NAGR,FIXEDKh,i[p1facofixcap,i + x1cap_f_hhh]};
x1c,s,i-a1c,s,i = x1_sc,i - SIGMA1c[p1c,s,i+a1c,s,i - p1_sc,i]; Equation
E_p1_s Effective price of commodity composite
all,c,COMall,i,IND p1_sc,i = sum{s,SRC, S1c,s,i[p1c,s,i + a1c,s,i] };
Excerpt 18 of TABLO input file: Top nest of industry input demands
X1TOTi = MIN All,c,COM: X1_Sc,i[A1_Sc,s,iA1TOTi], X1PRIMi[A1PRIMiA1TOTi],
X1OCTi[A1OCTiA1TOTi] Equation
E_x1_sA Demands for commodity composites, non-agriculture
all,c,COMall,i,NAGR x1_sc,i - [a1_sc,i + a1toti] = x1toti; Equation
E_x1_sB Demands for commodity composites, agriculture
all,c,NONFERTall,i,AGIND x1_sc,i - [a1_sc,i + a1toti] = x1toti; demands for fertiliser are no longer Leontief
Equation
E_x1_sC Demands for composite fertiliser inputs, agri. production
all,i,AGINDx1_sIndPupPest,i = x1facFert,i; a1_sC39fert is a1facC39fert in agricultural industries
Equation
E_x1prim Demands for primary factor composite
all,i,INDx1primi - [a1toti + a1primi] = x1toti; Equation
E_x1oct Demands for other cost tickets
all,i,IND x1octi - [a1octi + a1toti] = x1toti; Equation
E_p1totA Zero pure profits in production
all,i,NAGR V1TOTi[p1toti-a1toti] = sum{c,COM, V1PUR_Sc,i [p1_sc,i + a1_sc,i] } +
V1PRIMi [p1primi + a1primi] + V1OCTi [p1octi + a1octi]; Equation
E_p1totB Zero pure profits in production
all,i,AGIND V1TOTi[p1toti-a1toti] = sum{c,NONFERT, V1PUR_Sc,i [p1_sc,i + a1_sc,i] } + V1PRIMi [p1primi + a1primi] + V1OCTi [p1octi + a1octi];
Excerpt 19A of TABLO input file: Output mix of commodities
Coefficient parameterall,i,IND SIGMA1OUTi
CET transformation elasticities ; Read
SIGMA1OUT from file MDATA header SCET; Equation
E_q1 Supplies of commodities by industries
all,c,COMall,i,IND q1c,i = x1toti + SIGMA1OUTi[p0comc - p1toti]; Coefficient
all,i,IND MAKE_Ci All production by industry i ;
all,c,COM MAKE_Ic Total production of commodities ; Formula
all,i,IND MAKE_Ci = sum{c,COM, MAKEc,i }; all,c,COM MAKE_Ic = sum{i,IND, MAKEc,i };
Equation
E_x1tot Average price received by industries
all,i,IND MAKE_Cip1toti = sum{c,COM, MAKEc,ip0comc }; Equation
E_x0com Total output of commodities
all,c,COM MAKE_Icx0comc = sum{i,IND, MAKEc,iq1c,i }; Excerpt 19B of TABLO input file:
CET between outputs for local and export markets Coefficient
all, c,COM EXPSHRc share going to exports ; all, c,COM TAUc 1elast. of transformation, exportablelocally used ;
Zerodivide Default 0.5;
Formula all,c,COM EXPSHRc = V4BAScSALESc;
all,c,COM TAUc = 0.0; if zero, p0dom = pe, and CET is nullified Zerodivide
Off; Equation
E_x0dom supply of commodities to export market
all,c,COM TAUc[x0domc - x4c] = p0domc - pec; Equation
E_x0com1 supply of commodities to domestic market
all,c,COM x0comc = [1.0-EXPSHRc]x0domc + EXPSHRcx4c; Equation
E_p0com Zero pure profits in transformation
all,c,COM p0comc = [1.0-EXPSHRc]p0domc + EXPSHRcpec; Map between vector and matrix forms of basic price variables
Equation
E_p0dom Basic price of domestic goods = p0c,dom
all,c,COM p0domc = p0c,dom; Equation
E_p0imp Basic price of imported goods = p0c,imp
all,c,COM p0impc = p0c,imp;
Excerpt 20 of TABLO input file: Investment demands
X2_Sc,i = CES All,s,SRC: X2c,s,iA2c,s,i Coefficient
parameterall,c,COM SIGMA2c
Armington elasticities: investment ; Read
SIGMA2 from file MDATA header 2ARM; Equation
E_x2 Source-specific commodity demands
all,c,COMall,s,SRCall,i,IND x2c,s,i-a2c,s,i - x2_sc,i = - SIGMA2c[p2c,s,i+a2c,s,i - p2_sc,i];
Equation
E_p2_s Effective price of commodity composite
all,c,COMall,i,IND p2_sc,i = sum{s,SRC, S2c,s,i[p2c,s,i+a2c,s,i] }; Investment top nest
X2TOTi = MIN All,c,COM: X2_Sc,i[A2_Sc,s,iA2TOTi] Equation
E_x2_s Demands for commodity composites
all,c,COMall,i,IND x2_sc,i - [a2_sc,i + a2toti] = x2toti; Equation
E_p2tot Zero pure profits in investment
all,i,IND V2TOTip2toti - a2toti = sum{c,COM, V2PUR_Sc,i [p2_sc,i+a2_sc,i] };
Excerpt 21 of TABLO input file: Importdomestic composition of household demands
X3_Sc,i = CES All,s,SRC: X3c,sA3c,s Coefficient
parameterall,c,COM SIGMA3c
Armington elasticities: households ; Read
SIGMA3 from file MDATA header 3ARM; Equation
E_x3 Source-specific commodity demands
all,c,COMall,s,SRCall,h,HH x3c,s,h-a3c,s = x3_sc,h - SIGMA3c[ p3c,s,h+a3c,s - p3_sc,h ];
Equation
E_p3_s Effective price of commodity composite
all,c,COMall,h,HH p3_sc,h = sum{s,SRC, S3c,s,h[p3c,s,h+a3c,s] };
Excerpt 22 of TABLO input file: Data and formulae for coefficients used in household demand equations
Coefficient all,h,HHFRISCHh Frisch LES parameter= - totalluxury ;
Read FRISCH from file MDATA header P021;
Update change all,h,HHFRISCHh = FRISCHh[w3tot_hhh - w3luxh]100.0;
Coefficient all,c,COMall,h,HH
EPSc,h Household expenditure elasticities ; Read
EPS from file MDATA header XPEL; Update
change all,c,COMall,h,HH EPSc,h = EPSc,h[x3luxc,h-x3_sc,h+w3tot_hhh-w3luxh]100.0;
Coefficient all,c,COMall,h,HH S3_Sc,h Household average budget shares ;
Zerodivide Default 0.5;
Formula all,c,COMall,h,HH S3_Sc,h = V3PUR_Sc,hV3TOT_HHh;
Zerodivide off;
Coefficient all,c,COMall,h,HHB3LUXc,h
Ratio, supernumerary expendituretotal expenditure, by commodity ;
Zerodivide Default 0.5;
Formula all,c,COMall,h,HH B3LUXc,h = -EPSc,hFRISCHh;
Zerodivide off;
Coefficient all,c,COMall,h,HHS3LUXc,h Marginal household budget shares ;
Formula all,c,COMall,h,HHS3LUXc,h = EPSc,hS3_Sc,h;
Excerpt 23 of TABLO input file: Commodity composition of household demand
Equation
E_x3sub Subsistence demand for composite commodities
all,c,COMall,h,HH x3subc,h = qh + a3subc,h; Equation
E_x3lux Luxury demand for composite commodities
all,c,COMall,h,HH x3luxc,h + p3_sc,h = w3luxh + a3luxc,h; Equation
E_x3_s Total household demand for composite commodities
all,c,COMall,h,HH x3_sc,h = B3LUXc,hx3luxc,h + [1-B3LUXc,h]x3subc,h;
Equation
E_utility Change in utility disregarding taste change terms
all,h,HHutilityh + qh = sum{c,COM, S3LUXc,hx3luxc,h }; Equation
E_a3lux Default setting for luxury taste shifter
all,c,COMall,h,HHa3luxc,h = a3subc,h - sum{k,COM,S3LUXk,ha3subk,h}; Equation
E_a3sub Default setting for subsistence taste shifter
all,c,COMall,h,HHa3subc,h = a3_sc,h - sum{k,COM, S3_Sk,ha3_sk,h };
Excerpt 24 of TABLO input file: Export and government demands
Coefficient parameterall,c,COM EXP_ELASTc
Export demand elasticities: typical value -20.0 ; Read
EXP_ELAST from file MDATA header P018; Equation
E_x4A Traditional export demand functions
all,c,COM x4c - f4qc = EXP_ELASTc[p4c - phi - f4pc]; Equation
E_x5 Government demands
all,c,COMall,s,SRC x5c,s = f5c,s + f5tot; Equation
E_f5tot Overall government demands shift f5tot = x3tot + f5tot2;
Excerpt 25 of TABLO input file: Margin demands
Equation
E_x1mar Margins to producers
all,c,COMall,s,SRCall,i,INDall,m,MAR
x1marc,s,i,m = x1c,s,i + a1marc,s,i,m; Equation
E_x2mar Margins to capital creators
all,c,COMall,s,SRCall,i,INDall,m,MAR x2marc,s,i,m = x2c,s,i + a2marc,s,i,m; Equation
E_x3mar Margins to households
all,c,COMall,s,SRCall,m,MARall,h,HH x3marc,s,m,h = x3c,s,h + a3marc,s,m; Equation
E_x4mar Margins to exports
all,c,COMall,m,MAR x4marc,m = x4c + a4marc,m; Equation
E_x5mar Margins to government users
all,c,COMall,s,SRCall,m,MAR x5marc,s,m = x5c,s + a5marc,s,m;
Excerpt 26 of TABLO input file: The price system
Equation
E_p1 Purchasers prices - producers
all,c,COMall,s,SRCall,i,IND[V1PURc,s,i+TINY]p1c,s,i = [
V1BASc,s,i+V1TAXc,s,i][p0c,s+ t1c,s,i] + sum{m,MAR, V1MARc,s,i,m[p0domm+a1marc,s,i,m] };
Equation
E_p2 Purchasers prices - capital creators
all,c,COMall,s,SRCall,i,IND[V2PURc,s,i+TINY]p2c,s,i = [
V2BASc,s,i+V2TAXc,s,i][p0c,s+ t2c,s,i] + sum{m,MAR, V2MARc,s,i,m[p0domm+a2marc,s,i,m] };
Equation
E_p3 Purchasers prices - households
all,c,COMall,s,SRCall,h,HH [V3PURc,s,h+TINY]p3c,s,h = [
V3BASc,s,h+V3TAXc,s,h][p0c,s+ t3c,s,h] + sum{m,MAR,V3MARc,s,m,h[p0domm+a3marc,s,m] };
Equation
E_p4 Zero pure profits in exporting
all,c,COM [V4PURc+TINY]p4c = [V4BASc+V4TAXc][pec + t4c]+ sum{m,MAR, V4MARc,m[p0domm+a4marc,m] };
note that we refer to export taxes,not subsidies Equation
E_p5 Zero pure profits in distribution of government
all,c,COMall,s,SRC[V5PURc,s+TINY]p5c,s = [V5BASc,s+V5TAXc,s][p0c,s+ t5c,s] + sum{m,MAR, V5MARc,s,m[p0domm+a5marc,s,m] };
Equation
E_p0A Zero pure profits in importing
all,c,COM p0c,imp = pf0cifc + phi + t0impc;
Excerpt 27 of TABLO input file: Market clearing equations
Equation
E_p0B Demand equals supply for non margin commodities
all,n,NONMAR DOMSALESnx0domn = sum{i,IND, V1BASn,dom,ix1n,dom,i + V2BASn,dom,ix2n,dom,i }
+ sum{h,HH, V3BASn,dom,hx3n,dom,h} + V5BASn,domx5n,dom note exports omitted + 100LEVP0n,domdelx6n,dom;
Equation
E_p0C Demand equals supply for margin commodities
all,m,MAR DOMSALESmx0domm = basic part first sum{i,IND, V1BASm,dom,ix1m,dom,i
+ V2BASm,dom,ix2m,dom,i } + sum{h,HH, V3BASm,dom,hx3m,dom,h}
+ V5BASm,domx5m,dom note exports omitted + 100LEVP0m,domdelx6m,dom now margin part
+ sum{c,COM, V4MARc,mx4marc,m note nesting of sum parentheses + sum{s,SRC,sumh,HH, V3MARc,s,m,hx3marc,s,m,h
+ V5MARc,s,mx5marc,s,m + sum{i,IND, V1MARc,s,i,mx1marc,s,i,m
+ V2MARc,s,i,mx2marc,s,i,m }}}; Equation
E_x0imp Import volumes
all,c,COM [TINY + V0IMPc]x0impc = sum{i,IND, V1BASc,imp,ix1c,imp,i
+ V2BASc,imp,ix2c,imp,i } + sum{h,HH, V3BASc,imp,hx3c,imp,h}
+ V5BASc,impx5c,imp + 100LEVP0c,impdelx6c,imp;
Equation
E_x1lab_i Demand equals supply for labour of each skill
all,o,OCC V1LAB_Iox1lab_io = sum{i,IND, V1LABi,ox1labi,o };
Excerpt 28 of TABLO input file: Tax rate equations
Equation
E_t1 Power of tax on sales to intermediate all,c,COMall,s,SRCall,i,IND t1c,s,i = f0tax_sc + f1tax_csi;
E_t2 Power of tax on sales to investment all,c,COMall,s,SRCall,i,IND t2c,s,i = f0tax_sc + f2tax_csi;
E_t3 Power of tax on sales to households all,c,COMall,s,SRCall,h,HH t3c,s,h = f0tax_sc + f3tax_sc,h;
E_t4A Power of tax on sales to traditional exports all,c,COM t4c = f0tax_sc + f4tax_trad;
E_t5 Power of tax on sales to government all,c,COMall,s,SRC t5c,s = f0tax_sc + f5tax_cs;
Excerpt 29 of TABLO input file: Indirect tax revenue
Equation
E_w1tax_csi Revenue from indirect taxes on flows to intermediate [TINY + V1TAX_CSI]w1tax_csi = sum{c,COM, sum{s,SRC, sum{i,IND,
V1TAXc,s,i[p0c,s+x1c,s,i]+[V1TAXc,s,i+V1BASc,s,i]t1c,s,i }}};
E_w2tax_csi Revenue from indirect taxes on flows to investment [TINY + V2TAX_CSI]w2tax_csi = sum{c,COM, sum{s,SRC, sum{i,IND,
V2TAXc,s,i[p0c,s+x2c,s,i]+[V2TAXc,s,i+V2BASc,s,i]t2c,s,i }}}; E_w3tax_cs Revenue from indirect taxes on flows to households
[TINY + V3TAX_CS]w3tax_cs = sum{c,COM, sum{s,SRC,sum{h,HH, V3TAXc,s,h[p0c,s+ x3c,s,h] + [V3TAXc,s,h+V3BASc,s,h]t3c,s,h}}};
E_w4tax_c Revenue from indirect taxes on exports [TINY + V4TAX_C]w4tax_c = sum{c,COM,
V4TAXc[pec + x4c] + [V4TAXc+ V4BASc]t4c }; E_w5tax_cs Revenue from indirect taxes on flows to government
[TINY + V5TAX_CS]w5tax_cs = sum{c,COM, sum{s,SRC, V5TAXc,s[p0c,s+ x5c,s] + [V5TAXc,s+V5BASc,s]t5c,s }};
E_w0tar_c Tariff revenue [TINY+V0TAR_C]w0tar_c = sum{c,COM,
V0TARc[pf0cifc + phi + x0impc] + V0IMPct0impc };
Excerpt 30 of TABLO input file: Factor incomes and GDP
Equation
E_w1lnd_i Aggregate payments to land V1LND_iw1lnd_i = sum{i,AGIND, V1LNDi[x1lndi+p1lndi] };
E_w1lab_io Aggregate payments to labour V1LAB_IOw1lab_io = sum{i,IND, sum{o,OCC, V1LABi,o[x1labi,o+p1labi,o]}};
E_w1cap_i Aggregate payments to capital V1CAP_Iw1cap_i = sum{i,IND, V1CAPi[x1capi+p1capi] };
E_w1oct_i Aggregate other cost ticket payments V1OCT_Iw1oct_i = sum{i,IND, V1OCTi[x1octi+p1octi] };
E_w0tax_csi Aggregate value of indirect taxes V0TAX_CSIw0tax_csi = V1TAX_CSIw1tax_csi + V2TAX_CSIw2tax_csi
+ V3TAX_CSw3tax_cs + V4TAX_Cw4tax_c + V5TAX_CSw5tax_cs + V0TAR_Cw0tar_c; E_w0gdpinc Aggregate nominal GDP from income side
V0GDPINCw0gdpinc = V1LND_Iw1lnd_i + V1CAP_Iw1cap_i + V1LAB_IOw1lab_io + V1OCT_Iw1oct_i + V0TAX_CSIw0tax_csi;
Excerpt 31 of TABLO input file: GDP expenditure aggregates
Equation
E_x2tot_i Total real investment
V2TOT_Ix2tot_i = sum{i,IND, V2TOTix2toti }; E_x2tot_i_ag
Total real investment for agriculture sectors
V2TOT_AGRIx2tot_i_ag = sum{i,AGRI, V2TOTix2toti }; E_x2tot_i_mo Total real investment miningoil sectors
V2TOT_MINOx2tot_i_mo = sum{i,MINO, V2TOTix2toti }; E_x2tot_i_mn Total real investment manufacture sectors
V2TOT_MANFx2tot_i_mn = sum{i,MANF, V2TOTix2toti };
E_x2tot_i_se Total real investment service sectors
V2TOT_SERVx2tot_i_se = sum{i,SERV, V2TOTix2toti }; E_p2tot_i
Investment price index
V2TOT_Ip2tot_i = sum{i,IND, V2TOTip2toti }; E_p2tot_i_ag
Investment price index for agriculture sectors
V2TOT_AGRIp2tot_i_ag = sum{i,AGRI, V2TOTip2toti }; E_p2tot_i_mo Investment price index for miningoil sectors
V2TOT_MINOp2tot_i_mo = sum{i,MINO, V2TOTip2toti }; E_p2tot_i_mn Investment price index for manufacture sectors
V2TOT_MANFp2tot_i_mn = sum{i,MANF, V2TOTip2toti }; E_p2tot_i_se
Investment price index for service sectors
V2TOT_SERVp2tot_i_se = sum{i,SERV, V2TOTip2toti }; E_w2tot_i
Total nominal investment w2tot_i = x2tot_i + p2tot_i;
E_w2tot_i_ag Total nominal investment for agriculture sectors w2tot_i_ag = x2tot_i_ag + p2tot_i_ag;
E_w2tot_i_mo Total nominal investment for miningoil sectors w2tot_i_mo = x2tot_i_mo + p2tot_i_mo;
E_w2tot_i_mn Total nominal investment for manufacture sectors w2tot_i_mn = x2tot_i_mn + p2tot_i_mn;
E_w2tot_i_se
Total nominal investment for service sectors w2tot_i_se = x2tot_i_se + p2tot_i_se;
E_x3tot_hh Real consumption
all,h,HHV3TOT_HHhx3tot_hhh=sum{c,COM,sum{s,SRC,V3PURc,s,hx3c,s,h}}; E_x3tot_hh_ag Real consumption for agriculture commodity
all,h,HHV3TOT_HH_AGhx3tot_hh_agh=sum{c,AGRI_C, sum{s,SRC,V3PURc,s,hx3c,s,h}};
E_x3tot_hh_mo
Real consumption for miningoil commodity
all,h,HHV3TOT_HH_MOhx3tot_hh_moh=sum{c,MINO_C, sum{s,SRC,V3PURc,s,hx3c,s,h}};
E_x3tot_hh_mn Real consumption for manufacture commodity
all,h,HHV3TOT_HH_MNhx3tot_hh_mnh=sum{c,MANF_C, sum{s,SRC,V3PURc,s,hx3c,s,h}};
E_x3tot_hh_se Real consumption for service commodity all,h,HHV3TOT_HH_SEhx3tot_hh_seh=sum{c,SERV_C,
sum{s,SRC,V3PURc,s,hx3c,s,h}}; E_p3tot_hh
Household price index
all,h,HHV3TOT_HHhp3tot_hhh=sum{c,COM,sum{s,SRC,V3PURc,s,hp3c,s,h}}; E_p3tot_hh_ag Household price index for agriculture commodity
all,h,HHV3TOT_HH_AGhp3tot_hh_agh=sum{c,AGRI_c, sum{s,SRC,V3PURc,s,hp3c,s,h}};
E_p3tot_hh_mo
Household price index for miningoil commodity
all,h,HHV3TOT_HH_MOhp3tot_hh_moh=sum{c,MINO_C, sum{s,SRC,V3PURc,s,hp3c,s,h}};
E_p3tot_hh_mn Household price index for manufacture commodity
all,h,HHV3TOT_HH_MNhp3tot_hh_mnh=sum{c,MANF_C, sum{s,SRC,V3PURc,s,hp3c,s,h}};
E_p3tot_hh_se Household price index for service commodity
all,h,HHV3TOT_HH_SEhp3tot_hh_seh=sum{c,SERV_C, sum{s,SRC,V3PURc,s,hp3c,s,h}};
E_w3tot_hh Household budget constraint
all,h,HHw3tot_hhh = x3tot_hhh + p3tot_hhh; E_w3tot_hh_ag
Household budget constraint for agriculture commodity
all,h,HHw3tot_hh_agh = x3tot_hh_agh + p3tot_hh_agh; E_w3tot_hh_mo
Household budget constraint for miningoil commodity
all,h,HHw3tot_hh_moh = x3tot_hh_moh + p3tot_hh_moh; E_w3tot_hh_mn
Household budget constraint for manufacture commodity
all,h,HHw3tot_hh_mnh = x3tot_hh_mnh + p3tot_hh_mnh; E_w3tot_hh_se
Household budget constraint for service commodity
all,h,HHw3tot_hh_seh = x3tot_hh_seh + p3tot_hh_seh; E_x3tot
Real consumption
V3TOTx3tot = sum{h,HH,V3TOT_HHhx3tot_hhh}; E_x3tot_ag
Real consumption for agriculture commodity
V3TOT_AGRIx3tot_ag = sum{h,HH,V3TOT_HH_AGhx3tot_hh_agh}; E_x3tot_mo
Real consumption for miningoil commodity
V3TOT_MINOx3tot_mo = sum{h,HH,V3TOT_HH_MOhx3tot_hh_moh}; E_x3tot_mn
Real consumption for manufacture commodity
V3TOT_MANFx3tot_mn = sum{h,HH,V3TOT_HH_MNhx3tot_hh_mnh}; E_x3tot_se
Real consumption for service commodity
V3TOT_SERVx3tot_se = sum{h,HH,V3TOT_HH_SEhx3tot_hh_seh}; E_p3tot
Consumer price index
V3TOTp3tot = sum{h,HH,V3TOT_HHhp3tot_hhh}; E_p3tot_ag
Consumer price index for agriculture commodity
V3TOT_AGRIp3tot_ag = sum{h,HH,V3TOT_HH_AGhp3tot_hh_agh}; E_p3tot_mo
Consumer price index for miningoil commodity
V3TOT_MINOp3tot_mo = sum{h,HH,V3TOT_HH_MOhp3tot_hh_moh}; E_p3tot_mn
Consumer price index for manufacture commodity
V3TOT_MANFp3tot_mn = sum{h,HH,V3TOT_HH_MNhp3tot_hh_mnh}; E_p3tot_se
Consumer price index for service commodity
V3TOT_SERVp3tot_se = sum{h,HH,V3TOT_HH_SEhp3tot_hh_seh}; E_w3tot
Household budget constraint w3tot = x3tot + p3tot;
E_w3tot_ag Household budget constraint for agriculture commodity
w3tot_ag = x3tot_ag + p3tot_ag; E_w3tot_mo Household budget constraint for miningoil commodity
w3tot_mo = x3tot_mo + p3tot_mo; E_w3tot_mn Household budget constraint for manufacture commodity
w3tot_mn = x3tot_mn + p3tot_mn; E_w3tot_se
Household budget constraint for service commodity w3tot_se = x3tot_se + p3tot_se;
E_x4tot Export volume index
V4TOTx4tot = sum{c,COM, V4PURcx4c }; E_x4tot_ag
Export volume index for agriculture commodity
V4TOT_AGRIx4tot_ag = sum{c,AGRI_C, V4PURcx4c };
E_x4tot_mo Export volume index for miningoil commodity
V4TOT_MINOx4tot_mo = sum{c,MINO_C, V4PURcx4c }; E_x4tot_mn
Export volume index for manufacture commodity
V4TOT_MANFx4tot_mn = sum{c,MANF_C, V4PURcx4c }; E_x4tot_se
Export volume index for service commodity
V4TOT_SERVx4tot_se = sum{c,SERV_C, V4PURcx4c }; E_p4tot
Exports price index, rupiah
V4TOTp4tot = sum{c,COM, V4PURcp4c }; E_p4tot_ag
Exports price index, rupiah for agriculture commodity
V4TOT_AGRIp4tot_ag = sum{c,AGRI_C, V4PURcp4c }; E_p4tot_mo
Exports price index, rupiah for miningoil commodity
V4TOT_MINOp4tot_mo = sum{c,MINO_C, V4PURcp4c }; E_p4tot_mn
Exports price index, rupiah for manufacture commodity
V4TOT_MANFp4tot_mn = sum{c,MANF_C, V4PURcp4c }; E_p4tot_se
Exports price index, rupiah for service commodity
V4TOT_SERVp4tot_se = sum{c,SERV_C, V4PURcp4c }; E_w4tot
rupiah border value of exports w4tot = x4tot + p4tot;
E_w4tot_ag rupiah border value of exports for agriculture commodity
w4tot_ag = x4tot_ag + p4tot_ag; E_w4tot_mo rupiah border value of exports for miningoil commodity
w4tot_mo = x4tot_mo + p4tot_mo; E_w4tot_mn rupiah border value of exports for manufacture commodity
w4tot_mn = x4tot_mn + p4tot_mn; E_w4tot_se
rupiah border value of exports for service commodity w4tot_se = x4tot_se + p4tot_se;
E_x5tot Aggregate real government demands
V5TOTx5tot = sum{c,COM, sum{s,SRC, V5PURc,sx5c,s }}; E_p5tot
Government price index
V5TOTp5tot = sum{c,COM, sum{s,SRC, V5PURc,sp5c,s }}; E_x5tot_ag
Aggregate real government demands for agriculture commodity
V5TOT_AGRIx5tot_ag = sum{c,AGRI_C, sum{s,SRC, V5PURc,sx5c,s }}; E_x5tot_mo
Aggregate real government demands for miningoil commodity
V5TOT_MINOx5tot_mo = sum{c,MINO_C, sum{s,SRC, V5PURc,sx5c,s }}; E_x5tot_mn
Aggregate real government demands for manufacture commodity
V5TOT_MANFx5tot_mn = sum{c,MANF_C, sum{s,SRC, V5PURc,sx5c,s }}; E_x5tot_se
Aggregate real government demands for service commodity
V5TOT_SERVx5tot_se = sum{c,SERV_C, sum{s,SRC, V5PURc,sx5c,s }}; E_p5tot_ag
Government price index for agriculture commodity
V5TOT_AGRIp5tot_ag = sum{c,AGRI_C, sum{s,SRC, V5PURc,sp5c,s }}; E_p5tot_mo
Government price index for miningoil commodity
V5TOT_MINOp5tot_mo = sum{c,MINO_C, sum{s,SRC, V5PURc,sp5c,s }}; E_p5tot_mn
Government price index for manufacture commodity
V5TOT_MANFp5tot_mn = sum{c,MANF_C, sum{s,SRC, V5PURc,sp5c,s }}; E_p5tot_se
Government price index for service commodity
V5TOT_SERVp5tot_se = sum{c,SERV_C, sum{s,SRC, V5PURc,sp5c,s }};
E_w5tot Agg.nominal val of government demands
w5tot = x5tot + p5tot; E_w5tot_ag
Agg.nominal val of government demands for agriculure commodity w5tot_ag = x5tot_ag + p5tot_ag;
E_w5tot_mo Agg.nominal val of government demands for miningoil commodity w5tot_mo = x5tot_mo + p5tot_mo;
E_w5tot_mn Agg.nominal val of government demands for manufacture commodity w5tot_mn = x5tot_mn + p5tot_mn;
E_w5tot_se
Agg.nominal val of government demands for service commodity w5tot_se = x5tot_se + p5tot_se;
E_x6tot Inventories volume index
V6TOTx6tot = 100sum{c,COM, sum{s,SRC, LEVP0c,sdelx6c,s }}; E_x6tot_ag
Inventories volume index for agriculture commodity
V6TOT_AGR Ix6tot_ag = 100sum{c,AGRI_C, sum{s,SRC, LEVP0c,sdelx6c,s }}; E_x6tot_mo
Inventories volume index for miningoil commodity
V6TOT_MINOx6tot_mo = 100sum{c,MINO_C, sum{s,SRC, LEVP0c,sdelx6c,s }}; E_x6tot_mn
Inventories volume index for manufacture commodity
V6TOT_MANFx6tot_mn = 100sum{c,MANF_C, sum{s,SRC, LEVP0c,sdelx6c,s }}; E_x6tot_se
Inventories volume index for service commodity
V6TOT_SERVx6tot_se = 100sum{c,SERV_C, sum{s,SRC, LEVP0c,sdelx6c,s }}; E_p6tot
Inventories price index
[TINY+V6TOT]p6tot = sum{c,COM, sum{s,SRC, V6BASc,sp0c,s }}; E_p6tot_ag
Inventories price index for agriculture commodity
[TINY+V6TOT_AGRI]p6tot_ag = sum{c,AGRI_C, sum{s,SRC, V6BASc,sp0c,s }}; E_p6tot_mo
Inventories price index for miningoil commodity
[TINY+V6TOT_MINO]p6tot_mo = sum{c,MINO_C, sum{s,SRC, V6BASc,sp0c,s }}; E_p6tot_mn
Inventories price index for manufacture commodity
[TINY+V6TOT_MANF]p6tot_mn = sum{c,MANF_C, sum{s,SRC, V6BASc,sp0c,s }}; E_p6tot_se
Inventories price index for service commodity
[TINY+V6TOT_SERV]p6tot_se = sum{c,SERV_C, sum{s,SRC, V6BASc,sp0c,s }}; E_w6tot
Aggregate nominal value of inventories w6tot = x6tot + p6tot;
E_w6tot_ag Agg.nominal value of inventories for agriculture commodity
w6tot_ag = x6tot_ag + p6tot_ag; E_w6tot_mo Agg.nominal value of inventories for miningoil commodity
w6tot_mo = x6tot_mo + p6tot_mo; E_w6tot_mn Agg.nominal value of inventories for manufacture commodity
w6tot_mn = x6tot_mn + p6tot_mn; E_w6tot_se
Agg.nominal value of inventories for service commodity w6tot_se = x6tot_se + p6tot_se;
E_x0cif_c Import volume index, C.I.F. weights
V0CIF_Cx0c if_c = sum{c,COM, V0CIFcx0impc }; E_x0cif_c_ag Import volume index, C.I.F. weights for agriculture commodity
V0CIF_AGRIx0cif_c_ag = sum{c,AGRI_C, V0CIFcx0impc }; E_x0cif_c_mo Import volume index, C.I.F. weights for miningoil commodity
V0CIF_MINOx0cif_c_mo = sum{c,MINO_C, V0CIFcx0impc }; E_x0cif_c_mn Import volume index, C.I.F. weights for manufacture commodity
V0CIF_MANFx0cif_c_mn = sum{c,MANF_C, V0CIFcx0impc }; E_x0cif_c_se
Import volume index, C.I.F. weights for service commodity
V0CIF_SERVx0cif_c_se = sum{c,SERV_C, V0CIFcx0impc }; E_p0cif_c
Imports price index, rupiah C.I.F.
V0CIF_Cp0cif_c = sum{c,COM, V0CIFc[phi+pf0cifc] }; E_p0cif_c_ag Imports price index, rupiah C.I.F. for agriculture commodity
V0CIF_AGRIp0cif_c_ag = sum{c,AGRI_C, V0CIFc[phi+pf0cifc] }; E_p0cif_c_mo Imports price index, rupiah C.I.F. for miningoil commodity
V0CIF_MINOp0cif_c_mo = sum{c,MINO_C, V0CIFc[phi+pf0cifc] }; E_p0cif_c_mn Imports price index, rupiah C.I.F. for manufacture commodity
V0CIF_MANFp0cif_c_mn = sum{c,MANF_C, V0CIFc[phi+pf0cifc] }; E_p0cif_c_se
Imports price index, rupiah C.I.F. for service commodity
V0CIF_SERVp0cif_c_se = sum{c,SERV_C, V0CIFc[phi+pf0cifc] }; E_w0cif_c
Value of imports, rupiah C.I.F. w0cif_c = x0cif_c + p0cif_c;
E_w0cif_c_ag Value of imports, rupiah C.I.F. for agriculture commodity w0cif_c_ag = x0cif_c_ag + p0cif_c_ag;
E_w0cif_c_mo Value of imports, rupiah C.I.F. for miningoil commodity w0cif_c_mo = x0cif_c_mo + p0cif_c_mo;
E_w0cif_c_mn Value of imports, rupiah C.I.F. for manufacture commodity w0cif_c_mn = x0cif_c_mn + p0cif_c_mn;
E_w0cif_c_se Value of imports, rupiah C.I.F. for service commodity w0cif_c_se = x0cif_c_se + p0cif_c_se;
E_x0gdpexp
Real GDP, expenditure side V0GDPEXPx0gdpexp = V3TOTx3tot + V2TOT_Ix2tot_i + V5TOTx5tot
+ V6TOTx6tot + V4TOTx4tot - V0CIF_Cx0cif_c; E_x0gdpexp_ag Real GDP, expenditure side Agriculture Sectors
V0GDPEXP_AGx0gdpexp_ag = V3TOT_AGRIx3tot_ag + V2TOT_AGRIx2tot_i_ag + V5TOT_AGRIx5tot_ag + V6TOT_AGRI x6tot_ag
+ V4TOT_AGRIx4tot_ag - V0CIF_AGRIx0cif_c_ag; E_x0gdpexp_mo
Real GDP, expenditure side MiningOil Sectors V0GDPEXP_MOx0gdpexp_mo = V3TOT_MINOx3tot_mo + V2TOT_MINOx2tot_i_mo +
V5TOT_MINOx5tot_mo + V6TOT_MINOx6tot_mo + V4TOT_MINOx4tot_mo - V0CIF_MINOx0cif_c_mo;
E_x0gdpexp_mn Real GDP, expenditure side Manufacture Sectors
V0GDPEXP_MNx0gdpexp_mn = V3TOT_MANFx3tot_mn + V2TOT_MANFx2tot_i_mn + V5TOT_MANFx5tot_mn + V6TOT_MANFx6tot_mn
+ V4TOT_MANFx4tot_mn - V0CIF_MANFx0cif_c_mn ; E_x0gdpexp_se Real GDP, expenditure side Service Sectors
V0GDPEXP_SEx0gdpexp_se = V3TOT_SERVx3tot_se + V2TOT_SERVx2tot_i_se + V5TOT_SERVx5tot_se + V6TOT_SERVx6tot_se
+ V4TOT_SERVx4tot_se - V0CIF_SERVx0cif_c_se; E_p0gdpexp
Price index for GDP, expenditure side V0GDPEXPp0gdpexp = V3TOTp3tot + V2TOT_Ip2tot_i + V5TOTp5tot
+ V6TOTp6tot + V4TOTp4tot - V0CIF_Cp0cif_c;
E_p0gdpexp_ag Price index for GDP, expenditure side for agriculture sectors V0GDPEXP_AGp0gdpexp_ag = V3TOT_AGRIp3tot_ag + V2TOT_AGRIp2tot_i_ag +
V5TOT_AGRIp5tot_ag + V6TOT_AGRIp6tot_ag + V4TOT_AGRIp4tot_ag - V0CIF_AGRIp0cif_c_ag;
E_p0gdpexp_mo
Price index for GDP, expenditure side for miningoil sectors V0GDPEXP_MOp0gdpexp_mo = V3TOT_MINOp3tot_mo + V2TOT_MINOp2tot_i_mo +
V5TOT_MINOp5tot_mo + V6TOT_MINOp6tot_mo + V4TOT_MINOp4tot_mo - V0CIF_MINOp0cif_c_mo;
E_p0gdpexp_mn Price index for GDP, expenditure side for manufacture sectors
V0GDPEXP_MNp0gdpexp_mn = V3TOT_MANFp3tot_mn + V2TOT_MANFp2tot_i_mn + V5TOT_MANFp5tot_mn + V6TOT_MANFp6tot_mn + V4TOT_MINOp4tot_mn
- V0CIF_MANFp0cif_c_mn; E_p0gdpexp_se Price index for GDP, expenditure side for service sectors
V0GDPEXP_SEp0gdpexp_se = V3TOT_SERVp3tot_se + V2TOT_SERVp2tot_i_se + V5TOT_SERVp5tot_se + V6TOT_SERVp6tot_se + V4TOT_SERVp4tot_se
- V0CIF_SERVp0cif_c_se; E_w0gdpexp
Nominal GDP from expenditure side w0gdpexp = x0gdpexp + p0gdpexp;
E_w0gdpexp_ag Nominal GDP from expenditure side for agriculture sectors
w0gdpexp_ag = x0gdpexp_ag + p0gdpexp_ag; E_w0gdpexp_mo
Nominal GDP from expenditure side for miningoil sectors w0gdpexp_mo = x0gdpexp_mo + p0gdpexp_mo;
E_w0gdpexp_mn Nominal GDP from expenditure side for manufacture sectors
w0gdpexp_mn = x0gdpexp_mn + p0gdpexp_mn; E_w0gdpexp_se Nominal GDP from expenditure side for service sectors
w0gdpexp_se = x0gdpexp_se + p0gdpexp_se;
E_shrgdpexp_ag share GDP from expenditure side for agriculture sectors
SHGDPEXP_AGshrgdpexp_ag = x0gdpexp_ag - x0gdpexp; E_shrgdpexp_mo
share GDP from expenditure side for miningoil sectors SHGDPEXP_MOshrgdpexp_mo = x0gdpexp_mo - x0gdpexp;
E_shrgdpexp_mn share GDP from expenditure side for manufacture sectors
SHGDPEXP_MNshrgdpexp_mn = x0gdpexp_mn - x0gdpexp; E_shrgdpexp_se share GDP from expenditure side for service sectors
SHGDPEXP_SEshrgdpexp_se = x0gdpexp_se - x0gdpexp;
Excerpt 32 of TABLO input file: Trade balance and other aggregates
Equation
E_delB Balance of tradeGDP
V0GDPEXPdelB = V4TOTw4tot - V0CIF_Cw0cif_c -V4TOT-V0CIF_Cw0gdpexp; E_x0imp_c
Import volume index, duty paid weights
V0IMP_Cx0imp_c = sum{c,COM, V0IMPcx0impc }; E_p0imp_c
Duty paid imports price index
V0IMP_Cp0imp_c = sum{c,COM, V0IMPcp0c,imp }; E_w0imp_c
Value of imports duty paid w0imp_c = x0imp_c + p0imp_c;
E_x1cap_i Aggregate usage of capital,rental weights
V1CAP_Ix1cap_i = sum{i,IND, V1CAPix1capi }; E_p1cap_i
Average capital rental
V1CAP_Ip1cap_i = sum{i,IND, V1CAPip1capi }; Equation
E_employ Employment by industry
all,i,IND V1LAB_Oiemployi = sum{o,OCC, V1LABi,ox1labi,o }; E_p1lab_io Average nominal wage
V1LAB_IOp1lab_io = sum{i,IND, sum{o,OCC, V1LABi,op1labi,o }}; E_realwage Average real wage
realwage = p1lab_io - p3tot; E_x1prim_i Aggregate output: value-added weights
V1PRIM_Ix1prim_i = sum{i,IND, V1PRIMix1toti }; E_p0toft Terms of trade
p0toft = p4tot - p0cif_c; E_p0realdev Real devaluation
p0realdev = p0cif_c - p0gdpexp;
Excerpt 33 of TABLO input file: Investment equations
Variable all,i,IND ggroi Gross growth rate of capital = Investmentcapital ;
all,i,IND greti Gross rate of return = Rental[Price of new capital] ; Equation
E_ggro all,i,IND ggroi = x2toti - x1capi; E_gret all,i,IND greti = p1capi - p2toti;
Three alternative rules for investment: Choose which applies to each industry by setting JUST ONE of
the corresponding elements of x2tot, finv1, finv2, or finv3 exogenous. Iff aggregate investment x2tot_i is exogenous, invslack must be endogenous.
Variable
all,i,IND finv1i Shifter to enforce DPSV investment rule ;
all,i,IND finv2i Shifter for exogenous investment rule ;
all,i,IND finv3i Shifter for longrun investment rule ;
invslack Investment slack variable for exogenizing aggregate investment ;
Rule 1: Follows Section 19 of DPSV. The ratios Q and G are treated as parameters, just as in the original ORANI implementation. Attempts to
improve the theory by updating these parameters have been found to occasionally lead to perversely signed coefficients
Equation
E_finv1 DPSV investment rule
all,i,IND ggroi = finv1i + 0.33[2.0greti - invslack]; Note: above equation comes from substituting together DPSV
equations 19.7-9. The value 0.33 and 2.0 correspond to the DPSV ratios [1G.Beta] and Q = ratio, gross to net rate of return and are typical
values of this ratio. In DPSV invslack was called omega and was interpreted as the economy-wide rate of return
Rule 2: For industries where investment is not mainly driven by current profits eg, Education make investment follow aggregate investment.
Equation
E_finv2 Alternative rule for exogenous investment industries
all,i,IND x2toti = x2tot_i + finv2i; NB: you must not set ALL of finv2 exogenous else above would conflict with
Equation E_x2tot_i Rule 3: longrun investment rule: investmentcapital ratios are exogenous
Equation
E_finv3 Alternative long-run investment rule
all,i,IND ggroi = finv3i + invslack; Variable
f2tot Ratio, investmentconsumption ;
Equation E_f2tot x2tot_i = x3tot + f2tot;
set f2tot exogenous and invslack endogenous to link aggregate investment to real consumption
Excerpt 34 of TABLO input file: Indexing and other equations
Equation
E_p1oct Indexing of prices of other cost tickets
all,i,IND p1octi = p3tot + f1octi; assumes full indexation E_delx6 possible rule for stocks
all,c,COMall,s,SRC 100LEVP0c,sdelx6c,s=V6BASc,sx0comc+fx6c,s;
Excerpt 35 of TABLO input file: Decomposition of Fan
Set
FANCAT parts of Fan decomposition LocalMarket, ImportShare, Export, Total;
Variable all,c,COM x0locc real percent change in LOCSALES dom+imp ;
changeall,c,COMall,f,FANCAT fandecompc,f Fan decomposition ; Coefficient
all,c,COM LOCSALESc Total local sales of dom + imp commodity c ; all,c,COM INITSALESc Initial volume of SALES at final prices ;
Formula all,c,COM LOCSALESc = DOMSALESc + V0IMPc;
initial all,c,COM INITSALESc = SALESc; Update
all,c,COM INITSALESc = p0comc;
Equation E_x0loc growth in local market
all,c,COM LOCSALEScx0locc = DOMSALEScx0domc + V0IMPcx0impc;
Equation
E_fandecompA growth in local market effect
all,c,COM INITSALEScfandecompc,LocalMarket = DOMSALEScx0locc; The local market effect is the change in output that would have occurred
if local sales of the domestic product had followed dom+imp sales x0loc Equation
E_fandecompB export effect
all,c,COM INITSALEScfandecompc,Export = V4BAScx4c; Equation
E_fandecompC import leakage effect - via residual
all,c,COM fandecompc,Total = fandecompc,LocalMarket + fandecompc,ImportShare + fandecompc,Export;
Equation
E_fandecompD Fan total = x0com
all,c,COM INITSALEScfandecompc,Total = SALEScx0comc;
Excerpt 36 of TABLO input file: Fiscal extension
Set
TYPE expend, recp; expend=govt. payments, recp=govt. receipts
Variable all,h,HHall,t,TYPEfgov_hh,t Shift in transfers: govt. -- households ;
all,t,TYPE fgov_ft
Shift in transfers: govt. -- foreign ;
all,h,HHall,t,TYPEgov_hh,t Transfers: govt. -- households ; all,t,TYPE gov_ft
Transfers: govt. -- foreign ;
all,h,HH w0hhtaxh change in personal income tax ;
all,h,HHw0hhinch Aggregate nominal take-home income earned by households;
change delbudget Rupiah change in budget balance G-T ; w0govt_t Aggregate government revenue;
w0govt_g Aggregate government expenditure; f1inc_tax Overall income tax shifter ;
Coefficient
GOVTREV Total government revenue ;
GOVTEXP Nominal total current and capital government expenditure ;
all,i,EXOGINVV2TOT_Gi Total govt. funding of capital created for i ;
all,t,TYPETRANSFER_Ft Government transfers: paymentsreceipts foreign;
all,h,HHall,t,TYPETRANSFER_Hh,t Govt transfers to and from hholds; all,h,HHV0HHTAXh
Personal income tax on all household factors ;
all,h,HHV0HHINCh Income earned by households ; Read
V0HHTAX from file MDATA header PINC; TRANSFER_F from file MDATA header TRAN;
TRANSFER_H from file MDATA header GOHH; Update
all,t,TYPE TRANSFER_Ft = gov_ft; all,h,HHall,t,TYPETRANSFER_Hh,t = gov_hh,t;
all,h,HH
V0HHTAXh = w0hhtaxh;
Formula all,i,EXOGINVV2TOT_Gi = sum{c,COM, V2PUR_Sc,i }0.3;
allocation of public investment GOVTREV = V0TAX_CSI + sum{h,HH,V0HHTAXh} +
TRANSFER_Frecp +sum{h,HH,TRANSFER_Hh,recp}; GOVTEXP = V5TOT + Sum{i,EXOGINV, V2TOT_Gi} +
TRANSFER_Fexpend +sum{h,HH,TRANSFER_Hh,expend}; Equation
E_w3lux consumption function
All,h,HH w3tot_hhh = f3tot + f3tot_hh + w0hhinch; Equation
E_w0hhtax Aggregate nominal income tax paid by households
all,h,HHw0hhtaxh = w0hhinch + f1inc_tax; Equation E_w0hhtax constrains any exogenous shifts in the income tax rate to
being equal across all household factors of production. Note that take-home household income is used in the consumption function.
Equation
E_gov_f Government transfers to and from foreigners
all,t,TYPEgov_ft = p3tot + fgov_ft; Equation
E_gov_h Government transfers to and from households
all,h,HHall,t,TYPEgov_hh,t = p3tot + fgov_hh,t; Formula
all,h,HHV0HHINCh = sum{
i,AGIND,LANDSi,h} + sum{o,OCC,HINCh,o} + MMAh+MMNh + sum{i,NAGR,FIXEDKh,i} + TRANSFER_Hh,expend -
TRANSFER_Hh,recp - V0HHTAXh; Equation
E_w0hhinc Aggregate nominal take-home income earned by households
all,h,HHV0HHINChw0hhinch= sum{
i,AGIND,LANDSi,h[p1lndi + x1lndi_hhi,h]} + sum{
o,OCC,HINCh,o[x1lab_i_ho,h + p1lab_io + f1lab_i_xo]} + [MMAh+MMNh]w1cap_vh + sum{i,NAGR,FIXEDKh,i}w1cap_fh
+ TRANSFER_Hh,expendgov_hh,expend - TRANSFER_Hh,recpgov_hh,recp - V0HHTAXhw0hhtaxh;
Equation
E_w0govt_t Aggregate government revenue
GOVTREVw0govt_t = V0TAX_CSIw0tax_csi + sum{h,HH,V0HHTAXhw0hhtaxh} + TRANSFER_Frecpgov_frecp +
sum{h,HH,TRANSFER_Hh,recpgov_hh,recp}; Equation
E_w0govt_g Aggregate government expenditure
GOVTEXPw0govt_g = V5TOTw5tot +Sum{i,EXOGINV, V2TOT_Gi[x2toti + p2toti]} + TRANSFER_Fexpendgov_fexpend
+ sum{h,HH,TRANSFER_Hh,expendgov_hh,expend}; Equation
E_delbudget Change in budget balance G-T increased deficit 0 100delbudget = GOVTEXPw0govt_g - GOVTREVw0govt_t ;
Excerpt 37 of TABLO input file: Data for Checking Identities
File new SUMMARY Summary and checking data ;
Coefficient
coefficients for checking
all,i,IND PURE_PROFITSi COSTS-MAKE_C : should be zero ;
all,c,COM LOST_GOODSc SALES-MAKE_I : should be zero ; all,h,HH EPSTOTh
Average Engel elasticity: should = 1 ;
Formula all,i,IND PURE_PROFITSi = V1TOTi - MAKE_Ci;
all,c,COM LOST_GOODSc = SALESc - MAKE_Ic; all,h,HH EPSTOTh = sum{c,COM, S3_Sc,hEPSc,h};
Write
PURE_PROFITS to file SUMMARY header PURE longname COSTS-MAKE_C: should = 0; LOST_GOODS to file SUMMARY header LOST longname SALES-MAKE_I: should = 0;
EPSTOT to file SUMMARY header ETOT longname Average Engel elast: should = 1; Excerpt 38 of TABLO input file:
Components of GDP from income and expenditure sides Set
EXPMAC Expenditure Aggregates Consumption, Investment, Government, Stocks, Exports, Imports;
Coefficient all,e,EXPMAC EXPGDPe Expenditure Aggregates ;
Formula
EXPGDPConsumption= V3TOT; EXPGDPInvestment = V2TOT_I;
EXPGDPGovernment = V5TOT; EXPGDPStocks
= V6TOT; EXPGDPExports = V4TOT;
EXPGDPImports = -V0CIF_C; Write
EXPGDP to file SUMMARY header EMAC longname Expenditure Aggregates; Set
EXPSEC Expenditure Aggregates by Sector Agriculture, MiningOil, Manufacture, Services;
Coefficient all,e,EXPSEC EXPGDPSECe Expenditure Aggregates by Sectors ;
Formula
EXPGDPSECAgriculture = V0GDPEXP_AG;
EXPGDPSECMiningOil = V0GDPEXP_MO;
EXPGDPSECManufacture = V0GDPEXP_MN;
EXPGDPSECServices = V0GDPEXP_SE;
Write EXPGDPSEC to file SUMMARY header GSEC
longname Expenditure Aggregates by Sectors; Set
INCMAC Income Aggregates Land, Labour, Capital, OCT, IndTaxes;
Coefficient all,i,INCMAC INCGDPi Income Aggregates ;
Formula
INCGDPLand = V1LND_I;
INCGDPLabour = V1LAB_IO;
INCGDPCapital = V1CAP_I;
INCGDPOCT = V1OCT_I;
INCGDPIndTaxes = V0TAX_CSI;