDOUT:   %impl.elem0.loc7: %.d6a = impl_witness_access constants.%ImplicitAs.impl_witness.e34, element0 [concrete = constants.%Convert.16d]
    360. 

  360. // CHECK:STDOUT:   %bound_method.loc7_35.1: <bound method> = bound_method %int_1.loc7, %impl.elem0.loc7 [concrete = constants.%Convert.bound]
    361. 

  361. // CHECK:STDOUT:   %specific_fn.loc7: <specific function> = specific_function %impl.elem0.loc7, @Convert.2(constants.%int_32) [concrete = constants.%Convert.specific_fn]
    362. 

  362. // CHECK:STDOUT:   %bound_method.loc7_35.2: <bound method> = bound_method %int_1.loc7, %specific_fn.loc7 [concrete = constants.%bound_method]
    363. 

  363. // CHECK:STDOUT:   %int.convert_checked.loc7_35: init %i32 = call %bound_method.loc7_35.2(%int_1.loc7) [concrete = constants.%int_1.47b]
    364. 

  364. // CHECK:STDOUT:   %.loc7_35.1: %i32 = value_of_initializer %int.convert_checked.loc7_35 [concrete = constants.%int_1.47b]
    365. 

  365. // CHECK:STDOUT:   %.loc7_35.2: %i32 = converted %int_1.loc7, %.loc7_35.1 [concrete = constants.%int_1.47b]
    366. 

  366. // CHECK:STDOUT:   %int.convert_checked.loc7_36: init %i16 = call %Int32ToInt16.ref(%.loc7_35.2) [concrete = constants.%int_1.c22]
    367. 

  367. // CHECK:STDOUT:   %Int32ToInt64.ref: %Int32ToInt64.type = name_ref Int32ToInt64, imports.%Main.Int32ToInt64 [concrete = constants.%Int32ToInt64]
    368. 

  368. // CHECK:STDOUT:   %int_1.loc8: Core.IntLiteral = int_value 1 [concrete = constants.%int_1.5b8]
    369. 

  369. // CHECK:STDOUT:   %impl.elem0.loc8: %.d6a = impl_witness_access constants.%ImplicitAs.impl_witness.e34, element0 [concrete = constants.%Convert.16d]
    370. 

  370. // CHECK:STDOUT:   %bound_method.loc8_34.1: <bound method> = bound_method %int_1.loc8, %impl.elem0.loc8 [concrete = constants.%Convert.bound]
    371. 

  371. // CHECK:STDOUT:   %specific_fn.loc8: <specific function> = specific_function %impl.elem0.loc8, @Convert.2(constants.%int_32) [concrete = constants.%Convert.specific_fn]
    372. 

  372. // CHECK:STDOUT:   %bound_method.loc8_34.2: <bound method> = bound_method %int_1.loc8, %specific_fn.loc8 [concrete = constants.%bound_method]
    373. 

  373. // CHECK:STDOUT:   %int.convert_checked.loc8_34: init %i32 = call %bound_method.loc8_34.2(%int_1.loc8) [concrete = constants.%int_1.47b]
    374. 

  374. // CHECK:STDOUT:   %.loc8_34.1: %i32 = value_of_initializer %int.convert_checked.loc8_34 [concrete = constants.%int_1.47b]
    375. 

  375. // CHECK:STDOUT:   %.loc8_34.2: %i32 = converted %int_1.loc8, %.loc8_34.1 [concrete = constants.%int_1.47b]
    376. 

  376. // CHECK:STDOUT:   %int.convert_checked.loc8_35: init %i64 = call %Int32ToInt64.ref(%.loc8_34.2) [concrete = constants.%int_1.a95]
    377. 

  377. // CHECK:STDOUT:   <elided>
    378. 

  378. // CHECK:STDOUT: }
    379. 

  379. // CHECK:STDOUT:
    380.