mirror of
https://github.com/byteworksinc/ORCA-C.git
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813 lines
52 KiB
Plaintext
813 lines
52 KiB
Plaintext
{-- Misc. pcodes -----------------------------------------------}
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{ }
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{ dc_cns - generate a constant value }
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{ }
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{ GenL1(dc_cns, lval, count); }
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{ GenR1t(dc_cns, rval, count, type); }
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{ Gen2t(dc_cns, ival, count, type); }
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{ GenS(dc_cns, sptr); }
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{ }
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{ Creates COUNT occurrences of the constant lval, rval or }
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{ ival, based on the type. In Gen2t can accept byte or word }
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{ types. In the case of GenS, the operand is a string }
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{ constant, and no repeat count is allowed. }
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{ }
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{ }
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{ dc_glb - generate global label }
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{ }
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{ Gen2Name(dc_glb, r, q, lab) }
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{ }
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{ Creates a global label in the current segment with the name }
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{ LAB^. If Q is 1, the label is marked as private to the }
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{ current segment, otherwise it is marked as public. R bytes }
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{ of space are reserved. }
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{ }
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{ }
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{ dc_dst - generate global storage }
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{ }
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{ Gen1(dc_dst, q) }
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{ }
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{ Creates q bytes of storage (initialized to 0) at the }
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{ current location. }
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{ }
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{ }
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{ pc_lnm - line number }
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{ }
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{ Gen2(pc_lnm, lc, flag) }
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{ }
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{ Sets the current line number for the traceback facility and }
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{ debugger. This p-code should only be generated after the }
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{ pc_ent and pc_nam (if any), and should not be generated }
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{ outside of a subroutine. Lc is the line number, while flag }
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{ indicates the type of debugging action on this line: }
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{ }
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{ 0 - step/trace }
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{ 1 - break point }
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{ 2 - auto-go }
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{ }
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{ }
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{ pc_mov - move memory }
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{ }
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{ Gen2(pc_mov, banks, bytes) }
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{ }
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{ The top of stack contains a source address, and TOS-1 has a }
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{ destination address. The destination address is removed, }
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{ and BYTES bytes are moved from the source to the }
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{ destination. BANKS is the number of full banks to move; it }
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{ is used when 64K or more must be moved. The memory areas }
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{ must not overlap. }
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{ }
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{ }
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{ pc_nam - subroutine name }
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{ }
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{ GenS(pc_nam, str) }
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{ }
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{ Sets the subroutine name for the traceback facility, }
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{ debugger, and profiler. Str is a pointer to the subroutine }
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{ name. The following global variables should be set to }
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{ appropriate values when this p-code is used: }
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{ }
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{ debugFlag - are we generating debug code? }
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{ profileFlag - are we profiling? }
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{ traceBack - are we doing tracebacks? }
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{ sourceFile - current source file name }
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{ }
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{ }
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{ pc_nat - native code generation }
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{ }
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{ Gen0(pc_nat) }
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{ }
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{ Generate a native code instruction. The parameters are set }
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{ in a special section in asm.pas. }
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{ }
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{ s - operation code }
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{ q - operand value }
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{ r - addressing mode }
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{ lab - label name }
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{ flags - shift flags }
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{ }
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{-- Pcodes involved expressions --------------------------------}
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{ }
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{ pc_adi - integer addition }
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{ pc_adl - long addition }
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{ pc_adq - long long addition }
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{ pc_adr - real addition }
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{ }
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{ Gen0(pc_adi) cgByte,cgUByte,cgWord,cgUWord }
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{ Gen0(pc_adl) cgLong,cgULong }
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{ Gen0(pc_adq) cgQuad,cgUQuad }
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{ Gen0(pc_adr) cgReal,cgDouble,cgComp,cgExtended }
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{ }
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{ The two values on the top of the evaluation stack are }
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{ removed and added. The result is placed back on the stack. }
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{ }
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{ }
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{ pc_and - logical and }
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{ pc_lnd - long logical and }
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{ }
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{ Gen0(pc_and) cgByte,cgUByte,cgWord,cgUWord }
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{ Gen0(pc_lnd) cgLong,cgULong }
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{ }
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{ The two values on the top of the evaluation stack are }
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{ removed and anded. The result is placed back on the stack. }
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{ Zero is treated as false, and any other value as true. The }
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{ and is a logical and. See pc_bnd for a bitwise and. }
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{ }
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{ If the first operand is false, the second operand is not }
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{ evaluated. }
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{ }
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{ }
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{ pc_bnd - bitwise and }
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{ pc_bal - long bitwise and }
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{ pc_baq - long long bitwise and }
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{ }
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{ Gen0(pc_bnd) cgByte,cgUByte,cgWord,cgUWord }
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{ Gen0(pc_bal) cgLong,cgULong }
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{ Gen0(pc_baq) cgQuad,cgUQuad }
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{ }
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{ The two values on the top of the evaluation stack are }
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{ removed and anded. The result is placed back on the stack. }
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{ }
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{ }
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{ pc_bno - binary operand no-operation }
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{ }
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{ Gen0t(pc_bno, type) }
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{ }
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{ The left operand is evaluated and discarded, followed by }
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{ the evaluation of the right operand. The type is the type }
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{ of the right operand; it is used in case a pc_pop is }
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{ attached to remove a result left on the stack. This }
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{ instruction is used by C for the comma operator and for }
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{ parameter lists for function and procedure calls, and by }
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{ pc_tri to hold the two expressions. }
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{ }
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{ }
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{ pc_bnt - bitwise negation }
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{ pc_bnl - long bitwise negation }
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{ pc_bnq - long long bitwise negation }
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{ }
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{ Gen0(pc_bnt) cgByte,cgUByte,cgWord,cgUWord }
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{ Gen0(pc_bnl) cgLong,cgULong }
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{ Gen0(pc_bnq) cgQuad,cgUQuad }
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{ }
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{ The value on the top of the evaluation stack is removed, }
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{ exclusive ored with $FFFF, and replaced. (One's compliment.)}
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{ }
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{ }
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{ pc_bor - bitwise or }
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{ pc_blr - long bitwise or }
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{ pc_bqr - long long bitwise or }
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{ }
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{ Gen0(pc_bor) cgByte,cgUByte,cgWord,cgUWord }
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{ Gen0(pc_blr) cgLong,cgULong }
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{ Gen0(pc_bqr) cgQuad,cgUQuad }
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{ }
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{ The two values on the top of the evaluation stack are }
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{ removed and ored. The result is placed back on the stack. }
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{ }
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{ }
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{ pc_bxr - exclusive or }
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{ pc_blx - long exclusive or }
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{ pc_bqx - long long exclusive or }
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{ }
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{ Gen0(pc_bxr) cgByte,cgUByte,cgWord,cgUWord }
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{ Gen0(pc_blx) cgLong,cgULong }
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{ Gen0(pc_bqx) cgQuad,cgUQuad }
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{ }
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{ The two values on the top of the evaluation stack are }
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{ removed and exclusive ored. The result is placed back on }
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{ the stack. }
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{ }
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{ }
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{ pc_cbf - copy bit field }
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{ }
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{ Gen2t(pc_cbf, disp, size, type) }
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{ }
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{ An integer is removed from the top of the evaluation stack }
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{ and saved at the address on the evaluation stack. The }
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{ address is removed, but the integer remains intact. The }
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{ value is saved DISP bits past the address, and is treated as }
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{ a SIZE bit value. Extra bits are dropped. }
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{ }
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{ }
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{ pc_cop - copy to a local variable }
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{ }
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{ Gen2t(pc_cop, label, disp, type) }
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{ }
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{ Saves the value on the top of the evaluation stack to DISP }
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{ bytes past the local label LABEL. TYPE is the type of the }
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{ value being saved. }
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{ }
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{ }
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{ pc_cnv - convert from one scalar type to another }
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{ pc_cnn - convert from one scalar type to another }
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{ }
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{ Gen2(pc_cnv, from, to) }
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{ Gen2(pc_cnn, from, to) }
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{ }
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{ Converts from one scalar type to another. The from and to }
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{ parameters are ordinal values of type baseTypeEnum. The }
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{ table below shows what from values (along the left edge) and }
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{ to values (along the top) are allowed, and what action is }
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{ taken for each combination. CgDouble, cgComp or cgExtended }
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{ may be used anywhere that cgReal is used, with the same }
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{ results. }
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{ }
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{ The pc_cnn form converts the value at tos-1. The value at }
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{ tos is assumed to be the same size as the result type. }
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{ }
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{ cgByte cgUByte cgWord cgUWord cgLong cgULong cgReal }
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{ cgByte extend extend float }
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{ cgUByte padd padd float }
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{ cgWord extend extend float }
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{ cgUWord extend extend float }
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{ cgLong discard discard discard discard float }
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{ cgULong discard discard discard discard float }
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{ cgReal trunc trunc trunc trunc trunc trunc }
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{ }
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{ The meaning of the operations shown in the table is: }
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{ }
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{ (blank) No action is taken, but the instruction is }
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{ accepted by the code generator. }
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{ extend The value is sign extended to the proper length.}
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{ padd The value is padded on the left with zero bits }
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{ to extend it to the proper length. }
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{ discard Extra bits are discarded to reach the proper }
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{ length, starting with the most significant bit. }
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{ float An integer value is converted to a real value. }
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{ trunc A real value is converted to the largest }
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{ integer value that is less than or equal to the }
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{ real value. }
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{ }
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{ }
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{ pc_cpi - copy indirect }
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{ }
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{ Gen0t(pc_cpi, type) }
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{ }
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{ Two values are removed from the evaluation stack. The first }
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{ is of type TYPE, while the second is a pointer. The first }
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{ value is stored at the location pointed to by the pointer. }
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{ The value is then placed back on the stack. }
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{ }
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{ }
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{ pc_cpo - copy to a global variable }
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{ }
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{ Gen1tName (pc_cpo, disp, type, name) }
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{ }
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{ Saves the value on the top of the evaluation stack to the }
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{ global label NAME. DISP is a fixed displacement past the }
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{ names label to load from. (Used for records.) TYPE is }
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{ the type of the value being loaded. }
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{ }
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{ }
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{ pc_dec - decrement }
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{ }
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{ Gen1t(pc_dec, val, type) }
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{ }
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{ The value on the top of the stack is removed, decremented by }
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{ VAL and returned to the stack. Type may be cgByte, cgUByte, }
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{ cgWord, cgUWord, cgLong or cgULong. In all cases, the }
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{ amount to decrement by is a positive signed integer. }
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{ }
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{ }
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{ pc_dvi - integer divide }
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{ pc_udi - unsigned integer divide }
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{ pc_dvl - long integer divide }
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{ pc_udl - unsigned long divide }
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{ pc_dvr - real divide }
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{ }
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{ Gen0(pc_dvi) cgByte,cgWord }
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{ Gen0(pc_udi) cgUByte,cgUWord }
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{ Gen0(pc_dvl) cgLong }
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{ Gen0(pc_udl) cgULong }
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{ Gen0(pc_dvr) cgReal,cgDouble,cgComp,cgExtended }
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{ }
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{ The two values on the top of the evaluation stack are }
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{ removed and divided. The result is placed back on the }
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{ stack. The result type is the same as the argument type. }
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{ }
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{ }
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{ pc_equ,pc_geq,pc_grt,pc_leq,pc_les,pc_neq - compares }
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{ }
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{ Gen0t(pc_equ, type) }
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{ }
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{ The two values on the top of the evaluation stack are }
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{ removed and compared. A boolean result is placed back on }
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{ the stack. }
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{ }
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{ }
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{ pc_gil - increment and load from a global variable }
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{ pc_gli - load a global variable, then inc the original }
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{ pc_gdl - decrement and load from a global variable }
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{ pc_gld - load a global variable, then dec the original }
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{ }
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{ Gen2tName (pc_gli, inc, disp, type, name) }
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{ }
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{ Loads a value from the global label NAME and places it on }
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{ the evaluation stack. DISP is a fixed displacement past the }
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{ names label to load from. (Used for records.) TYPE is }
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{ the type of the value being loaded. }
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{ }
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{ In addition to loading the value, these instructions also }
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{ increment or decrement the value, as indicated in the }
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{ comment by the instruction name. The operand is incremented }
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{ or decremented by INC. INC must be 1 for one and two byte }
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{ operands. }
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{ }
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{ }
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{ pc_iil - increment and load indirect }
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{ pc_ili - load indirect, then inc the original }
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{ pc_idl - decrement and load indirect }
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{ pc_ild - load indirect, then dec the original }
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{ }
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{ Gen0t (pc_ili, type) }
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{ }
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{ Loads a value from the indirect address on the top of the }
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{ stack, performing either an increment or decrement in the }
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{ process. TYPE may be cgByte, cgUByte, cgWord or cgUWord. }
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{ }
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{ }
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{ pc_inc - increment }
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{ }
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{ Gen1t(pc_inc, val, type) }
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{ }
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{ The value on the top of the stack is removed, incremented by }
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{ VAL and returned to the stack. Type may be cgByte, cgUByte, }
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{ cgWord, cgUWord, cgLong or cgULong. In all cases, the }
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{ amount to increment by is a positive signed integer. }
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{ }
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{ }
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{ pc_ind - load indirect }
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{ }
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{ Gen1t (pc_ind, disp, type) }
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{ }
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{ A value of type TYPE is loaded from DISP bytes past the }
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{ address that is on the evaluation stack. The address is }
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{ removed from the stack and replaced with the value. }
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{ }
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{ }
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{ pc_ior - logical or }
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{ pc_lor - long logical or }
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{ }
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{ Gen0(pc_ior) cgByte,cgUByte,cgWord,cgUWord }
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{ Gen0(pc_lor) cgLong,cgULong }
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{ }
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{ The two values on the top of the evaluation stack are }
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{ removed and ored. The result is placed back on the stack. }
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{ Zero is treated as false, and any other value as true. The }
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{ or is a logical or. See pc_bor for a bitwise or. }
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{ }
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{ }
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{ pc_ixa - integer indexed address }
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{ }
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{ Gen0t(pc_ixa, type) }
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{ }
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{ TOS is an integer, which is added to TOS-1, which is a long }
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{ integer. This instruction is generally used for computing }
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{ short array indexes. }
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{ }
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{ TYPE can be cgWord or cgUWord; the type indicates whether }
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{ the addition is signed or unsigned. }
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{ }
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{ }
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{ pc_lad - load the address of a subroutine }
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{ }
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{ Gen0Name(pc_lad, name); }
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{ }
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{ Loads the address of the subroutine NAME. }
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{ }
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{ }
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{ pc_lao - load a global address }
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{ }
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{ Gen1Name(pc_lao, disp, name); }
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{ }
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{ Loads the address of DISP bytes past the global variable }
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{ NAME onto the stack. }
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{ }
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{ }
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{ pc_lbf - load bit field }
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{ pc_lbu - load unsigned bit field }
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{ }
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{ Gen2t(pc_lbf, disp, size, type) }
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{ Gen2t(pc_lbu, disp, size, type) }
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{ }
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{ A bit field SIZE bits wide is loaded from DISP bits past the }
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{ address on the top of the evaluation stack. The address is }
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{ removed from the evaluation stack in the process. pc_lbf }
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{ loads a signed value, while pc_lbu loads an unsigned value. }
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{ }
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{ }
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{ pc_lca - load a string constant address }
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{ }
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{ GenS(pc_lca, str) }
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{ }
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{ Loads the address of a string onto the stack. Str is a }
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{ pointer to a string constant. }
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{ }
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{ }
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{ pc_lda - load a local address }
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{ }
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{ Gen2(pc_lda, label, disp) }
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{ }
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{ Loads the address of DISP bytes past the local label LABEL. }
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{ }
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{ }
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{ pc_ldc - load a constant }
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{ }
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{ Gen1t(pc_ldc, val, type) }
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{ GenLdcLong(val) }
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{ GenLdcReal(val) }
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{ }
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{ Loads a constant value. Special calls for long and real }
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{ values are provided due to the unique parameter requirements.}
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{ }
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{ }
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{ pc_ldo - load from a global variable }
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{ }
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{ Gen1tName (pc_ldo, disp, type, name) }
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{ }
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{ Loads a value from the global label NAME and places it on }
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{ the evaluation stack. DISP is a fixed displacement past the }
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{ names label to load from. (Used for records.) TYPE is }
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{ the type of the value being loaded. }
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{ }
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{ }
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{ pc_lil - increment and load from a local variable }
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{ pc_lli - load a local variable, then inc the original }
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{ pc_ldl - decrement and load from a local variable }
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{ pc_lld - load a local variable, then dec the original }
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{ }
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{ Gen2t(pc_lli, label, inc, type) }
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{ }
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{ Loads a value from the local label LABEL and places it on }
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{ the evaluation stack. TYPE is the type of the value being }
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{ loaded. INC is the number to increment or decrement by. }
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{ }
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{ In addition to loading the value, these instructions also }
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{ increment or decrement the value, as indicated in the }
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{ comment by the instruction name. The operand is incremented }
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{ or decremented by INC. INC must be 1 for one and two byte }
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{ operands. }
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{ }
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{ }
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{ pc_lod - load from a local variable }
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{ }
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{ Gen2t(pc_lod, label, disp, type) }
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{ }
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{ Loads a value from DISP bytes past the local label LABEL and }
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{ places it on the evaluation stack. TYPE is the type is the }
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{ value being loaded. }
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{ }
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{ }
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{ pc_mod - integer remainder }
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{ pc_uim - unsigned integer modulus/remainder }
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{ pc_mdl - long remainder }
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{ pc_ulm - unsigned long modulus/remainder }
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{ }
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{ Gen0(pc_mod) cgByte,cgWord }
|
|
{ Gen0(pc_uim) cgUByte,cgUWord }
|
|
{ Gen0(pc_mdl) cgLong }
|
|
{ Gen0(pc_ulm) cgULong }
|
|
{ }
|
|
{ The two values on the top of the evaluation stack are }
|
|
{ removed and the remainder after division is calculated. }
|
|
{ The result is placed back on the stack. The result, like }
|
|
{ the arguments, is an integer. }
|
|
{ }
|
|
{ }
|
|
{ pc_mpi - integer multiply }
|
|
{ pc_umi - unsigned integer multiply }
|
|
{ pc_mpl - long integer multiply }
|
|
{ pc_uml - unsigned long multiply }
|
|
{ pc_mpr - real multiply }
|
|
{ }
|
|
{ Gen0(pc_mpi) cgByte,cgWord }
|
|
{ Gen0(pc_umi) cgUByte,cgUWord }
|
|
{ Gen0(pc_mpl) cgLong }
|
|
{ Gen0(pc_uml) cgULong }
|
|
{ Gen0(pc_mpr) cgReal,cgDouble,cgComp,cgExtended }
|
|
{ }
|
|
{ The two values on the top of the evaluation stack are }
|
|
{ removed and multiplied. The result is placed back on the }
|
|
{ stack. The result type is the same as the argument type. }
|
|
{ }
|
|
{ }
|
|
{ pc_ngi - integer negation }
|
|
{ pc_ngl - long negation }
|
|
{ pc_ngq - long long negation }
|
|
{ pc_ngr - real negation }
|
|
{ }
|
|
{ Gen0(pc_ngi) cgByte,cgUByte,cgWord,cgUWord }
|
|
{ Gen0(pc_ngl) cgLong,cgULong }
|
|
{ Gen0(pc_ngq) cgQuad,cgUQuad }
|
|
{ Gen0(pc_ngr) cgReal,cgDouble,cgComp,cgExtended }
|
|
{ }
|
|
{ The value on the top of the evaluation stack is removed, }
|
|
{ subtracted from 0, and replaced. (Two's compliment.) }
|
|
{ }
|
|
{ }
|
|
{ Gen0(pc_nop) }
|
|
{ }
|
|
{ This operand is a leaf node. It does nothing. It is used }
|
|
{ to create a null expression tree for functions and }
|
|
{ procedures that have no parameters. }
|
|
{ }
|
|
{ }
|
|
{ pc_not - logical negation }
|
|
{ }
|
|
{ Gen0(pc_not) }
|
|
{ }
|
|
{ The value on the top of the evaluation stack is removed, }
|
|
{ logically negated, and replaced. }
|
|
{ }
|
|
{ }
|
|
{ pc_pop - pop a value from the stack }
|
|
{ }
|
|
{ Gen0t(pc_pop, type) }
|
|
{ }
|
|
{ The value on the top of the evaluation stack is removed. }
|
|
{ }
|
|
{ }
|
|
{ pc_psh - push bytes on the stack }
|
|
{ }
|
|
{ Gen0(pc_psh) }
|
|
{ }
|
|
{ Removes the size (a word) and the source address (a long) }
|
|
{ from the evaluation stack, and pushes size bytes from the }
|
|
{ source address onto the stack. }
|
|
{ }
|
|
{ }
|
|
{ pc_sbf - save bit field }
|
|
{ }
|
|
{ Gen2t(pc_sbf, disp, size, type) }
|
|
{ }
|
|
{ An integer is removed from the top of the evaluation stack }
|
|
{ and saved at the address on the evaluation stack. The }
|
|
{ value is saved DISP bits past the address, and is treated as }
|
|
{ a SIZE bit value. Extra bits are dropped. }
|
|
{ }
|
|
{ }
|
|
{ pc_sbi - integer subtraction }
|
|
{ pc_sbl - long subtraction }
|
|
{ pc_sbq - long long subtraction }
|
|
{ pc_sbr - real subtraction }
|
|
{ }
|
|
{ Gen0(pc_sbi) cgByte,cgUByte,cgWord,cgUWord }
|
|
{ Gen0(pc_sbl) cgLong,cgULong }
|
|
{ Gen0(pc_sbq) cgQuad,cgUQuad }
|
|
{ Gen0(pc_sbr) cgReal,cgDouble,cgComp,cgExtended }
|
|
{ }
|
|
{ The two values on the top of the evaluation stack are }
|
|
{ removed. TOS-1 - TOS is placed back on the stack. }
|
|
{ }
|
|
{ }
|
|
{ pc_shl - shift left }
|
|
{ pc_sll - shift left long }
|
|
{ }
|
|
{ Gen0(pc_shl) cgByte,cgUByte,cgWord,cgUWord }
|
|
{ Gen0(pc_sll) cgLong,cgULong }
|
|
{ }
|
|
{ The value at tos-1 is shifted left by the number of bits }
|
|
{ specified by tos. The result is an integer, which replaces }
|
|
{ the operands on the stack. The right bit positions are }
|
|
{ filled with zeros. }
|
|
{ }
|
|
{ }
|
|
{ pc_shr - shift right }
|
|
{ pc_usr - unsigned shift right }
|
|
{ pc_slr - long shift right }
|
|
{ pc_vsr - unsigned long shift right }
|
|
{ }
|
|
{ Gen0(pc_shr) cgByte,cgWord }
|
|
{ Gen0(pc_usr) cgUByte,cgUWord }
|
|
{ Gen0(pc_slr) cgLong }
|
|
{ Gen0(pc_vsr) cgULong }
|
|
{ }
|
|
{ The value at tos-1 is shifted right by the number of bits }
|
|
{ specified by tos. The result is an integer, which replaces }
|
|
{ the operands on the stack. This is a signed shift: the }
|
|
{ leftmost bit position is filled in with a copy of the }
|
|
{ original leftmost bit. }
|
|
{ }
|
|
{ Pc_usr is the unsigned form. The operation is the same, }
|
|
{ except that the leftmost bit is replaced with a zero. }
|
|
{ Pc_vsr is used for unsigned long operations. }
|
|
{ }
|
|
{ pc_stk - stack an operand }
|
|
{ }
|
|
{ Gen0t(pc_stk, type) }
|
|
{ }
|
|
{ The value on top of the evaluation stack is to be left there }
|
|
{ as a parameter to a subsequent procedure or function call. }
|
|
{ This p-code "caps" the expression tree, giving the code }
|
|
{ generator something to do with the expression result. }
|
|
{ }
|
|
{ }
|
|
{ pc_sro - store to a global variable }
|
|
{ }
|
|
{ Gen1tName (pc_sro, disp, type, name) }
|
|
{ }
|
|
{ Saves the value from the top of the evaluation stack to the }
|
|
{ global label NAME. DISP is a fixed displacement past the }
|
|
{ names label to load from. (Used for records.) TYPE is }
|
|
{ the type of the value being loaded. }
|
|
{ }
|
|
{ }
|
|
{ pc_sto - store indirect }
|
|
{ }
|
|
{ Gen0t(pc_sto, type) }
|
|
{ }
|
|
{ Two values are removed from the evaluation stack. TOS is of }
|
|
{ type TYPE, while TOS-1 is a pointer. The value is stored at }
|
|
{ the location pointed to by the pointer. }
|
|
{ }
|
|
{ }
|
|
{ pc_str - store to a local variable }
|
|
{ }
|
|
{ Gen2t(pc_str, label, disp, type) }
|
|
{ }
|
|
{ Saves the value on the top of the evaluation stack to DISP }
|
|
{ bytes past the local label LABEL. TYPE is the type of the }
|
|
{ value being saved. }
|
|
{ }
|
|
{ }
|
|
{ pc_tri - C trinary operator }
|
|
{ }
|
|
{ Gen0t(pc_tri, type) }
|
|
{ }
|
|
{ Implements the C trinary operator. TOS is the false }
|
|
{ expression, TOS-1 the true expression, and TOS-2 the }
|
|
{ condition expression. The condition expression is }
|
|
{ evaluated. If it is non-zero, the true expression is }
|
|
{ evaluated. If it is zero, the false expression is }
|
|
{ evaluated. The result type of the true and false }
|
|
{ expressions must be the same. }
|
|
{ }
|
|
{ Internally, pc_bno is used for the right operand; the }
|
|
{ operands for pc_bno are the two expressions. }
|
|
{ }
|
|
{-- Flow of control --------------------------------------------}
|
|
{ }
|
|
{ dc_lab - define a label }
|
|
{ }
|
|
{ Gen1(dc_lab, lab) }
|
|
{ }
|
|
{ Defines label number lab at the current location. }
|
|
{ }
|
|
{ }
|
|
{ pc_add - address }
|
|
{ }
|
|
{ Gen1(pc_add, lab) }
|
|
{ }
|
|
{ Generates a two-byte address that points to the label lab. }
|
|
{ This is used to create branch tables for pc_xjp }
|
|
{ instructions. }
|
|
{ }
|
|
{ }
|
|
{ pc_fjp - jump if false }
|
|
{ }
|
|
{ Gen1(pc_fjp, lab) }
|
|
{ }
|
|
{ A boolean value is removed from the top of the evaluation }
|
|
{ stack. If the value is false, execution continues with the }
|
|
{ instruction after the label lab; otherwise execution }
|
|
{ continues with the instruction after this one. }
|
|
{ }
|
|
{ }
|
|
{ pc_tjp - jump if true }
|
|
{ }
|
|
{ Gen1(pc_tjp, lab) }
|
|
{ }
|
|
{ A boolean value is removed from the top of the evaluation }
|
|
{ stack. If the value is true, execution continues with the }
|
|
{ instruction after the label lab; otherwise execution }
|
|
{ continues with the instruction after this one. }
|
|
{ }
|
|
{ }
|
|
{ pc_ujp - jump }
|
|
{ }
|
|
{ Gen1(pc_ujp, lab) }
|
|
{ }
|
|
{ Execution continues with the instruction after the label lab.}
|
|
{ }
|
|
{ }
|
|
{ pc_xjp - indexed jump }
|
|
{ }
|
|
{ Gen1(pc_xjp, val) }
|
|
{ }
|
|
{ The top of stack contains an integer, which is removed. If }
|
|
{ it is less than zero or greater than VAL, it is replaced by }
|
|
{ VAL. The result is then used to index into a jump table, }
|
|
{ formed using pc_add instructions, which follows immediately }
|
|
{ after the pc_xjp instruction. }
|
|
{ }
|
|
{-- Pcodes involved with calling and defining procedures -------}
|
|
{ }
|
|
{ dc_str - start a segment }
|
|
{ }
|
|
{ Gen2Name(dc_str, p1, p2, name) }
|
|
{ }
|
|
{ Starts a new object segment with the name name^. P1 is the }
|
|
{ segment kind, while p2 is the length code (1 for data, 0 for }
|
|
{ code segments). }
|
|
{ }
|
|
{ }
|
|
{ dc_pin - procedure entry point }
|
|
{ }
|
|
{ Gen0(dc_pin) }
|
|
{ }
|
|
{ A code segment does not have to be entered at the first byte }
|
|
{ when called. This directive is used one time in each code }
|
|
{ segment to indicate the actual entry point. }
|
|
{ }
|
|
{ }
|
|
{ dc_enp - end a segment }
|
|
{ }
|
|
{ Gen0(dc_enp) }
|
|
{ }
|
|
{ This directive closes the current segment. }
|
|
{ }
|
|
{ }
|
|
{ pc_ent - enter a subroutine }
|
|
{ }
|
|
{ Gen0(pc_ent) }
|
|
{ }
|
|
{ This pcode is used at the beginning of every subroutine. It }
|
|
{ marks the beginning of a new stack frame definition. }
|
|
{ Subsequent dc_loc and dc_prm cause space to be allocated }
|
|
{ from this stack frame. }
|
|
{ }
|
|
{ }
|
|
{ pc_ret - return from a subroutine }
|
|
{ }
|
|
{ Gen0t(pc_ret, type) }
|
|
{ }
|
|
{ This pcode is used to return from a function or a procedure. }
|
|
{ The type is the type of the function, and is used to tell }
|
|
{ the code generator what type of value to return. The value }
|
|
{ to return is assumed to be stored defaultStackSize bytes }
|
|
{ into the stack frame. }
|
|
{ }
|
|
{ }
|
|
{ pc_cui - call user procedure, indirect }
|
|
{ }
|
|
{ Gen1t(pc_cui, repair, ftype) }
|
|
{ }
|
|
{ Calls a user procedure or function through the address on }
|
|
{ the top of the evaluation stack. FTYPE is the return type. }
|
|
{ Repair is 1 if stack repair should be forced, and 0 if not. }
|
|
{ }
|
|
{ }
|
|
{ pc_cup - call user procedure }
|
|
{ }
|
|
{ Gen1tName(pc_cup, repair, name, ftype) }
|
|
{ }
|
|
{ Calls a user procedure or function. Ftype is the type. }
|
|
{ Repair is 1 if stack repair should be forced, and 0 if not. }
|
|
{ NAME is the name of the procedure. }
|
|
{ }
|
|
{ }
|
|
{ dc_loc - define local label }
|
|
{ }
|
|
{ Gen2(dc_loc, label, size) }
|
|
{ }
|
|
{ Defines a local label using the label parameter as a label }
|
|
{ number. Size bytes are reserved on the stack frame. Label }
|
|
{ numbers should be assigned by the compiler, starting with }
|
|
{ number 1. Label 0 is reserved for referring to the return }
|
|
{ value of a function (if any). }
|
|
{ }
|
|
{ }
|
|
{ dc_prm - define parameter }
|
|
{ }
|
|
{ Gen3(dc_prm, label, size, disp) }
|
|
{ }
|
|
{ Defines a label used to refer to a parameter. See dc_loc }
|
|
{ for a discussion of the label and size parameters. The disp }
|
|
{ parameter is the number of bytes of parameter that will be }
|
|
{ pushed after this one; i.e., the disp from the return addr }
|
|
{ to this parameter. }
|
|
{ }
|
|
{ }
|
|
{ pc_tl1 - call a tool }
|
|
{ }
|
|
{ GenTool(pc_tl1, toolNum, retSize, dispatcher) }
|
|
{ }
|
|
{ Calls a tool. The tool number is toolNum; the tool is }
|
|
{ called at location dispatcher. The tool returns a result }
|
|
{ that is retSize bytes long. }
|
|
{ }
|
|
{ }
|
|
{ dc_sym - generate a symbol table }
|
|
{ }
|
|
{ Gen1Name(dc_sym, doGLobals, pointer(table) }
|
|
{ }
|
|
{ Generates a symbol table for the debugger. TABLE is the }
|
|
{ address of the symbol table, which will be passed back to a }
|
|
{ subroutine called GenSymbols, which must be supplied by the }
|
|
{ compiler. DOGLOBALS is a flag the compiler can set for its }
|
|
{ own purposes. C uses the flag to note that the symbol }
|
|
{ table being created is for main, so global symbols should be }
|
|
{ included. }
|
|
{ }
|