fis-gtm/sr_i386/mval_def.si

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#################################################################
# #
# Copyright 2001, 2011 Fidelity Information Services, Inc #
# #
# This source code contains the intellectual property #
# of its copyright holder(s), and is made available #
# under a license. If you do not know the terms of #
# the license, please stop and do not read further. #
# #
#################################################################
.sbttl mval_def.si
# PAGE +
# -------------------------------------------
# mval_def.si
#
# This is an include file for
# SCO Unix 80386 masm assembler containing
# the macros for mval-related assembly routines.
# -------------------------------------------
mval_v_nm = 0
mval_v_int = 1
mval_v_str = 2
mval_v_num_approx = 3
mval_v_canonical = 4
mval_v_sym = 5
mval_v_sublit = 6
mval_v_retarg = 7
mval_v_utflen = 8
mval_v_aliascont = 9
mval_m_nm = 0x001
mval_m_int_without_nm = 0x002
mval_m_int = 0x003
mval_m_str = 0x004
mval_m_num_approx = 0x008
mval_m_canonical = 0x010
mval_m_sym = 0x020
mval_m_sublit = 0x040
mval_m_retarg = 0x080
mval_m_utflen = 0x100
mval_m_aliascont = 0x200
#smw 99/7/12 Now using MS VC 5.0 so the following paragraph should
# be replaced.
# NOTE: The SCO C compiler pads out bit fields to the length of
# the underlying type. For example, a series of "unsigned int"
# bit fields will be padded out to a multiple of 4 bytes, even if
# they require less than one byte total, because the underlying
# type is "int". Similarly, a series of "unsigned short" bit
# fields will be padded out to a multiple of 2 bytes, and a
# series of "unsigned char" will be padded out to a byte boundary.
# Also note the padding is not related to alignment, only to
# total length.
#
#smw 99/10/19 gcc on Linux doesn't do the above
#
# Length of mval in bytes
mval_byte_len = 24
# Offsets of type, exp, strlen, stradd, num in mval structure
mval_w_mvtype = 0
mval_b_exp = 2
mval_l_strlen = 16
mval_a_straddr = 20
# Address offset of number in mval
mvalnm_offs = 4
mval_l_m0 = 4
mval_l_m1 = 8
mval_esign_mask = 0x080
MV_BIAS = 1000 # 10**3
MANT_LO = 100000000 # 10**8
MANT_HI = 1000000000 # 10**9
INT_HI = 1000000 # 10**6
# Stringpool structure offsets
base = 0
free = 4
top = 8
# mvals passed to these macros must be registers
.sbttl mval_def.si mv_force_defined
# ---------------------------------------
# mv_force_defined(mval, label)
# ---------------------------------------
.macro mv_force_defined mval, label
testw $(mval_m_str+mval_m_nm),mval_w_mvtype(\mval)
jne \label
pushl \mval
call underr
addl $4,%esp
movl %eax, \mval
\label:
.endm
.sbttl mval_def.si mv_force_str
# ---------------------------------------
# mv_force_str(mval, label)
# ---------------------------------------
.macro mv_force_str mval, label
testw $mval_m_str,mval_w_mvtype(\mval)
jne \label
pushl \mval
call n2s
addl $4,%esp
\label:
.endm
.sbttl mval_def.si mv_force_num
# ---------------------------------------
# mv_force_num(mval, label)
# ---------------------------------------
.macro mv_force_num mval, label
testw $mval_m_nm,mval_w_mvtype(\mval)
jne \label
pushl \mval
call s2n
addl $4,%esp
\label:
.endm
.sbttl mval_def.si mv_force_str_if_num_approx
# ---------------------------------------
# mv_force_str_if_num_approx(mval, label)
# ---------------------------------------
.macro mv_force_str_if_num_approx mval, label
testw $mval_m_num_approx,mval_w_mvtype(\mval)
je \label
pushl \mval
call n2s
addl $4,%esp
\label:
.endm
.sbttl mval_def.si mv_i2mval
# ---------------------------------------
# mv_i2mval(int, mval)
# ---------------------------------------
.macro mv_i2mval int, mval
movw $mval_m_int,mval_w_mvtype(\mval)
movl \int,%eax
imull $MV_BIAS,%eax,%eax
movl %eax,mval_l_m1(\mval)
.endm
.sbttl mval_def.si mv_if_string
# ---------------------------------------
# mv_if_string(mval,label)
# ---------------------------------------
.macro mv_if_string mval, label
testw $mval_m_str,mval_w_mvtype(\mval)
jne \label
.endm
.sbttl mval_def.si mv_if_number
# ---------------------------------------
# mv_if_number(mval,label)
# ---------------------------------------
.macro mv_if_number mval, label
testw $mval_m_nm,mval_w_mvtype(\mval)
jne \label
.endm
.sbttl mval_def.si mv_if_int
# ---------------------------------------
# mv_if_int(mval,label)
# ---------------------------------------
.macro mv_if_int mval, label
testw $mval_m_int_without_nm,mval_w_mvtype(\mval)
jne \label
.endm
.sbttl mval_def.si mv_if_notstring
# ---------------------------------------
# mv_if_notstring(mval,label)
# ---------------------------------------
.macro mv_if_notstring mval, label
testw $mval_m_str,mval_w_mvtype(\mval)
je \label
.endm
.sbttl mval_def.si mv_if_notnumber
# ---------------------------------------
# mv_if_notnumber(mval,label)
# ---------------------------------------
.macro mv_if_notnumber mval, label
testw $mval_m_nm,mval_w_mvtype(\mval)
je \label
.endm
.sbttl mval_def.si mv_if_notint
# ---------------------------------------
# mv_if_notint(mval,label)
# ---------------------------------------
.macro mv_if_notint mval, label
testw $mval_m_int_without_nm,mval_w_mvtype(\mval)
je \label
.endm
.sbttl mval_def.si mv_if_defined
# ---------------------------------------
# mv_if_defined(mval,label)
# ---------------------------------------
.macro mv_if_defined mval, label
testw $(mval_m_str+mval_m_nm),mval_w_mvtype(\mval)
jne \label
.endm
.sbttl mval_def.si mv_if_notdefined
# ---------------------------------------
# mv_if_notdefined(mval,label)
# ---------------------------------------
.macro mv_if_notdefined mval, label
testw $(mval_m_str+mval_m_nm),mval_w_mvtype(\mval)
je \label
.endm
.sbttl mval_def.si mv_if_canonical
# -------------------------------------------------------------
# WARNING:
# Following macro needs to be supplied with 2 extra labels that
# are used by local branch instructions, tmp_label1 and tmp_label2
# -------------------------------------------------------------
# mv_if_canonical(mval,mainlabel, tmp_label1, tmp_label2)
# -------------------------------------------------------------
.macro mv_if_canonical mval, mainlabel, tmp_label1, tmp_label2
testw $mval_m_nm,mval_w_mvtype(\mval)
je \tmp_label1
testw $mval_m_num_approx,mval_w_mvtype(\mval)
jne \tmp_label2
jmp \mainlabel
\tmp_label1:
pushl \mval
call val_iscan
addl $4,%esp
cmpl $0,%eax
jne \mainlabel
\tmp_label2:
.endm