/* ----------------------------------------------------------------------------- * * (c) The University of Glasgow, 1998-2004 * * Canned "Standard Form" Thunks * * This file is written in a subset of C--, extended with various * features specific to GHC. It is compiled by GHC directly. For the * syntax of .cmm files, see the parser in ghc/compiler/cmm/CmmParse.y. * * ---------------------------------------------------------------------------*/ #include "Cmm.h" #include "Updates.h" /* ----------------------------------------------------------------------------- The code for a thunk that simply extracts a field from a single-constructor datatype depends only on the offset of the field to be selected. Here we define some canned "selector" thunks that do just that; any selector thunk appearing in a program will refer to one of these instead of being compiled independently. The garbage collector spots selector thunks and reduces them if possible, in order to avoid space leaks resulting from lazy pattern matching. -------------------------------------------------------------------------- */ #ifdef PROFILING #define SAVE_CCS W_ saved_ccs; saved_ccs = CCCS; #define RESTORE_CCS CCCS = saved_ccs; #else #define SAVE_CCS /* nothing */ #define RESTORE_CCS /* nothing */ #endif /* * TODO: On return, we can use a more efficient * untagging (we know the constructor tag). * * When entering stg_sel_#_upd, we know R1 points to its closure, * so it's untagged. * The payload might be a thunk or a constructor, * so we enter it. * * When returning, we know for sure it is a constructor, * so we untag it before accessing the field. * */ #ifdef PROFILING // When profiling, we cannot shortcut by checking the tag, // because LDV profiling relies on entering closures to mark them as // "used". #define NEED_EVAL(__x__) 1 #else #define NEED_EVAL(__x__) GETTAG(__x__) == 0 #endif #define SELECTOR_CODE_UPD(offset) \ INFO_TABLE_SELECTOR(stg_sel_##offset##_upd, offset, THUNK_SELECTOR, "stg_sel_upd", "stg_sel_upd") \ (P_ node) \ { \ P_ selectee, field; \ TICK_ENT_DYN_THK(); \ STK_CHK_NP(node); \ UPD_BH_UPDATABLE(node); \ LDV_ENTER(node); \ selectee = StgThunk_payload(node,0); \ push (UPDATE_FRAME_FIELDS(,,stg_upd_frame_info,CCCS,0,node)) { \ ENTER_CCS_THUNK(node); \ if (NEED_EVAL(selectee)) { \ SAVE_CCS; \ (P_ constr) = call %GET_ENTRY(UNTAG_IF_PROF(selectee)) (selectee); \ RESTORE_CCS; \ selectee = constr; \ } \ field = StgClosure_payload(UNTAG(selectee),offset); \ jump stg_ap_0_fast(field); \ } \ } /* NOTE: no need to ENTER() here, we know the closure cannot evaluate to a function, because we're going to do a field selection on the result. */ SELECTOR_CODE_UPD(0) SELECTOR_CODE_UPD(1) SELECTOR_CODE_UPD(2) SELECTOR_CODE_UPD(3) SELECTOR_CODE_UPD(4) SELECTOR_CODE_UPD(5) SELECTOR_CODE_UPD(6) SELECTOR_CODE_UPD(7) SELECTOR_CODE_UPD(8) SELECTOR_CODE_UPD(9) SELECTOR_CODE_UPD(10) SELECTOR_CODE_UPD(11) SELECTOR_CODE_UPD(12) SELECTOR_CODE_UPD(13) SELECTOR_CODE_UPD(14) SELECTOR_CODE_UPD(15) #define SELECTOR_CODE_NOUPD(offset) \ INFO_TABLE_SELECTOR(stg_sel_##offset##_noupd, offset, THUNK_SELECTOR, "stg_sel_noupd", "stg_sel_noupd") \ (P_ node) \ { \ P_ selectee, field; \ TICK_ENT_DYN_THK(); \ STK_CHK_NP(node); \ UPD_BH_UPDATABLE(node); \ LDV_ENTER(node); \ selectee = StgThunk_payload(node,0); \ if (NEED_EVAL(selectee)) { \ ENTER_CCS_THUNK(node); \ SAVE_CCS; \ (P_ constr) = call %GET_ENTRY(selectee) (selectee); \ RESTORE_CCS; \ selectee = constr; \ } \ field = StgClosure_payload(UNTAG(selectee),offset); \ jump stg_ap_0_fast(field); \ } SELECTOR_CODE_NOUPD(0) SELECTOR_CODE_NOUPD(1) SELECTOR_CODE_NOUPD(2) SELECTOR_CODE_NOUPD(3) SELECTOR_CODE_NOUPD(4) SELECTOR_CODE_NOUPD(5) SELECTOR_CODE_NOUPD(6) SELECTOR_CODE_NOUPD(7) SELECTOR_CODE_NOUPD(8) SELECTOR_CODE_NOUPD(9) SELECTOR_CODE_NOUPD(10) SELECTOR_CODE_NOUPD(11) SELECTOR_CODE_NOUPD(12) SELECTOR_CODE_NOUPD(13) SELECTOR_CODE_NOUPD(14) SELECTOR_CODE_NOUPD(15) /* ----------------------------------------------------------------------------- Apply thunks An apply thunk is a thunk of the form let z = [x1...xn] \u x1...xn in ... We pre-compile some of these because the code is always the same. These have to be independent of the update frame size, so the code works when profiling etc. -------------------------------------------------------------------------- */ /* stg_ap_1_upd_info is a bit redundant, but there appears to be a bug * in the compiler that means stg_ap_1 is generated occasionally (ToDo) */ INFO_TABLE(stg_ap_1_upd,1,0,THUNK_1_0,"stg_ap_1_upd_info","stg_ap_1_upd_info") (P_ node) { TICK_ENT_DYN_THK(); STK_CHK_NP(node); UPD_BH_UPDATABLE(node); LDV_ENTER(node); push (UPDATE_FRAME_FIELDS(,,stg_upd_frame_info, CCCS, 0, node)) { ENTER_CCS_THUNK(node); jump stg_ap_0_fast (StgThunk_payload(node,0)); } } INFO_TABLE(stg_ap_2_upd,2,0,THUNK_2_0,"stg_ap_2_upd_info","stg_ap_2_upd_info") (P_ node) { TICK_ENT_DYN_THK(); STK_CHK_NP(node); UPD_BH_UPDATABLE(node); LDV_ENTER(node); push (UPDATE_FRAME_FIELDS(,,stg_upd_frame_info, CCCS, 0, node)) { ENTER_CCS_THUNK(node); jump stg_ap_p_fast (StgThunk_payload(node,0), StgThunk_payload(node,1)); } } INFO_TABLE(stg_ap_3_upd,3,0,THUNK,"stg_ap_3_upd_info","stg_ap_3_upd_info") (P_ node) { TICK_ENT_DYN_THK(); STK_CHK_NP(node); UPD_BH_UPDATABLE(node); LDV_ENTER(node); push (UPDATE_FRAME_FIELDS(,,stg_upd_frame_info, CCCS, 0, node)) { ENTER_CCS_THUNK(node); jump stg_ap_pp_fast (StgThunk_payload(node,0), StgThunk_payload(node,1), StgThunk_payload(node,2)); } } INFO_TABLE(stg_ap_4_upd,4,0,THUNK,"stg_ap_4_upd_info","stg_ap_4_upd_info") (P_ node) { TICK_ENT_DYN_THK(); STK_CHK_NP(node); UPD_BH_UPDATABLE(node); LDV_ENTER(node); push (UPDATE_FRAME_FIELDS(,,stg_upd_frame_info, CCCS, 0, node)) { ENTER_CCS_THUNK(node); jump stg_ap_ppp_fast (StgThunk_payload(node,0), StgThunk_payload(node,1), StgThunk_payload(node,2), StgThunk_payload(node,3)); } } INFO_TABLE(stg_ap_5_upd,5,0,THUNK,"stg_ap_5_upd_info","stg_ap_5_upd_info") (P_ node) { TICK_ENT_DYN_THK(); STK_CHK_NP(node); UPD_BH_UPDATABLE(node); LDV_ENTER(node); push (UPDATE_FRAME_FIELDS(,,stg_upd_frame_info, CCCS, 0, node)) { ENTER_CCS_THUNK(node); jump stg_ap_pppp_fast (StgThunk_payload(node,0), StgThunk_payload(node,1), StgThunk_payload(node,2), StgThunk_payload(node,3), StgThunk_payload(node,4)); } } INFO_TABLE(stg_ap_6_upd,6,0,THUNK,"stg_ap_6_upd_info","stg_ap_6_upd_info") (P_ node) { TICK_ENT_DYN_THK(); STK_CHK_NP(node); UPD_BH_UPDATABLE(node); LDV_ENTER(node); push (UPDATE_FRAME_FIELDS(,,stg_upd_frame_info, CCCS, 0, node)) { ENTER_CCS_THUNK(node); jump stg_ap_ppppp_fast (StgThunk_payload(node,0), StgThunk_payload(node,1), StgThunk_payload(node,2), StgThunk_payload(node,3), StgThunk_payload(node,4), StgThunk_payload(node,5)); } } INFO_TABLE(stg_ap_7_upd,7,0,THUNK,"stg_ap_7_upd_info","stg_ap_7_upd_info") (P_ node) { TICK_ENT_DYN_THK(); STK_CHK_NP(node); UPD_BH_UPDATABLE(node); LDV_ENTER(node); push (UPDATE_FRAME_FIELDS(,,stg_upd_frame_info, CCCS, 0, node)) { ENTER_CCS_THUNK(node); jump stg_ap_pppppp_fast (StgThunk_payload(node,0), StgThunk_payload(node,1), StgThunk_payload(node,2), StgThunk_payload(node,3), StgThunk_payload(node,4), StgThunk_payload(node,5), StgThunk_payload(node,6)); } }