mirror of
https://github.com/SamyRai/turash.git
synced 2025-12-26 23:01:33 +00:00
000eab4740
Repository Structure:
- Move files from cluttered root directory into organized structure
- Create archive/ for archived data and scraper results
- Create bugulma/ for the complete application (frontend + backend)
- Create data/ for sample datasets and reference materials
- Create docs/ for comprehensive documentation structure
- Create scripts/ for utility scripts and API tools
Backend Implementation:
- Implement 3 missing backend endpoints identified in gap analysis:
* GET /api/v1/organizations/{id}/matching/direct - Direct symbiosis matches
* GET /api/v1/users/me/organizations - User organizations
* POST /api/v1/proposals/{id}/status - Update proposal status
- Add complete proposal domain model, repository, and service layers
- Create database migration for proposals table
- Fix CLI server command registration issue
API Documentation:
- Add comprehensive proposals.md API documentation
- Update README.md with Users and Proposals API sections
- Document all request/response formats, error codes, and business rules
Code Quality:
- Follow existing Go backend architecture patterns
- Add proper error handling and validation
- Match frontend expected response schemas
- Maintain clean separation of concerns (handler -> service -> repository)
160 lines
5.2 KiB
Go
160 lines
5.2 KiB
Go
package financial
|
|
|
|
import "math"
|
|
|
|
// SensitivityAnalyzerImpl implements SensitivityAnalyzer interface
|
|
type SensitivityAnalyzerImpl struct {
|
|
config *Config
|
|
npvCalc NPVCalculator
|
|
}
|
|
|
|
// NewSensitivityAnalyzer creates a new sensitivity analyzer
|
|
func NewSensitivityAnalyzer(config *Config, npvCalc NPVCalculator) SensitivityAnalyzer {
|
|
return &SensitivityAnalyzerImpl{
|
|
config: config,
|
|
npvCalc: npvCalc,
|
|
}
|
|
}
|
|
|
|
// AnalyzeSensitivity performs comprehensive sensitivity analysis on key parameters
|
|
func (sa *SensitivityAnalyzerImpl) AnalyzeSensitivity(
|
|
baseAnalysis *EconomicAnalysis,
|
|
assumptions *EconomicAssumptions,
|
|
) []SensitivityScenario {
|
|
|
|
var scenarios []SensitivityScenario
|
|
|
|
// Sensitivity on discount rate
|
|
for _, variation := range sa.config.SensitivityVariations {
|
|
newDiscountRate := assumptions.DiscountRate * (1 + variation)
|
|
newNPV := sa.npvCalc.CalculateNPV(
|
|
baseAnalysis.CapexRequired,
|
|
baseAnalysis.AnnualSavings-baseAnalysis.OpexPerYear,
|
|
newDiscountRate,
|
|
assumptions.ProjectLifeYears,
|
|
)
|
|
|
|
scenarios = append(scenarios, SensitivityScenario{
|
|
VariableName: "discount_rate",
|
|
BaseValue: assumptions.DiscountRate,
|
|
VariationPct: variation,
|
|
ImpactOnNPV: (newNPV - baseAnalysis.NPV) / math.Abs(baseAnalysis.NPV),
|
|
RiskLevel: sa.calculateRiskLevel(math.Abs((newNPV - baseAnalysis.NPV) / baseAnalysis.NPV)),
|
|
})
|
|
}
|
|
|
|
// Sensitivity on CAPEX
|
|
for _, variation := range sa.config.SensitivityVariations {
|
|
newCapex := baseAnalysis.CapexRequired * (1 + variation)
|
|
newNPV := sa.npvCalc.CalculateNPV(
|
|
newCapex,
|
|
baseAnalysis.AnnualSavings-baseAnalysis.OpexPerYear,
|
|
assumptions.DiscountRate,
|
|
assumptions.ProjectLifeYears,
|
|
)
|
|
|
|
scenarios = append(scenarios, SensitivityScenario{
|
|
VariableName: "capex",
|
|
BaseValue: baseAnalysis.CapexRequired,
|
|
VariationPct: variation,
|
|
ImpactOnNPV: (newNPV - baseAnalysis.NPV) / math.Abs(baseAnalysis.NPV),
|
|
RiskLevel: sa.calculateRiskLevel(math.Abs((newNPV - baseAnalysis.NPV) / baseAnalysis.NPV)),
|
|
})
|
|
}
|
|
|
|
// Sensitivity on annual savings (revenue/pricing sensitivity)
|
|
for _, variation := range sa.config.SensitivityVariations {
|
|
newSavings := baseAnalysis.AnnualSavings * (1 + variation)
|
|
newNPV := sa.npvCalc.CalculateNPV(
|
|
baseAnalysis.CapexRequired,
|
|
newSavings-baseAnalysis.OpexPerYear,
|
|
assumptions.DiscountRate,
|
|
assumptions.ProjectLifeYears,
|
|
)
|
|
|
|
scenarios = append(scenarios, SensitivityScenario{
|
|
VariableName: "annual_savings",
|
|
BaseValue: baseAnalysis.AnnualSavings,
|
|
VariationPct: variation,
|
|
ImpactOnNPV: (newNPV - baseAnalysis.NPV) / math.Abs(baseAnalysis.NPV),
|
|
RiskLevel: sa.calculateRiskLevel(math.Abs((newNPV - baseAnalysis.NPV) / baseAnalysis.NPV)),
|
|
})
|
|
}
|
|
|
|
// Sensitivity on OPEX
|
|
for _, variation := range sa.config.SensitivityVariations {
|
|
newOpex := baseAnalysis.OpexPerYear * (1 + variation)
|
|
newNPV := sa.npvCalc.CalculateNPV(
|
|
baseAnalysis.CapexRequired,
|
|
baseAnalysis.AnnualSavings-newOpex,
|
|
assumptions.DiscountRate,
|
|
assumptions.ProjectLifeYears,
|
|
)
|
|
|
|
scenarios = append(scenarios, SensitivityScenario{
|
|
VariableName: "opex",
|
|
BaseValue: baseAnalysis.OpexPerYear,
|
|
VariationPct: variation,
|
|
ImpactOnNPV: (newNPV - baseAnalysis.NPV) / math.Abs(baseAnalysis.NPV),
|
|
RiskLevel: sa.calculateRiskLevel(math.Abs((newNPV - baseAnalysis.NPV) / baseAnalysis.NPV)),
|
|
})
|
|
}
|
|
|
|
// Sensitivity on project life
|
|
for _, variation := range []float64{-0.2, 0.2} { // -20% and +20% variations
|
|
newLife := int(float64(assumptions.ProjectLifeYears) * (1 + variation))
|
|
if newLife < 1 {
|
|
newLife = 1
|
|
}
|
|
newNPV := sa.npvCalc.CalculateNPV(
|
|
baseAnalysis.CapexRequired,
|
|
baseAnalysis.AnnualSavings-baseAnalysis.OpexPerYear,
|
|
assumptions.DiscountRate,
|
|
newLife,
|
|
)
|
|
|
|
scenarios = append(scenarios, SensitivityScenario{
|
|
VariableName: "project_life",
|
|
BaseValue: float64(assumptions.ProjectLifeYears),
|
|
VariationPct: variation,
|
|
ImpactOnNPV: (newNPV - baseAnalysis.NPV) / math.Abs(baseAnalysis.NPV),
|
|
RiskLevel: sa.calculateRiskLevel(math.Abs((newNPV - baseAnalysis.NPV) / baseAnalysis.NPV)),
|
|
})
|
|
}
|
|
|
|
// Sensitivity on CO2 pricing (for carbon credit value)
|
|
for _, variation := range []float64{-0.5, 0.5, 1.0} { // -50%, +50%, +100% variations
|
|
co2Value := baseAnalysis.CO2AvoidedTonnes * 25 * (1 + variation) // Assume €25/tonne CO2 baseline
|
|
co2NPV := sa.npvCalc.CalculateNPV(
|
|
baseAnalysis.CapexRequired,
|
|
baseAnalysis.AnnualSavings-baseAnalysis.OpexPerYear+co2Value,
|
|
assumptions.DiscountRate,
|
|
assumptions.ProjectLifeYears,
|
|
)
|
|
|
|
scenarios = append(scenarios, SensitivityScenario{
|
|
VariableName: "co2_price",
|
|
BaseValue: 25.0, // €25/tonne
|
|
VariationPct: variation,
|
|
ImpactOnNPV: (co2NPV - baseAnalysis.NPV) / math.Abs(baseAnalysis.NPV),
|
|
RiskLevel: sa.calculateRiskLevel(math.Abs((co2NPV - baseAnalysis.NPV) / baseAnalysis.NPV)),
|
|
})
|
|
}
|
|
|
|
return scenarios
|
|
}
|
|
|
|
// calculateRiskLevel determines risk level based on NPV impact
|
|
func (sa *SensitivityAnalyzerImpl) calculateRiskLevel(impact float64) string {
|
|
switch {
|
|
case impact < sa.config.RiskThresholds.Low:
|
|
return "low"
|
|
case impact < sa.config.RiskThresholds.Medium:
|
|
return "medium"
|
|
case impact < sa.config.RiskThresholds.High:
|
|
return "high"
|
|
default:
|
|
return "critical"
|
|
}
|
|
}
|