C*********************************************************************** C C SOMEWHERE.FOR C C D I S C L A I M E R N O T I C E C ------------------- ----------- C C This document and/or portions of the material and data furnished C herewith, was developed under sponsorship of the U. S. Government. C Neither the U.S. nor the U.S.D.O.E., nor the Leland Stanford Junior C University, nor their employees, nor their respective contractors, C subcontractors, or their employees, makes any warranty, express or C implied, or assumes any liability or responsibility for accuracy, C completeness or usefulness of any information, apparatus, product C or process disclosed, or represents that its use will not infringe C privately-owned rights. Mention of any product, its manufacturer, C or suppliers shall not, nor is it intended to, imply approval, dis- C approval, or fitness for any particular use. The U. S. and the C University at all times retain the right to use and disseminate same C for any purpose whatsoever. Such distribution shall be made by the C National Energy Software Center at the Argonne National Laboratory C and only subject to the distributee furnishing satisfactory proof C that he has a valid license from the Intel Corporation in effect. C C C----------------------------------------------------------------------- C C This module of the PL/M-VAX compiler is the main workhorse for C code generation. It is invoked (recursively) to actually generate C code from a specified code tree, with the resulting value of the C code tree (if any) to be manifested in some desired place ('where'). C C----------------------------------------------------------------------- C C R E V I S I O N H I S T O R Y C C 08SEP81 Alex Hunter 1. Temporarily disabled ref_count checking C for atoms. (V5.1) C 2. Fixed bug for procedure call when refct>1. C 15OCT81 Alex Hunter 1. Experimental version. (V5.4) C 23OCT81 Alex Hunter 1. Correct manifestation for OP_LOC. (V5.6) C 2. Improve choice of preferred register. C C*********************************************************************** INTEGER*2 FUNCTION GET_SOMEWHERE(NODX,WHEREX) INCLUDE 'PLMCOM.FOR/NOLIST' CHARACTER*80 OPERAND,OPERAND1,OPERAND2 C NOD=NODX WHERE=WHEREX IF (NOD.EQ.NULL) THEN GET_SOMEWHERE=NULL RETURN ENDIF IF (NODE_REG(NOD).NE.0) THEN REG=NODE_REG(NOD) NODE_TYPE(REG)=NODE_TYPE(NOD) GO TO 100 ENDIF IF (LITERAL(NOD)) GO TO 50 IF (CONSTANT(NOD)) GO TO 50 IF (ATOM(NOD)) THEN CALL PUSH(NOD,1) CALL PUSH(WHERE,1) CALL MAKE_ADDRESSABLE(NOD) CALL POP(WHERE,1) CALL POP(NOD,1) CCCC IF (NODE_REFCT(NOD).GT.1) THEN ! (Temporarily disabled) CCCC REG=ALLOCATE_REG(NODE_TYPE(NOD)) CCCC CALL EMIT_CODE(OP_ASSN,NOD,NULL,REG) CCCC NODE_REG(NOD)=REG CCCC NODE_TYPE(REG)=NODE_TYPE(NOD) CCCC GO TO 100 CCCC ENDIF GO TO 50 ENDIF C -- NODE MUST BE AN OPNODE. IF (OPNODE_OP(NOD).EQ.OP_MOV) THEN XX=GET_SOMEWHERE2(OPNODE_OPND1(NOD),OPNODE_OPND2(NOD)) GET_SOMEWHERE=NULL RETURN ELSEIF (OPNODE_OP(NOD).EQ.OP_ASSN) THEN CALL PUSH(WHERE,1) CALL PUSH(NOD,1) IF (WHERE.GE.REG_MIN.AND.WHERE.LE.REG_MAX) THEN REG=GET_SOMEWHERE2(OPNODE_OPND1(NOD),WHERE) ELSE REG=GET_SOMEWHERE2(OPNODE_OPND1(NOD),ANY_REG) ENDIF NODE_TYPE(REG)=NODE_TYPE(NOD) CALL POP(NOD,1) CALL PUSH(NOD,1) CALL PUSH(REG,1) CALL MAKE_ADDRESSABLE(OPNODE_OPND2(NOD)) CALL POP(REG,1) CALL POP(NOD,1) CALL POP(WHERE,1) CALL EMIT_CODE(OP_ASSN,REG,NULL,OPNODE_OPND2(NOD)) CALL DECREMENT_REFERENCE_COUNTS(ATOM_BASE(OPNODE_OPND2(NOD))) CALL DECREMENT_REFERENCE_COUNTS(ATOM_SUB(OPNODE_OPND2(NOD))) GO TO 100 ELSEIF (OPNODE_OP(NOD).EQ.OP_CALL) THEN CALL PUSH(WHERE,1) CALL PUSH(NOD,1) NARGS=GET_SOMEWHERE2(OPNODE_OPND2(NOD),ON_STACK) CALL POP(NOD,1) CALL PUSH(NOD,1) CALL PUSH(NARGS,1) LOC1=GET_SOMEWHERE2(OPNODE_OPND1(NOD),ANY_WHERE) CALL POP(NARGS,1) CALL POP(NOD,1) CALL POP(WHERE,1) OPERAND2=OPERAND(LOC1,N2) IF (OPERAND2(1:1).EQ.'(') THEN ! Indirect Call. OPERAND2='L^V.'//OPERAND2 N2=N2+4 ENDIF IF (MODEL.EQ.2 .OR. MODEL.EQ.4) THEN OPND1=MAKE_FIXED2(NARGS,S_LONG) OPERAND1=OPERAND(OPND1,N1) CALL EMIT('CALLS '//OPERAND1(:N1)//','// # OPERAND2(:N2)) ELSEIF (NARGS.EQ.0) THEN CALL EMIT('CALLS #0,'//OPERAND2(:N2)) ELSE CALL EMIT_CODE(OP_B2L,MAKE_FIXED2(NARGS,S_BYTE),NULL, # ON_STACK) CALL EMIT('CALLG (R10),'//OPERAND2(:N2)) CALL EMIT_CODE(OP_ADD,MAKE_FIXED2((NARGS+1)*4,S_LONG),NULL, # 10) ENDIF NODE_TYPE(R0)=NODE_TYPE(NOD) IF (WHERE.EQ.ANY_WHERE .OR. WHERE.EQ.ANY_REG .OR. # NODE_REFCT(NOD).GT.1) THEN REG=ALLOCATE_REG(NODE_TYPE(NOD)) CALL EMIT_CODE(OP_ASSN,R0,NULL,REG) NODE_REG(NOD)=REG NODE_TYPE(REG)=NODE_TYPE(NOD) GO TO 100 ELSEIF (WHERE.EQ.ON_STACK) THEN CALL EMIT_CODE(OP_ASSN,R0,NULL,ON_STACK) CALL DECREMENT_VALUE_COUNTS(NOD) GET_SOMEWHERE=ON_STACK RETURN ELSEIF (WHERE.GE.REG_MIN .AND. WHERE.LE.REG_MAX) THEN IF (WHERE.NE.R0) THEN CALL EMIT_CODE(OP_ASSN,R0,NULL,WHERE) CALL DECREMENT_VALUE_COUNTS(NOD) ENDIF GET_SOMEWHERE=WHERE RETURN ELSE ! (WHERE IS ATOM) IF (ATOM_SUB(WHERE).EQ.NULL.AND.ATOM_BASE(WHERE).EQ.NULL) # THEN CALL EMIT_CODE(OP_ASSN,R0,NULL,WHERE) CALL DECREMENT_VALUE_COUNTS(NOD) GET_SOMEWHERE=WHERE RETURN ENDIF REG=ALLOCATE_REG(NODE_TYPE(NOD)) CALL EMIT_CODE(OP_ASSN,R0,NULL,REG) NODE_REG(NOD)=REG NODE_TYPE(REG)=NODE_TYPE(NOD) GO TO 150 ENDIF ELSEIF (OPNODE_OP(NOD).EQ.OP_ARG) THEN CALL PUSH(WHERE,1) CALL PUSH(NOD,1) XX=GET_SOMEWHERE2(OPNODE_OPND2(NOD),ON_STACK) CALL POP(NOD,1) CALL PUSH(NOD,1) NARGS=GET_SOMEWHERE2(OPNODE_OPND1(NOD),ON_STACK) CALL POP(NOD,1) CALL POP(WHERE,1) GET_SOMEWHERE=NARGS+1 RETURN ELSEIF ((OPNODE_OP(NOD).EQ.OP_ADWC.OR.OPNODE_OP(NOD).EQ.OP_SBWC) # .AND.OPNODE_OPND1(NOD).NE.WHERE) THEN CALL PUSH(WHERE,1) CALL PUSH(NOD,1) REG=GET_SOMEWHERE2(OPNODE_OPND1(NOD),ANY_REG) CALL POP(NOD,1) CALL PUSH(NOD,1) CALL PUSH(REG,1) LOC2=GET_SOMEWHERE2(OPNODE_OPND2(NOD),ANY_WHERE) CALL POP(REG,1) CALL POP(NOD,1) CALL POP(WHERE,1) NODE_REG(OPNODE_OPND1(NOD))=0 CALL EMIT_CODE(OPNODE_OP(NOD),LOC2,REG,REG) NODE_REG(NOD)=REG NODE_TYPE(REG)=NODE_TYPE(NOD) GO TO 100 ENDIF IF (OPNODE_OP(NOD).EQ.OP_LOC) THEN LOC1=OPNODE_OPND1(NOD) LOC2=OPNODE_OPND2(NOD) CALL PUSH(WHERE,1) CALL PUSH(NOD,1) CALL PUSH(LOC1,1) CALL PUSH(LOC2,1) CALL MAKE_ADDRESSABLE(LOC1) CALL POP(LOC2,1) CALL PUSH(LOC2,1) CALL MAKE_ADDRESSABLE(LOC2) CALL POP(LOC2,1) CALL POP(LOC1,1) CALL POP(NOD,1) CALL POP(WHERE,1) ELSE CALL PUSH(WHERE,1) CALL PUSH(NOD,1) LOC1=GET_SOMEWHERE2(OPNODE_OPND1(NOD),ANY_WHERE) CALL POP(NOD,1) CALL PUSH(NOD,1) CALL PUSH(LOC1,1) LOC2=GET_SOMEWHERE2(OPNODE_OPND2(NOD),ANY_WHERE) CALL POP(LOC1,1) CALL POP(NOD,1) CALL POP(WHERE,1) ENDIF IF (OPNODE_OP(NOD).EQ.OP_THEN.OR.OPNODE_OP(NOD).EQ.OP_ALSO) THEN GET_SOMEWHERE=NULL RETURN ELSEIF (WHERE.EQ.ANY_WHERE .OR. WHERE.EQ.ANY_REG .OR. # NODE_REFCT(NOD).GT.1) THEN IF (OPNODE_OP(NOD).EQ.OP_LOC) THEN IF (ATOM(LOC1)) THEN CALL DECREMENT_REFERENCE_COUNTS(ATOM_BASE(LOC1)) CALL DECREMENT_REFERENCE_COUNTS(ATOM_SUB(LOC1)) ENDIF ELSE CALL DECREMENT_VALUE_COUNTS(OPNODE_OPND1(NOD)) CALL DECREMENT_VALUE_COUNTS(OPNODE_OPND2(NOD)) ENDIF IF (REGISTER(LOC1)) THEN PREFERRED_REG=LOC1 ELSE PREFERRED_REG=LOC2 ENDIF REG=ALLOCATE_REG_WITH_PREFERENCE(NODE_TYPE(NOD),PREFERRED_REG) CALL EMIT_CODE(OPNODE_OP(NOD),LOC2,LOC1,REG) NODE_REG(NOD)=REG NODE_TYPE(REG)=NODE_TYPE(NOD) GO TO 100 ELSEIF (WHERE.EQ.ON_STACK) THEN CALL EMIT_CODE(OPNODE_OP(NOD),LOC2,LOC1,ON_STACK) IF (OPNODE_OP(NOD).EQ.OP_LOC) THEN IF (ATOM(LOC1)) THEN CALL DECREMENT_REFERENCE_COUNTS(ATOM_BASE(LOC1)) CALL DECREMENT_REFERENCE_COUNTS(ATOM_SUB(LOC1)) ENDIF ELSE CALL DECREMENT_VALUE_COUNTS(OPNODE_OPND1(NOD)) CALL DECREMENT_VALUE_COUNTS(OPNODE_OPND2(NOD)) ENDIF CALL DECREMENT_REFERENCE_COUNTS(NOD) GET_SOMEWHERE=ON_STACK RETURN ELSEIF (WHERE.GE.REG_MIN.AND.WHERE.LE.REG_MAX) THEN CALL EMIT_CODE(OPNODE_OP(NOD),LOC2,LOC1,WHERE) IF (OPNODE_OP(NOD).EQ.OP_LOC) THEN IF (ATOM(LOC1)) THEN CALL DECREMENT_REFERENCE_COUNTS(ATOM_BASE(LOC1)) CALL DECREMENT_REFERENCE_COUNTS(ATOM_SUB(LOC1)) ENDIF ELSE CALL DECREMENT_VALUE_COUNTS(OPNODE_OPND1(NOD)) CALL DECREMENT_VALUE_COUNTS(OPNODE_OPND2(NOD)) ENDIF NODE_REG(NOD)=WHERE GET_SOMEWHERE=WHERE RETURN ELSE ! (WHERE IS ATOM) CALL PUSH(WHERE,1) CALL PUSH(NOD,1) CALL PUSH(LOC1,1) CALL PUSH(LOC2,1) CALL MAKE_ADDRESSABLE(WHERE) CALL POP(LOC2,1) CALL POP(LOC1,1) CALL POP(NOD,1) CALL POP(WHERE,1) CALL EMIT_CODE(OPNODE_OP(NOD),LOC2,LOC1,WHERE) IF (OPNODE_OP(NOD).EQ.OP_LOC) THEN IF (ATOM(LOC1)) THEN CALL DECREMENT_REFERENCE_COUNTS(ATOM_BASE(LOC1)) CALL DECREMENT_REFERENCE_COUNTS(ATOM_SUB(LOC1)) ENDIF ELSE CALL DECREMENT_VALUE_COUNTS(OPNODE_OPND1(NOD)) CALL DECREMENT_VALUE_COUNTS(OPNODE_OPND2(NOD)) ENDIF CALL DECREMENT_REFERENCE_COUNTS(NOD) CALL DECREMENT_REFERENCE_COUNTS(ATOM_BASE(WHERE)) CALL DECREMENT_REFERENCE_COUNTS(ATOM_SUB(WHERE)) GET_SOMEWHERE=WHERE RETURN ENDIF C --- NODE IS ATOM OR LITERAL. 50 IF (WHERE.EQ.ANY_WHERE) THEN GET_SOMEWHERE=NOD RETURN ELSEIF (WHERE.EQ.ANY_REG) THEN REG=ALLOCATE_REG(NODE_TYPE(NOD)) CALL EMIT_CODE(OP_ASSN,NOD,NULL,REG) NODE_REG(NOD)=REG GET_SOMEWHERE=REG RETURN ELSEIF (WHERE.EQ.ON_STACK) THEN CALL EMIT_CODE(OP_ASSN,NOD,NULL,ON_STACK) CALL DECREMENT_VALUE_COUNTS(NOD) GET_SOMEWHERE=ON_STACK RETURN ELSEIF (WHERE.GE.REG_MIN.AND.WHERE.LE.REG_MAX) THEN CALL EMIT_CODE(OP_ASSN,NOD,NULL,WHERE) NODE_REG(NOD)=WHERE GET_SOMEWHERE=WHERE RETURN ELSE ! (WHERE IS ATOM) CALL PUSH(WHERE,1) CALL PUSH(NOD,1) CALL MAKE_ADDRESSABLE(WHERE) CALL POP(NOD,1) CALL POP(WHERE,1) CALL EMIT_CODE(OP_ASSN,NOD,NULL,WHERE) CALL DECREMENT_VALUE_COUNTS(NOD) CALL DECREMENT_REFERENCE_COUNTS(ATOM_BASE(WHERE)) CALL DECREMENT_REFERENCE_COUNTS(ATOM_SUB(WHERE)) GET_SOMEWHERE=WHERE RETURN ENDIF C --- VALUE OF NODE IS ALREADY IN REGISTER. 100 IF (WHERE.EQ.ANY_WHERE .OR. WHERE.EQ.ANY_REG .OR. # WHERE.EQ.REG) THEN GET_SOMEWHERE=REG RETURN ELSEIF(WHERE.EQ.ON_STACK) THEN CALL EMIT_CODE(OP_ASSN,REG,NULL,ON_STACK) CALL DECREMENT_VALUE_COUNTS(NOD) GET_SOMEWHERE=ON_STACK RETURN ELSEIF (WHERE.GE.REG_MIN.AND.WHERE.LE.REG_MAX) THEN CALL EMIT_CODE(OP_ASSN,REG,NULL,WHERE) CALL DECREMENT_VALUE_COUNTS(NOD) ! ??? GET_SOMEWHERE=WHERE RETURN ELSE ! (WHERE IS ATOM) 150 CALL PUSH(WHERE,1) CALL PUSH(NOD,1) CALL PUSH(REG,1) CALL MAKE_ADDRESSABLE(WHERE) CALL POP(REG,1) CALL POP(NOD,1) CALL POP(WHERE,1) CALL EMIT_CODE(OP_ASSN,REG,NULL,WHERE) CALL DECREMENT_VALUE_COUNTS(NOD) CALL DECREMENT_REFERENCE_COUNTS(ATOM_BASE(WHERE)) CALL DECREMENT_REFERENCE_COUNTS(ATOM_SUB(WHERE)) GET_SOMEWHERE=WHERE RETURN ENDIF END C-------------------------------------------------------------- INTEGER*2 FUNCTION GET_SOMEWHERE2(NODX,WHEREX) IMPLICIT INTEGER*2 (A-Z) GET_SOMEWHERE2=GET_SOMEWHERE(NODX,WHEREX) RETURN END C-------------------------------------------------------------- SUBROUTINE MAKE_ADDRESSABLE(ATMX) INCLUDE 'PLMCOM.FOR/NOLIST' ATM=ATMX IF (ATOM(ATM)) THEN CALL PUSH(ATM,1) BASEREG=GET_SOMEWHERE(ATOM_BASE(ATM),ANY_REG) CALL POP(ATM,1) XREG=GET_SOMEWHERE(ATOM_SUB(ATM),ANY_REG) ENDIF RETURN END